(EMAILWIRE.COM, March 04, 2016 ) Lindsay, Ontario -- For a little over a year, Cool Cables has been selling a series of premium quality XLR microphone cables, available exclusively on Amazon.com. Due to some potential trademark issues, and other factors, they have decided to change the name to Vitrius Cables, rather than pursue any legal avenues. They also discovered, through a survey of their target audience, that the name Cool Cables wasn't as cool as had been hoped, and didn't seem to resonate with these pro audio users as much as Vitrius does.

For those curious about the name..Vitrius is a re-spelling of the word, vitreous. It refers to the clear fluid in the human eyeball that allows it to always return to its spherical shape. This fluid is known as vitreous humor. The name Vitrius therefore implies a transparent, see-through quality, allowing the musical signals to pass through the cable clearly.

A lot of research has gone into finding the best type of cable, high quality XLR connectors, and a degree of quality control that makes every cable a reliable, but affordable one. A cable that ruins that perfect take in a recording, or cuts out during that crucial moment in a live performance, can be a disaster. The cheaper cables often fall prey to quality control issues..they fail prematurely, or don't work at all. These problems have been addressed by Vitrius Cables. Their quality control is very high. This is why they can offer an unconditional 5-year product replacement warranty on every cable.

Vitrius Cables are the same premium quality XLR microphone cables as Cool Cables..at similarly affordable prices. There are currently 5 cable lengths available: 6ft; 10ft; 15ft; 25ft; and 50 ft. A 3ft. patch cable, and a 20 ft. mic cable will likely be added in the summer of 2016. Meanwhile, the Cool Cables inventory at Amazon.com will continue to be available until stock runs out. Current Cool Cables customers will still be getting the 5-year warranty they were offered, as this will be honored by Vitrius Cables. The same warranty will also be offered on all Vitrius Cables.

About webnichol enterprises

Webnichol Enterprises has been in the affilitate marketing sector since 2009. Their current line of premium quality XLR microphone cables includes 5 popular cable lengths, under the new brand name, Vitrius Cables. Initially, these cables will be sold through Amazon.com, but will expand to other markets in the coming months and years.


Tim Nichol
1-705-324-7645
info@vitriuscables.net

Source: EmailWire.Com

(EMAILWIRE.COM, March 05, 2016 ) Market outlook of the global IoT devices market

The Internet-of-Things (IoT) is a network of physical devices that are interconnected through various network technologies. The global market for IoT devices is positively influenced by factors like the changing consumers lifestyle and growing preference for technologically advanced products, which results in its profound CAGR of more than 43% by 2019.

Recent increase in the number of smart homes is a major driver that influences growth in this market during the forecast period. A smart home connects domestic appliances like heating modules, air conditioning units, television sets, lighting systems, PCs, entertainment systems, security devices, and camera systems using communication units such as smartphones and connected tablets. Since smart homes offer the user complete operational control over appliances, their augmented demand during the forecast period is expected to result in this markets impressive growth by 2019.

Competitive landscape and key vendors

Since this market is still in its nascent stage, high growth is expected during the forecast period. However, at present, this market is dominated by a few large enterprises like Carrier Corp., LG, and Honeywell International as they have extensive product portfolios.

Key vendors in this market are -

Carrier Corp.
Ecobee
Honeywell International Inc.
Ingersoll-Rand plc
Nest Labs
LG
Motorola
Pebble
Samsung
Sony
AGC Group
DuPont
PPG Industries
Saint-Gobain
Other prominent vendors in this market are Computime, Emerson, Energate, Radio Thermostat Company of America, Venstar, Garmin, Martian, Mota, Qualcomm, 3M, ASG, AutoGlass, Balcony Systems, BASF, Bayer, Cardinal Glass Industries, Carlex, ChromoGenics, Citala, Corning, Domoticware, Dow Chemical, Garware Suncontrol, Gentex, Gesimat, GKN Group, GlasNovations, Heliotrope Technologies, Hitachi Chemicals, ICE AV, Innovative Glass, InvisiShade, Kinestral Technologies, LTI Smart Glass, NeoView Kolon, Nippon Sheet Glass, Pleotint, Polytronix, Pulp Studio, Ravenbrick, Scienstry, Sekisui Chemical, Smartglass International, Solutia, SPD Control Systems, Switch Materials, US e-Chromic, VELUX, View, and Xinology.

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Product-based segmentation of the IoT devices market

Smart refrigerators
Smart lighting system
Smart ACS
Smart watches
Smart thermostats
Smart glasses
Technavios market research analyst has estimated the smart lighting system segment to account for more than 45% of the total market share by 2019. The growing focus on energy consumption and the introduction of strict government policies pertaining to energy consumption are the major growth impelling factors in this segment during the forecast period.

Geographical segmentation of the IoT devices market

Americas
APAC
EMEA
In this market study report, analysts estimate factors like rapid advances in technology and changing consumer preferences over the usage of electronic devices to spur market growth in the Americas during the forecast period. The Americas currently dominate this market in terms of revenue shares and is expected to reach close to 49% by 2019.

Key questions answered in the report include

What will the market size and the growth rate be in 2019?
What are the key factors driving the global IoT devices market?
What are the key market trends impacting the growth of the global IoT devices market?
What are the challenges to market growth?
Who are the key vendors in the global IoT devices market?
What are the market opportunities and threats faced by the vendors in the global IoT devices market?
Trending factors influencing the market shares of the EMEA, Americas, and APAC?
What are the key outcomes of the five forces analysis of the global IoT devices market?
Technavio also offers customization on reports based on specific client requirement.

Related reports

Global IoT Security Market 2015-2019
Global Industrial IoT Market: Research report 2015-2019
Internet of Things (IoT) Market in China 2015-2019
Global Internet of Things (IOT) Market 2015-2019

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Table Of Content

Table of Contents
PART 01: Executive summary
Highlights
Market overview
Top-vendor offerings
PART 02: Scope of the report
Research methodology
PART 03: Market research methodology
Economic indicators
PART 04: Introduction
Key market highlights
PART 05: Market landscape
Market overview
Market size and forecast
Five forces analysis
PART 06: Market segmentation by product
Global IoT devices market by product 2014-2019
Global IoT devices market by smart refrigerators
Global IoT devices market by smart lighting
Global IoT devices market by smart AC
Global IoT devices market by smart watches
Global IoT devices market by smart thermostats
Global IoT devices market by smart glasses
PART 07: Geographical segmentation
Global IoT devices market by geographical segmentation 2014-2019
PART 08: Market drivers
PART 09: Impact of drivers
PART 10: Market challenges
PART 11: Impact of drivers and challenges
PART 12: Market trends
PART 13: Vendor landscape
Smart refrigerators
Smart lighting
Smart AC
Smart thermostats
Smart watches
Smart glasses
PART 14: Key vendor analysis
Carrier
ecobee
Honeywell International
Ingersoll-Rand
Koninklijke Philips
LG Electronics
Motorola Mobility
Nest Labs
Pebble
Samsung Electronics
Sony
PART 15: Appendix
List of abbreviations
PART 16: Explore Technavio

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(EMAILWIRE.COM, March 05, 2016 ) Next generation smart wearables leverage better technology, they support high quality data gathering in the specific sport or activity in which they are being used. Devices are highly targeted to specific situations.

The wearables technology is evolving: better data gathering, better reliability, better navigation, better ability, better analytics to turn data into information are provided. Wearables are useful for measuring the effect of different activities on performance. Devices are useful for measuring different levels of personal effort, swing a bat, running a mile, carrying a football, enduring a hit to the head. Affordable, useful wrist wearables are available with a increasing number of data collection functions. The study has 565 pages and 228 tables and figures.

In sports and fitness technology, it is not about what data can be shown, it is how meaningful the data is in terms of improving athletic performance or managing overall personal fitness. Wearables have become fitness and sports personal devices. They bring big data, enough data that it can be turned into actionable information.
Devices are being used by athletes and coaches to make team members better players. Fitness devices are being used to increase the levels and qualities of exercise. Whether it is an UP band or Zepp, vendors have been forced to realize that people need interpretation of data, they need to know the meaning of data collected by the wearable.

Wearable technology is poised to affect the way any game is played by professionals, shifting sports more than anything has ever done before. Sports and smart technology are poised to give teams that are early adopters significant competitive advantage. Professional sports teams and professional athletes are early adopters of wearable sensors, driving market growth.

The professional athletes have the money to spend of development products. They have the most to gain from athletic performance improvements. Within the wearables industry, there seems to be a big market for professional athletes who need that edge over their competitors to stay in the game.

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Sports wearables consist of sensors, tracking devices, and software apps that implement sports analytics Sports Analytics: Performance Devices, Watches, Sensors, And Wearable Apparel Technology Brings Wearable Technology for Sports. This Revolutionizes Athlete Performance Analysis Leading To Training and On Field Play Improvement And Presages Changes In Team Composition.

Performance watches, sensors, and wearable apparel technology are bringing massive changes in sports, changes in how the game is played, how the the teams and athletes are managed. Wearable Technology for sports revolutionizes athlete performance analysis and ultimately brings on field play improvement.

Recreational fitness consumers and corporate wellness programs are also target markets. Wearable technology and analytical software revolutionize sports and fitness training, implementing performance improvement and injury prevention
Sports analytics: is evolving beyond on field ply analysis to biometrics analysis. The ability to analyze joint, muscle, heart, respiratory, cadence, and endurance parameters of the athlete or ordinary user is significant. In addition, the swing of the bat or the racket can be analyzed.

Wearables represent a multi-billion dollar industry. Within the wearables sports and fitness analytics industry, growth comes from professional athletes and teams that need to achieve an edge over their competitors and from consumers wishing to gain performance advantage in their routines by imitating what the professionals do. Performance can be improved, coaching can be improved using wearable tracking devices.

Smart wearables for fitness and sports forecasts indicate that the evolution of smart devices is in the context of smart phone adoption going to 9.5 billion by the end of the forecast period. The ability to offer sophisticated analytics for the wearable devices is what provides sophisticated application capabilities. Apps are further evolving to provide tracking of motion and help provide mastery of various techniques for mastering some aspect of sport or fitness.

And with professional athlete adoption of wearables, comes semi professional and amateur use of the devices. Fitness adoption is from all these categories of users. Fitness devices are used to promote exercise in hopes of improving overall health.
Sports and fitness performance wearables markets at $3.5 billion in 2014 are anticipated to reach $14.9 billion by 2021. Market growth comes as wearables technology further evolves. The sports and fitness portion of the wearables segment is just part of a larger market. With technology maturity, price points will decline rapidly and affordability will drive market growth.

Companies Profiled

Market Leaders

Apple
Garmin
Sony Pebble
adidas AG / Reebok
Stats Nike
Zepp
StretchSense
Samsung
Catapult
Babolat
Nike
Performance Sports Group

Market Participants

Adidas
Basis
Blast Motion
Casio
Crossmatch
Diamond Kinetics
Epson
Fitbit
FlexTech Alliance
GoPro
Made in Sense Happic
Heddoko
Huawei
iHealth
Immersion TouchSense
GN Store Nord / Jabra
Jawbone
LG
LifeTrak
Lumo
Major League Baseball (MLB) Teams
Martian
MC10
MioGlobal
Misfit
Motus
Myontec
MYOVOLT
National Football League (NFL)
Netatmo
Notch
Pivothead
Polar
Pivotal
StretchSense
Stonecrysus
Speedo
TCL Communications / Alcatel ONETOUCH
Thalmic Labs
Vicis
Vista Equity Partners / STSTS
Withings
Xensr
Xiaomi
Zepp

Key Topics

Smart fitness wearables
Smart health wearables
Smart sport wearables
Fitness trackers
Sport
IFA
Smart Wearables
Sport trackers
Fitness
Digital health wearables
Fitness Apps
Sports Apps
Coaching Apps
Fitness Analytics
Exercise Apps
Sports Analytics
Coaching Analytics
Personal Technology
Health, Fitness, And Sport
Exercise Trackers
Exercise Analytics
Baseball Wearable Technology
Wearables Bands
Exercise Bands
Basketball Wearables
Swim Wearables
Tennis Wearables
Hockey Wearables
Soccer Wearables
Bicycling Wearables
Golf Wearables
Telemedicine Apps

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Table of Contents

Sports Wearables: Executive Summary 41
Sports Performance Wearables and Sensor Devices: Market Driving Forces 41
Wearable Technology Uses Biometric Sensors 44
Wearables: Fitness & Sport Tech 46
Wearables Market Shares 47
Sports Performance Wearables: Market Forecasts 48

1. Sports Wearables: Market Description And Market Dynamics 50
1.1 Professional Sports Teams Using Wearables 50
1.1.1 Fabric Sensors 50
1.2 Wearable Sport And Fitness-Related Monitoring Devices 51
1.3 Wearables Impact Coaching at the Professional Level 52
1.4 Catapult NBA Sports Player Movement Data Example 53
1.5 Wearables: Intersection of Personal Technology With Health, Fitness, And Sport 55
1.6 Sports Apparel Business Constraints 55
1.7 World Economy 59

2. Sports Wearables: Market Shares And Market Forecasts 60
2.1 Sports Performance Wearables and Sensor Devices: Market Driving Forces 60
2.1.1 Wearable Technology Uses Biometric Sensors 63
2.1.2 Wearables: Fitness & Sport Tech 65
2.2 Wearables Market Shares 66
2.2.1 Samsung 68
2.2.2 Catapult 68
2.2.3 Catapult OptimEye S5 Sensor 69
2.2.4 Apple Watch 69
2.2.5 Nike 70
2.2.6 Garmin 71
2.2.7 Sony 71
2.2.8 Polar Loop 2 72
2.2.9 Zepp 72
2.2.10 Jawbone 73
2.2.11 Fitbit 73
2.2.12 Babolat 74
2.2.13 Fatigue Science Readiband Electronic Wristband 74
2.2.14 Microsoft 74
2.2.15 Performance Sports Group 75
2.2.16 Performance Sports Group Tracking Devices 75
2.2.17 StretchSense Wearable Sensors Measure Muscle Strains 76
2.2.18 Xiaomi 76
2.3 Sports Performance Wearables: Market Forecasts 77
2.3.1 Sports Performance Wearables: Market Unit Forecasts 79
2.4 Sports Performance Wearables: Market Segment Forecasts 81
2.4.1 Wearable Trends to Watch through 2021 83
2.5 Wearables Sports and Fitness Tracker and Analytics Segments: Market Shares and Market Forecasts 87
2.5.1 Major League Baseball (MLB) Wearable Market Shares and Market Forecasts 90
2.5.2 National Basketball Association (NBA) Wearable Market Shares and Market Forecasts 93
2.5.3 NBA Wearables Market Shares and Market Forecasts 93
2.5.4 Football Wearables Market Shares and Market Forecasts 97
2.5.5 Soccer 102
2.5.6 Tennis Wearable Market Shares and Market Forecasts 105
2.5.7 Smart Bicycling Wearable Electronics 106
2.5.8 Golf Wearable Market Shares and Market Forecasts 108
2.5.9 Hockey 110
2.5.10 Wearable Smart Bands Market Shares and Market Forecasts 113
2.5.11 Wearable Tracking Bands Market Shares and Market Forecasts 116
2.6 Sports Wearables: Prices 120
2.6.1 Apple Watch 121
2.7 Sports Wearables: Venture Capital and Grant Contract Funding 122
2.7.1 FlexTech Alliance Wearable Tech 122
2.8 Sports and Fitness Wearables Regional Market Segments 122
2.9 Sports Apparel Market Segments 124

3. Sports Wearables: Market Opportunity And Product Description 127
3.1 Baseball Wearable Technology 127
3.2 Zepp 129
3.2.1 Zepp Partnerships 130
3.3 Blast Motion Baseball 130
3.4 Diamond Kinetics SwingTracker 131
3.5 Motus Global Pitching Sleeve 134
3.5.1 Motus Smart-Sleeve 135
3.5.2 Motus Technology For Football, Basketball, Tennis, Lacrosse, And Golf: Tailored Analytics 142
3.6 NBA US Basketball 145
3.6.1 NBA Teams 146
3.6.2 NBA Healthy in LA And Big Markets 146
3.7 US Football NFL 147
3.8 Catapult Trackers 149
3.8.1 Catapult Biomechanical Athlete Performance Analysis Sensors 150
3.9 VICIS Football Helmet 154
3.10 Zephyr Technology 155
3.11 Catapult OptimEye S5 Sensors 158
3.11.1 Catapult OptimEye G5 for Goalies 161
3.12 Adidas miCoach Smart B 162
3.13 GoPro 163
3.14 Reebok CheckLight / MC 10 165
3.15 Zebra Shoulder Pad Sensors 166
3.16 MC10 Biostamp 167
3.17 Google Glass 168
3.18 Microsoft Surface Pro 170
3.19 Stat Sports Viperpod Tracking 171
3.19.1 Stat Sports ViperPod 172
3.19.2 Gaming Companies Take Interest in Stats Information 172
3.20 Soccer 173
3.21 Adidas Wearables 174
3.22 Tennis Wearable and Embedded Sensor Biometric Technology 174
3.23 Babolat Play Pure Drive Tennis Racquet 175
3.23.1 Babolat Tour Pros 178
3.24 Zepp Tennis Racket Sensor 186
3.25 Smart Bicycling Wearable Electronics 187
3.26 Garmin Bike Sensors 187
3.27 Golf Wearable Sensors 188
3.28 Zepp Wearable Golf Sensors 189
3.29 Olympian Sports Wearable Technology 191
3.30 Fatigue Science Readiband Electronic Wristband Sleep Monitoring 192
3.30.1 Fatigue Science Readiband Electronic Wristband 194
3.31 Myontec Mbody Pro 196
3.32 BSX Insight 198
3.32.1 BSX Insight Near-Infrared Spectroscopy 198
3.33 Stonecrysus 200
3.34 Thalmic Labs 202
3.34.1 Thalmic Labs Myo Armband Wirelessly Control Technology With Gestures And Motion 202
3.35 Xensr 204
3.36 Hockey 205
3.36.1 Ice Hockey Participation Rates and Demographics 205
3.36.2 Ice Hockey Equipment and Apparel Industry Market 206
3.36.3 Roller Hockey 207
3.37 Performance Sports Group 209
3.37.1 Performance Sports Group Tracking Devices 209
3.37.2 Performance Sports Group Bauer Hockey 209
3.38 Wearable Motion Capture Interfaces 214
3.39 StretchSense 215
3.39.1 StretchSense Wearable Sensors Measure Muscle Strains 216
3.39.2 StretchSense Smart Garments 218
3.40 Heddoko 220
3.40.1 Heddoko Smart Garment 220
3.41 Notch 224
3.42 MYOVOLT Muscle Stimulation 224
3.42.1 MYOVOLT™ Vibration Frequency Range 225
3.43 FlexTech Alliance Including Apple, Boeing, and Pentagon Team to Develop Wearable Technology 229
3.43.1 FlexTech Alliance 229
3.44 Apple Watch 230
3.44.1 Apple Watch Precise Stopwatch Used for Timing Sprints 232
3.44.2 Apple Watch Health & Fitness 233
3.44.3 Digital Crown Makes Apple Watch Personal Device 234
3.44.4 Apple Watch Single Crystal of Sapphire Display 236
3.44.5 Apple Watch Recognizes Touch, Senses Force 237
3.44.6 Apple Watch Based Around Life And Schedule 237
3.44.7 Apple Watch Infrared And Visible-Light LEDs and Photodiodes To Detect Heart Rate 240
3.44.8 Apple Watch Speaker and Magnifier 241
3.44.9 Apple Watch Customization 241
3.45 FlexTech Alliance Wearable Tech 245
3.46 IBM Cloud Computing for Wearable Sports and Health Products 246
3.46.1 IBM Cloud / Arm 246
3.47 Fitbit Zip 247
3.47.1 Fitbit One 249
3.47.2 Fitbit Flex 251
3.47.3 Fitbit Charge 253
3.47.4 Fitbit Charge HR 255
3.47.5 Fitbit Surge 257
3.48 Nike 259
3.49 Pebble Time 259
3.49.1 Pebble Time Steel 262
3.50 Jawbone UP2 Tracker 263
3.50.1 Jawbone UP3 Tracker 265
3.50.2 Jawbone UP4 Tracker 266
3.50.3 Jawbone UP Move 268
3.51 Withings Activité 269
3.51.1 Withings Activité Pop 270
3.51.2 Withings Pulse Ox 272
3.52 LG Watch Urbane 274
3.52.1 LG Classic Design & Customization 275
3.52.2 LG Lifeband Touch* Activity Tracker – Medium 275
3.52.3 LG Fitness Band (FB84-BM) 276
3.52.4 Bright OLED Touch Screen 276
3.53 Misfit Shine 277
3.53.1 Misfit Flash 280
3.53.2 Misfit Beddit 284
3.54 Garmin Forerunner® 620 Running Monitor 286
3.54.1 Garmin Forerunner 620 VO2 Max Calculation Parameters 289
3.54.2 Garmin Supports Training and Racing 290
3.54.3 Garmin Rest Day or Run Day 291
3.54.4 Garmin Forerunner® 225 294
3.54.5 Garmin Forerunner® 25 296
3.54.6 Garmin Forerunner® 920XT 297
3.54.7 Garmin Forerunner® 310XT 299
3.54.8 Garmin Swim wearable 301
3.55 Epson Pulsense™Fitness Watch & Band 303
3.55.1 Epson Runsense™GPS Sports Watches 307
3.55.2 Epson Runsense WatchSF-110 307
3.55.3 Epson Runsense WatchSF-110 Stride Measurement & Accelerometer 309
3.55.4 Epson Runsense WatchSF-110 Heart Rate Monitoring 311
3.56 Huawei TalkBand B1: Hiking And Surfing 312
3.56.1 Huawei TalkBand B2 314
3.57 Sony SmartBand Talk SWR30 317
3.57.1 Sony SmartWatch 3 SWR50 319
3.58 TCL / Alcatel ONETOUCH Watch™ - Small/medium Band (Black) 320
3.59 Zephyr Technology 326
3.60 Pivotal Living Tracker 329
3.61 Xiaomi Mi Band 331
3.62 MioGlobal 332
3.62.1 Mio FUSE 337
3.63 Polar M400 GPS Running Watch 337
3.63.1 Polar V650 Smart Bicycle Computer 340
3.63.2 Polar V800GPS Sports Watch 342
3.63.3 Polar Loop 344
3.63.4 Polar Loop 2 345
3.64 Samsung Activity Tracker 347
3.64.1 Samsung Gear S 348
3.65 Netatmo June 350
3.66 Basis Peak 351
3.67 Lumo Lift 353
3.68 LifeTrak Core C200 355
3.68.1 LifeTrak Core C210 357
3.68.2 LifeTrak Core C300 360
3.68.3 LifeTrak Brite R450 362
3.69 Martian Notifier 370
3.70 Runtastic Moment 377
3.71 iHealth Wave Swim Tracker 377
3.72 Made in Sense Limited Happic Smart Band 379
3.73 Misfit Speedo Shine 380
3.74 Vector Luna 380
3.75 Jabra Sport Coach 382

4. Sports Wearables Technology And Research 384
4.1 Ear-Based Biometric Wearable Devices 384
4.2 Performance Sports Group Illustrates Research and Development Positioning 384
4.3 Apple Watch Single Chip Module 387
4.3.1 Apple Watch GPS and Accelerometer 388
4.4 Jawbone UP3 Heart Rate Bio impedance Technology Features 388
4.5 Mio Heart Rate Technology 389
4.6 Huawei TalkBand B1 NFC Fast Pairing 390
4.7 Xiaomi Mi Band Aluminum Alloy Sensor Surface 390
4.7.1 Xiaomi Mi Hypoallergenic Band 390
4.8 Biometric Sensors 391
4.9 Zepp Technology 391

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(EMAILWIRE.COM, March 05, 2016 ) The drone technology is evolving: better stability, better reliability, better navigation, softer landings, longer flights, better ability to carry different payloads. Affordable, useful camera drones are available. The study has 967 pages and 405 tables and figures.

Drones are smart when they have sensors and software that permits automated response to camera or sensor input. Smart drones are evolving the ability to interconnect to smart phones, but drones are smart even without smart phone guidance systems. Smart commercial drones connect seamlessly and securely to the Internet and to each other.

Smart commercial drones have a computer inside. They are easy to fly, maneuverable remotely, contain sensor logic. Soon all smart drones will have computer driven collision avoidance technology. Remote operation occurs in the context of a workflow and sensors. Cameras are improving dramatically to permit management of video and picture taking that is realistic and detailed.

In this study, we illustrate how drones achieve doing work even though they are remotely controlled. Drones are expected to provide billions of dollars in economic growth. The economic benefits are significant. Developing countries are more receptive to drones than the U.S. is. In the US the FAA early on granted one exception, then granted 8 commercial UAS exemptions, then 10 more. It has by now granted 1,000 exceptions, but this does not a market make.

Smart commercial drones connect seamlessly and securely to the Internet and to each other. Smart commercial drone aerial vehicle (UAV) technology has reached a level of maturity that has put these systems at the forefront of aerospace manufacturing. Procurement around the world is adapting to drone availability.

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Use cases are evolving rapidly for video, specialized video, targeted video, and package delivery systems. The emergence of stable flight collision avoidance systems makes market maturity a certainty. Use in the global war on terrorism has demonstrated unique usefulness for military intelligence, surveillance, reconnaissance and communications relay achieving 3 million hours of operation. Small commercial drones are being used to shoot video from the air, proving the viability of drone camera systems.

The relatively low-cost of smart commercial drones make them work for civilian applications. Law enforcement, mapping, video making, movie making, environmental monitoring, and aerial survey are positioned as among many evolving compelling applications.

Drone aircraft are sophisticated and flexible. They take off, fly and land autonomously managed by a remote controller. They enable engineers to push the envelope of normal flight. Reconnaissance drones can fly for days continuously. Remote, ground-based pilots can work in shifts.

New technology from Intel and others provides collision avoidance capabilities actually works. This bodes well for market development.
Smart commercial drone systems promise to grow significantly, approaching the growth paths of PCs and smart phones. New technology is able to achieve a significant improvement in workflow for every industry, starting with agriculture, creating a smart drone commercial market presence. US Army unmanned aircraft systems have flown 3 million flight hours giving commercial drones market credibility.

Quantities of fielded smart drone systems have been increasing for those companies with attractive price points. Video drones continue to proliferate. Police departments, the oil and gas industry, border patrol, and utilities are all using commercial drones. Units used for agriculture have diverse applications from spraying, lifting trays of flowering plants, to rounding up cattle.

A common issue with UAV platforms is the need to optimize these aircraft. UAV are used to carry useful payloads. These platforms are flexible as to payload, permitting interchangeable or additional sensors and other electronics, extra fuel or weapons systems. The sole function of an unmanned aircraft is to get to a target location, perform a task, and then return in the most efficient and cost-effective way. Without a pilot aboard, the return trip is optional. Light weight is central to UAV design.

Drones represent a way to use air to travel faster and at less cost. The market is divided between military and commercial drones. Military drones represent the future of the national security presence for every nation. Increasing technology sophistication and lower costs are achieving dramatic market shifts.

Smart commercial drones are set to build highways in the sky. The market has evolved past the early adopter stage as the industry finds ways to build navigation infrastructure that is safe. The mature collision avoidance systems from Intel and others are part of what make the smart commercial drone market work.

Drone unmanned aerial vehicle (UAV) technology has reached a level of maturity that has put these systems at the forefront of aerospace manufacturing. Procurement around the world is adapting to drone availability. Use in the global war on terrorism has demonstrated unique usefulness for military intelligence, surveillance, reconnaissance and communications relay.

Removal of the need for an onboard pilot ushers in an era of low cost drone aerial craft. The drone elimination of the need for human support systems on aircraft dramatically reduces the aircraft’s size, complexity, and power requirements. The drones effectively reduce overall program cost, development time and risk. Many advanced flight technologies are for piloted craft. These are initially tested using unmanned subscale demonstrators.

Designers work to simplify the aircraft’s configuration, making systems that are adaptable to different payloads on different days. Drones can be redesigned and tested at reduced risk than with development of manned aircraft. Drones allow configurations that would be impossible or impractical for human occupation. Drones are becoming easier to control.

A common issue with UAV platforms is the need to optimize these aircraft. UAVs need to carry useful payloads. These platforms are flexible as to payload, permitting interchangeable or additional sensors and other electronics, extra fuel or weapons systems. The sole function of an unmanned aircraft is to get to a target location, perform a task, and then return in the most efficient and cost-effective way. Without a pilot aboard, the return trip is optional. Light weight is central to UAV design.

Drones represent a way to use air to travel payloads faster and at less cost and to use video as a way to do work and be entertained. The market is divided between rotor and fixed wing smart commercial drones, rotor craft dominate the market representing 75% of the market revenue. Smart commercial drones represent the future of automated process for camera applications. They are complimented by military drones that represent the future of the national security presence for every nation. Increasing technology sophistication and lower costs are achieving dramatic market shifts as investment in these parallel types of devices bring product maturity.

Drone unmanned aircraft systems are achieving a level of relatively early maturity in this manner, having parallel markets. Fleets of unmanned aircraft systems have begun to evolve. The U.S. Army has achieved four million flight hours for its unmanned aircraft systems fleet. Unmanned aerial systems have good handling characteristics. Drone UAS units are designed to support taking remarkable video using stable platforms. Other military drones perform high-speed, long-endurance, covert, multi-mission intelligence, surveillance, and reconnaissance (ISR) and precision-strike missions over land or sea.

According to Susan Eustis, leader of the team that prepared the study, “Quantities of fielded smart commercial drone systems of every size and description are set to increase. Every photo opportunity can be enhanced vis use of a smart drone. Drones will connect to smart phones. Drones can fly indoors. Smart commercial drones units feature a variety of camera attachments, sensors, and internal loads. Large 2,000 pound payloads are possible, package delivery is set to emerge as a significant sector. Electro-optical/Infrared (EO/IR) sensor, and an all-weather synthetic aperture radar indicators are maximizing long loiter capabilities and increasing the usefulness of smart commercial drones.

Smart commercial drones drone markets at $3.4 billion in 2014 are anticipated to reach $27.1 billion by 2021. This forecast number is arrived at by close examination of all the segment growth trajectories. Segments are, Agriculture, Oil and Gas, Border Patrol, Law Enforcement, Homeland Security, Disaster Response, Package Delivery, Photography, Videography. Each of these will grow at a different pace, depending on the use case effectiveness of the smart commercial drones.Commercial grade consumer video drones represent the largest revenue segment in 2015 and remain the biggest throughout the forecast period.

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software. The company has 35 distributors worldwide, including Global Information Info Shop, Market Research.com, Research and Markets, Bloomberg, electronics.ca, and Thompson Financial. WinterGreen Research is positioned to help customers facing challenges that define the modern enterprises. The increasingly global nature of science, technology and engineering is a reflection of the implementation of the globally integrated enterprise. Customers trust wintergreen research to work alongside them to ensure the success of the participation in a particular market segment.

WinterGreen Research supports various market segment programs; provides trusted technical services to the marketing departments. It carries out accurate market share and forecast analysis services for a range of commercial and government customers globally. These are all vital market research support solutions requiring trust and integrity.

Companies Profiled

Market Leaders

DJI Systems
Parrot
BAE
Yamaha
China Aerospace
Ascending Technologies
Go Pro
Elbit Systems Ltd
Israel Aerospace Industries IAI
3D Robotics
Northrop Grumman
AeroVironment
Boeing / Insitu
General Atomics
Lockheed Martin
Draganflyer
Textron / AAI

Market Participants

Airware
Ascending Technologies AscTec Firefly
ASN Technologies 715
Aurora Flight
Aviation Industry Corp (AVIC)
Challis UAV Inc.
5.11 China Aerospace
Cyphy
Delair-Tech
Denel Dynamics
Draganflyer
Elbit Systems Ltd
Finmeccanica
Flirtey
General Dynamics
Google
Honeywell
HUVRData, LLC
Integrated Dynamics
Intel
Japan Drones
L-3 Communications
Laird / Cattron Group International
Laser Motive
Marcus UAV
MMist
Parrot/senseFly
Prox Dynamics
Proxy Technologies
RUAG Aerospace
Safran Morpho
SAIC
Scaled Composites
Schiebel
Secom
Skycatch
Textron
Topcon Positioning Group
TRNDlabs
XAircraft
Wing Looong
ZMP

Key Topics

Commercial Drones
Smart Commercial Drones
Autonomous systems
Drones
UAS
Drone Unmanned Aerial Systems (UAS)
Drone 3D Mapping
Drone Surveillance
Drone Reconnisance
Drone Intelligence
Drone Missles
Drone Agriculture, Smart Commercial Drones Oil and Gas
Smart Commercial Drones Border Patrol
Smart Commercial Drones Law Enforcement
Homeland Security Smart Commercial Drones
Disaster Response Smart Commercial Drones
Package Delivery Smart Commercial Drones
Smart Commercial Drones Photography, Videographynchers Smart Commercial Drones
Drones, Fukushima Nuclear Power Plant,
Smart Commercial DronesNuclear energy, radiation
Smart Commercial Drones Aerial Refueling

Browse Detail Report With TOC @ http://www.researchmoz.us/smart-commercial-drones-market-shares-strategy-and-forecasts-worldwide-2015-to-2021-report.html

Table Of Content

SMART COMMERCIAL DRONE AERIAL SYSTEMS (UAS) MARKET
SHARES AND FORECASTS 74
Smart Commercial Drone Market Driving Forces 74
UAS Challenges 83
Smart Commercial Drone Unmanned Aerial Systems (UAS) 84
Smart Drone Infrastructure Standards 85
Smart Commercial Drone Market Shares 86
Smart Commercial Drone Market Forecasts 88
Smart Commercial Drone Aerial Systems (UAS), Market Total Forecasts 89

1. SMART COMMERCIAL DRONES: MARKET DESCRIPTION AND MARKET DYNAMICS 91
1.1 Smart Commercial Drones 91
1.1.1 Smarat Drones: Commercial Unmanned Aerial Systems (UAS) Description 91
1.2 Drone Enhanced Capability and Payloads 93
1.2.1 Unmanned Aerial Systems (UAS) Enhanced Resilience 96
1.2.2 Small and Micro-UASs 96
1.2.3 Unmanned Aerial Systems (UAS) Perimeter Surveillance 96
1.2.4 Unmanned Aerial Systems (UASs) Surveillance 97
1.3 Georeferenced Imagery 98
1.3.1 Unmanned Aerial Systems (UAS) Traffic Monitoring 99
1.3.2 Unmanned Aerial Systems (UAS) Agriculture Mapping 100
1.3.3 Unmanned Aerial Systems (UAS) Homeland Security 101
1.3.4 Unmanned Aerial Systems (UAS) for Scientific Research 103
1.4 Globalization and Technology 105
1.4.1 Proliferation of Conventional Military Technologies 105
1.4.2 Drones General Roles 106
1.5 Border Patrol: 106
1.6 Development Of Lighter Yet More Powerful Power Sources For UASs 107

2. SMART COMMERCIAL DRONE AERIAL SYSTEMS (UAS) MARKET SHARES AND FORECASTS 109
2.1 Smart Commercial Drone Market Driving Forces 109
2.1.1 UAS Challenges 118
2.1.2 Smart Commercial Drone Unmanned Aerial Systems (UAS) 119
2.1.3 Smart Drone Infrastructure Standards 120
2.2 Smart Commercial Drone Market Shares 121
2.2.1 DJI Phantom 124
2.2.2 Parrot AR.Drone $299, Flies Off a Roof 125
2.2.3 Ascending Technologies AscTec Firefly 126
2.2.4 Ascending Technologies Professional Line 127
2.2.5 AscTec For Professional Drone Users: 127
2.2.6 Boeing A160 Hummingbird Helicopter 128
2.2.7 Insitu 129
2.2.8 Boeing Insitu 129
2.2.9 Lockheed Martin 130
2.2.10 BP and AeroVironment Launch FAA-Approved, Commercial Unmanned Aircraft Operations 130
2.2.11 AeroVironment's Extensive Operational Track Record 132
2.2.12 AeroVironment $11.2 Million Order for Raven Unmanned Aircraft Systems and Services 132
2.2.13 Textron /AAI 133
2.2.14 Textron Shadow® 136
2.2.15 Aurora Flight Sciences Odysseus Solar-Powered Aircraft 137
2.2.16 Draganflyer X4 UAV 137
2.2.17 DRS Unmanned Technologies Ground Control Stations 138
2.2.18 Proxy Aviation Systems 138
2.2.19 Northrop Grumman Bat 3 138
2.2.20 General Atomics Predator® UAS 139
2.2.21 General Atomics Predator® B UAS 141
2.3 Smart Commercial Drone Market Forecasts 142
2.3.1 Smart Commercial Drone Aerial Systems (UAS), Market Total Forecasts 143
2.4 Smart Commercial Drone Market Sector Shares and Forecasts 147
2.4.1 Smart Commercial Drone Aerial Systems (UAS) By Sector, Agriculture, Oil And Gas, Border Patrol, Law Enforcement, Homeland Security, Disaster Response, Package Delivery, Photography, Videography 148
2.4.2 Small and Mid Size Smart Commercial Drone Unmanned Aerial Systems 150
2.4.3 Smart Commercial Drone Systems Fixed Wing and Rotor Segments 151
2.5 Border Patrol / Law Enforcement Drone Unmanned Aerial Systems 152
2.5.1 Border Patrol / Law Enforcement Drone Unmanned Aerial Systems (UAS) Market Shares 152
2.5.2 Smart Commercial Drone Border Patrol / Homeland Security Aerial Systems Forecasts 155
2.6 Package Delivery Smart Drone Aerial Systems 156
2.6.1 Package Delivery Smart Commercial Drone Unmanned Aerial Systems (UAS) Market Shares, 156
2.6.2 Boeing ScanEagle UAV 157
2.6.3 Google Package Delivery 158
2.6.4 Package Delivery Smart Commercial Drone Aerial Systems Forecasts 159
2.7 Utility and Pipeline Inspection Smart Commercial Drone Aerial Systems 160
2.7.1 Utility and Pipeline Inspection Smart Commercial Drone Aerial Systems (UAS) Market Shares 160
2.7.2 Smart Commercial Drone Oil and Gas / Pipeline Inspection Aerial Systems Forecasts 164
2.8 Agricultural Inspection and Planting Smart Commercial Drone Aerial Systems 166
2.8.1 Commercial Drone Market Vertical Growth: Agriculture 166
2.8.2 Agricultural Inspection and Planting Smart Commercial Drone Aerial Systems (UAS) Market Shares 166
2.8.3 Yamaha RMAX 168
2.8.4 Prox Dynamics PD-100 Black Hornet 171
2.8.5 Draganfly Draganflyer X4-P 171
2.8.6 AscTec Firefly 172
2.8.7 3D Robotics 174
2.8.8 Agricultural Smart Commercial Drone Aerial Systems Forecasts 175
2.9 Photography and Videography Smart Commercial Drone Aerial Systems 176
2.9.1 Photography and Videography Smart Commercial Drone Aerial Systems (UAS) Market Shares 176
2.9.2 Smart Commercial Drone Film / Photo / Video 178
2.9.3 LiDAR 179
2.9.4 Smart Commercial Drone: Photography / Videography Systems Forecasts 181
2.10 Commercial Drone Aerial Mapping 182
2.10.1 GIS Professionals Are Willing To Pay For Drone Systems 185
2.10.2 GIS Software 186
2.10.3 UAS-Camera Integration 187
2.10.4 Maps Of Navigable Drone Highways In The Sky 187
2.10.5 Aerial Mapping Smart Commercial Drone Systems Forecasts 188
2.11 Military Drones Market Share and Market Forecasts 189
2.11.1 Military Drone Market Shares 189
2.11.2 Northrup Grumman 192
2.11.3 Military Drone Market Forecasts 196
2.11.4 Military Drone Market Segment Forecasts 197
2.12 Venture Investment in Drones 197
2.13 Follow Me Drones 198
2.14 Unmanned Aerial Systems Payloads 201
2.14.1 Composites Key to UAV Utility 202
2.15 Commercial Drone Prices 203
2.15.1 Parrot AR.Drone 2.0 Quadcopter Elite Edition 204
2.15.2 Parrot BeBop Drone Quadcopter with 14 Megapixel Flight Camera (Blue) 205
2.15.3 Parrot AR.Drone 2.0 Quadcopter Elite Edition (Sand) 206
2.15.4 Parrot BeBop Drone Quadcopter with Skycontroller Bundle (Red) 206
2.15.5 Parrot BeBop Drone Quadcopter with 14 Megapixel Flight Camera (Red) 207
2.15.6 Parrot BeBop Drone Quadcopter with Skycontroller Bundle (Blue) 207
2.15.7 Parrot BeBop Drone Quadcopter with Skycontroller and Soft Case Bundle (Red) 208
2.15.8 Parrot BeBop Drone Quadcopter with Backpack Bundle (Blue) 208
2.15.9 Parrot BeBop Drone Quadcopter with Backpack Bundle (Red) 209
2.15.10 Parrot BeBop Drone Quadcopter with Hard Case Bundle (Blue) 209
2.15.11 Parrot BeBop Drone Quadcopter with Hard Case Bundle (Red) 210
2.15.12 Parrot BeBop Drone Quadcopter with Wheeled Hard Case Bundle (Blue) 210
2.15.13 Parrot BeBop Drone Quadcopter with Wheeled Hard Case Bundle (Red) 211
2.15.14 Parrot AR.Drone 2.0 1500 mAh High Density Battery 211
2.15.15 Parrot LiPo Battery for AR.Drone 2.0 Quadcopter (11.1 V, 1000 mAh) 212
2.15.16 Parrot Battery for BeBop Drone and Skycontroller 212
2.15.17 Parrot Flight Recorder for AR.Drone 2.0 Quadcopter 212
2.15.18 Parrot Camera for BeBop Drone 213
2.15.19 Parrot Propellers for BeBop Drone (4-Pack, Red) 213
2.15.20 Parrot Wall Charger for BeBop Drone and Skycontroller 213
2.15.21 Parrot Skycontroller with Wi-Fi Range Extender for BeBop Drone (Red) 213
2.15.22 Parrot Repair Kit for BeBop Drone (Pair) 214
2.15.23 Parrot Feet Pack for BeBop Drone (4-Pack) 214
2.16 Smart Commercial Drone Regional Market Analysis 214
2.16.1 Smart Drone Commercial (UAV) Industry Regional Summary 216
2.16.2 U.S Accounts for 73 Percent Of The Worldwide Research,Development, Test, And Evaluation (RDT&E) Spending On Smart Drone UAV Technology 217
2.16.3 U.S. State Department Drone Export Guidelines 218
2.16.4 Canada 219
2.16.5 UK Trade In Drones 219
2.16.6 Drones for the Netherlands 220
2.16.7 Japan 220
2.16.8 Sony Drone Services 223
2.16.9 Japanese Drone Works Inside The Nuclear Power Plant 225
2.16.10 China 227
2.16.11 Chinese Smog-Fighting Drones That Spray Chemicals To Capture Air Pollution 227
2.16.12 China Desires Exports, Steps Up Research In Military Drones 229
2.16.13 Singapore 230
2.16.14 Brazil 230
2.16.15 Morocco 231
2.16.16 India 231

3. SMART COMMERCIAL DRONES: PRODUCT DESCRIPTION 233
3.1 Parrot S.A. 233
3.1.1 Parrot Bebop Drone Stability 234
3.2 GoPro 239
3.2.1 GoPro Recorded Video Can Be Stitched Together Using Kolor 239
3.3 3D Robotics 240
3.4 Yamaha Crop Dusting Drones 242
3.4.1 Yahama 247
3.4.2 Yamaha RMAX 248
3.4.3 Yamaha Unmanned Helicopters For Industrial And Research Applications 252
3.5 DJI 254
3.5.1 DJI Phantom 255
3.5.2 DJI Inspire 1 257
3.5.3 DJI Ronin 258
3.5.4 DJI Ronin Major Updates: 259
3.5.5 DJI Industries Phantom 3 Drone 267
3.5.6 DJI Industries Phantom 3 Drone Live HD View 268
3.5.7 DJI Industries Phantom 3 Drone Complete Control 269
3.5.8 DJI Industries Phantom Intelligent Battery 271
3.5.9 DJI Industries Inspire Drone 273
3.5.10 DJI Industries Ronin-M 275
3.5.11 DJI Industries Spreading Wings S1000+ 278
3.5.12 DJI Industries Zenmuse Z15-A7 280
3.5.13 Flying Platforms 282
3.5.14 DJI Flight Controllers 284
3.5.15 DJI Camera Gimbals 286
3.5.16 HD Video Downlink 289
3.5.17 Ground Stations 289
3.5.18 DJI Guidance 291
3.6 Boeing 291
3.6.1 Boeing A160 Hummingbird Helicopter 291
3.6.2 Boeing ScanEagle Small Footprint UAS Solutions 293
3.6.3 Boeing / Insitu / Commercial 300
3.6.4 Insitu Arctic Ice Floe Monitoring 303
3.6.5 Insitu Mammal Monitoring 303
3.6.6 Insitu Pipeline Surveys 304
3.6.7 Insitu Power-Line Inspections 304
3.6.8 Insitu Geomagnetic Surveys 304
3.6.9 Insitu Commercial Fishing 305
3.6.10 Insitu Public Safety 305
3.6.11 Insitu Disaster Response 306
3.6.12 Insitu Search and Rescue 306
3.6.13 Insitu Port and Border Security 307
3.6.14 Insitu Communications Relay 308
3.6.15 Insitu Over-the-Horizon Sensing 308
3.6.16 Insitu Counter-Narcotics 309
3.6.17 Insitu Offshore Base 309
3.6.18 Insitu Defense 310
3.6.19 Insitu Payload Systems 310
3.6.20 Insitu Force Protection 312
3.6.21 Insitu Combined Arms 312
3.6.22 Insitu Research Future of UAS Operations and Technology 313
3.6.23 Insitu ICOMC2 Streamline Process 314
3.6.24 Insitu ICOMC2’s Breakthrough Technology Extends Drone Capabilities 315
3.6.25 Insitu NightEagle 319
3.7 AeroVironment 320
3.7.1 AeroVironement Global Observer 320
3.7.2 AeroVironement RQ-20A Puma AE 325
3.7.3 AeroVironement Wasp AE 327
3.7.4 AeroVironement Shrike VTOL 328
3.7.5 AeroVironement Ground Control System 330
3.7.6 BP and AeroVironment Launch FAA-Approved, Commercial Unmanned Aircraft Operations 331
3.7.7 AeroVironment Integrated LiDAR Sensor Payload 336
3.7.8 AeroVironment and Commercial UAV 338
3.7.9 AeroVironment AV’s Family of Small UAS 340
3.7.10 AeroVironment Raven 341
3.8 Elbit Systems Ltd 342
3.8.1 Elbit Systems Herrmes™ 900 - Multi-role, Multi- Payload Configurations Medium Altitude Long Endurance (MALE) 345
3.9 Amazon 346
3.10 Textron 350
3.10.1 Textron Shadow M2 350
3.10.2 Textron Aerosonde 352
3.10.3 Textron / Aerosonde AAI Services 354
3.10.4 Textron Shadow® Reconnaissance, Surveillance 357
3.10.5 Textron Systems AAI / Aerosonde® 359
3.10.6 Textron Systems AAI and Aeronautics Orbiter™ 360
3.10.7 Textron Systems AAI Remote Intelligence, Surveillance and Reconnaissance Terminals 360
3.10.8 Textron Systems AAI One System Remote Video Terminal 361
3.10.9 Textron Systems AAI Tactical Sensor Intelligence Sharing System 361
3.10.10 Textron Systems Wasp Micro Air Vehicle (MAV) 362
3.10.11 Textron Systems Homeland Security 363
3.10.12 Nano Air Vehicle 367
3.11 BAE Systems 368
3.11.1 BAE Systems MIM500™ Series of Uncooled Infrared Camera Cores 368
3.11.2 BAE Systems Taranis 371
3.12 Aurora Flight Sciences Hale 372
3.12.1 Aurora Centaur 372
3.12.2 Aurora Orion 375
3.12.3 Aurora SKATE - Small Unmanned Aircraft System 378
3.12.4 Aurora's HALE 383
3.12.5 Aurora's Advanced Concepts: SunLight Eagle - Green Flight 385
3.12.6 Aurora's Excalibur 387
3.12.7 Aurora GoldenEye 80 - Small, Capable Surveillance UAS 391
3.12.8 Aurora GoldenEye 50 392
3.12.9 Aurora GoldenEye 80 393
3.12.10 Aurora's Advanced Concepts: UHATF 395
3.12.11 Aurora Flight Sciences Odysseus Solar-Powered Aircraft 398
3.12.12 Aurora Flight Sciences Orion HALL 398
3.12.13 Aurora Flight Sciences Earth Science Applications 398
3.12.14 Aurora Small Unmanned Aerial Systems 403
3.12.15 Aurora Tactical Systems 404
3.12.16 Aurora Diamond DA42 MPP 404
3.12.17 Aurora System Description 408
3.13 L-3 Communications Next Generation Precision Unmanned Aircraft Systems 410
3.13.1 L-3 Cutlass Communications Small Expendable Tube-Launched UAS 410
3.14 Draganfly Innovations Inc. 414
3.14.1 Draganfly Draganflyer X4-P 414
3.14.2 Draganfly Handheld Ground Control System 416
3.14.3 Draganflyer Vision Based System (VBS) 416
3.14.4 Draganflyer Guardian 418
3.14.5 Draganfly X4 420
3.14.6 Draganflyer X6 425
3.14.7 Draganflyer Aerial Photography & Video Applications 427
3.14.8 Draganflyer Real Estate Applications 428
3.14.9 Draganflyer Law Enforcement Applications 429
3.14.10 Draganflyer X8 432
3.15 DRS Unmanned Technologies Ground Control Stations 434
3.15.1 DRS Aircraft Monitoring Unit (AMU) 435
3.16 General Atomics 437
3.17 Integrated Dynamics 438
3.17.1 Integrated Dynamics Rover 438
3.17.2 Integrated Dynamics Explorer 440
3.17.3 Integrated Dynamics Skycam 442
3.17.4 Integrated Dynamics Pride 444
3.17.5 Integrated Dynamics Spirit 446
3.17.6 Integrated Dynamics Border Eagle MK - II 449
3.17.7 Integrated Dynamics Hornet 450
3.17.8 Integrated Dynamics HAWK MK - V 451
3.17.9 Integrated Dynamics VISION UAV systems 452
3.17.10 Integrated Dynamics VISION MK I 454
3.17.11 Integrated Dynamics Vision M K - I I 455
3.17.12 Integrated Dynamics S/Integrated Dynamics Integrated Dynamics MK - I 456
3.17.13 Integrated Dynamics Vector 457
3.17.14 Integrated Dynamics Tornado 458
3.17.15 Integrated Dynamics Nishan MK - II 458
3.17.16 Integrated Dynamics Nishan TJ - 1000 459
3.18 MMIST Mist Mobility 460
3.18.1 Sherpa Ranger / MMist 467
3.19 Marcus UAV Systems 475
3.19.1 Marcus Autopilots 477
3.20 Proxy Aviation Systems 478
3.20.1 Proxy PROTEUS™ 478
3.20.2 Proxy PACS 479
3.20.3 The Proxy Autonomous Control Suite (PACS™) Virtual Pilot / Virtual Operator 480
3.20.4 Proxy Cooperative Control/UDMS 481
3.20.5 Proxy SkyRaider 484
3.21 LaserMotive 487
3.21.1 LaserMotive UAV Power Links 487
3.21.2 LaserMotive Teams with Germany's Ascending Technologies 487
3.22 China Aerospace Science & Industry Corp Jet-Powered WJ600 488
3.22.1 Chinese Naval UAS 493
3.23 ASN Technology Group 493
3.24 Northrop Grumman / Scaled Composites 494
3.24.1 Proteus 495
3.24.2 Northrop Grumman MLB Company 496
3.24.3 Northrop Grumman.Bat 3 497
3.24.4 Northrop Grumman Super Bat with Piccolo II Autopilot and TASE Gimbal 498
3.24.5 Northrop Grumman Unmanned Aerial Systems 500
3.24.6 Northrop Grumman Bat Unmanned Aircraft System (UAS) 501
3.24.7 Northrop Grumman Firebird 502
3.24.8 Northrop Grumman Persistent Multiple Intelligence Gathering Air System 503
3.24.9 Northrop Grumman M324 UAS (Unmanned Aerial System) 503
3.24.10 Northrop Grumman RQ-4 Block 20 Global Hawk 504
3.24.11 Northrop Grumman RQ-4 Global Hawk 505
3.24.12 Northrop Grumman X-47B UCAS 513
3.24.13 Northrop Grumman Fire-X Medium-Range Vertical Unmanned Aircraft System 514
3.25 Schiebel Camcopter S-100 516
3.25.1 Schiebel Camcopter Target Markets: 517
3.26 Parrot AR.Drone $299, Flies Off a Roof 517
3.27 Google 519
3.27.1 Google Loon 520
3.27.2 Google Loon Balloon Project 522
3.27.3 Google Titan Aerospace 524
3.28 Facebook 526
3.29 Outernet Beamed Via Satellite 526
3.29.1 Outernet Mobile Cloud Network Infrastructure 529
3.30 Lockheed Martin Ground Control System 529
3.30.1 Lockheed Martin Integrated Sensor Is Structure (ISIS) 532
3.30.2 Lockheed Martin Integrated Sensor IS Structure (ISIS) Concept ofOperations 533
3.30.3 Lockheed Martin K-MAX Unmanned Helicopter 535
3.30.4 Lockheed Martin K-MAX Used By Commercial Operators 537
3.30.5 Lockheed Martin ARES 538
3.30.6 Lockheed Martin Desert Hawk III 540
3.30.7 Lockheed Martin Fury 541
3.30.8 Lockheed Martin Expeditionary Ground Control System 543
3.30.9 Lockheed Martin Remote Minehunting System 545
3.30.10 Lockheed Martin Marlin 546
3.30.11 Lockheed Martin Persistent Threat Detection System 548
3.30.12 Lockheed Martin Stalker UAS Package Delivery 550
3.30.13 Lockheed Martin Stalker Droppable Payload 551
3.31 TRNDlabs SKEYE Nano Drone 553
3.32 Prox Dynamics PD-100 Black Hornet PRS 555
3.32.1 Prox Dynamics AS 559
3.33 Denel Dynamics Seeker 400 UAS 560
3.33.1 Denel Dynamics Seeker 400 UAS Multi-mission, Multi-role ISR System 561
3.33.2 Denel Dynamics Seeker 400 UAS System 562
3.33.3 Denel Dynamics Seeker 400 UAS Multi-mission, Multi-role ISR System Features 563
3.33.4 Denel Dynamics Hungwe UAS 567
3.33.5 Denel Dynamics Skua 570
3.33.6 Denel Dynamics Skua High-speed Target Drone 571
3.34 IAI/Malat Israel Aerospace Industries Heron 573
3.34.1 IAI/Malat Israel Aerospace Industries Super Heron 575
3.34.2 Israel Aerospace Industries Hunter 578
3.34.3 Israel Aerospace Industries / RUAG Aerospace Ranger 580
3.34.4 Israel Aerospace Industries Scout 582
3.34.5 Israel Aerospace Industries Pioneer 582
3.34.6 Israel Aerospace Industries Searcher MKIII 583
3.34.7 Israel Aerospace Industries Panther Fixed Wing VTOL UAS 585
3.34.8 Israel Aerospace Industries Mini Panther Fixed Wing VTOL Mini UAS 589
3.35 Safran 591
3.35.1 Safran Patroller and Sperwer 595
3.36 Honeywell 596
3.36.1 Honeywell Engines in General Atomics MQ-9 Reaper 598
3.37 Ascending Technologies 599
3.37.1 Ascending Technologies Professional Line 599
3.37.2 AscTec For Professional Drone Users: 599
3.37.3 AscTec Compliance 600
3.37.4 Ascending Technologies For Professional UAV 601
3.37.5 AscTec Falcon 8 + InspectionPRO 605
3.37.6 AscTec Falcon 8 + VideoEXPERT 607
3.37.7 AscTec Firefly 607
3.37.8 Technical Data – AscTec Firefly 607
3.38 Danish Aviation Systems 609

4. DRONE UNMANNED AERIAL SYSTEMS (UAS) TECHNOLOGY 612
4.1 Learning to Fly a Hobby or Commercial Drone 612
4.1.1 US FAA Launches Drone Safety Campaign 613
4.2 UAS Sense and Avoid Evolution Avionics Approach 614
4.3 Military Drone Technology 622
4.3.1 Military Systems Interoperability 626
4.3.2 Drone Operational Benefits Of Autonomy 627
4.4 Northrop Grumman.BAT UAV Open Architecture 629
4.5 Integrated Dynamics Flight Telecommand & Control Systems 630
4.5.1 AP 2000 631
4.5.2 AP 5000 631
4.5.3 IFCS-6000 (Integrated Autonomous Flight Control System) 631
4.5.4 IFCS-7000 (Integrated Autonomous Flight Control System) 632
4.5.5 Portable Telecommand And Control System (P.T.C.S.) 634
4.6 Improved GPS Operations 634
4.7 Integrated Radio Guidance Transmitter (IRGX) 635
4.7.1 Portable Telecommand And Control System (P.T.C.S.) 636
4.8 IRGX (Integrated Radio Guidance Transmitter) 636
4.8.1 Ground Control Stations 637
4.8.2 GCS 1200 637
4.8.3 GCS 2000 638
4.9 Antenna Tracking Systems 638
4.10 ATPS 1200 639
4.10.1 ATPS 2000 640
4.10.2 Gyro Stabilized Payloads 641
4.10.3 GSP 100 642
4.10.4 GSP 900 643
4.10.5 GSP 1200 644
4.11 Civilian UAV’s - Rover Systemstm 644
4.12 CPI-406 Deployable Emergency Locator Transmitter (ELT) 645
4.12.1 Deployable Flight Incident Recorder Set (DFIRS) 646
4.12.2 Airborne Separation Video System (ASVS) 646
4.12.3 Airborne Separation Video System – Remote Sensor (ASVS – RS) 647
4.12.4 Airborne Tactical Server (ATS) 647
4.13 Cloud Computing and Multilayer Security 649
4.14 Aurora Very High-Altitude Propulsion System (VHAPS) 650
4.15 Aurora Autonomy & Flight Control 651
4.15.1 Aurora Guidance Sensors And Control Systems MAV Guidance 652
4.15.2 Aurora Multi-Vehicle Cooperative Control for Air and Sea Vehicles in Littoral Operations (UAV/USV) 653
4.15.3 Aurora and MIT On-board Planning System for UAVs Supporting Expeditionary Reconnaissance and Surveillance (OPS-USERS) 654
4.15.4 Aurora Flare Planning 656
4.15.5 Aurora Distributed Sensor Fusion 659
4.15.6 Aurora Aerospace Electronics 661
4.15.7 Aurora is CTC-REF 661
4.16 Space Technologies: Autonomous Control of Space Nuclear Reactors (ACSNR) 661
4.16.1 Rule-based Asset Management for Space Exploration Systems (RAMSES) 662
4.16.2 Synchronized Position Hold, Engage & Reorient Experiment Satellites (SPHERES) 663
4.17 Positive Pressure Relief Valve (PPRV) 664
4.17.1 Chip-Scale Atomic Clock (CSAC) 664
4.17.2 Low–Design-Impact Inspection Vehicle (LIIVe) 665
4.17.3 Synthetic Imaging Maneuver Optimization (SIMO) 665
4.17.4 Self-Assembling Wireless Autonomous Reconfigurable Modules (SWARM) 666
4.18 Persistent, Long-Range Reconnaissance Capabilities 667
4.18.1 United States Navy's Broad Area Maritime Surveillance (BAMS) Unmanned Aircraft System (UAS) program 670
4.18.2 Navy Unmanned Combat Air System UCAS Program: 670
4.18.3 Navy Unmanned Combat Air System UCAS: Objectives: 671
4.19 Search and Rescue (SAR) 671
4.20 L-3 Communications LinkTEK™ IDS 673
4.21 L-3 Communications FlightTEK® SMC 675
4.21.1 Helicopter Main Limiting Factor Retreating Blade Stall 676
4.22 Danish Aviation Systems’ 677
4.23 Draganflyer X4 Applications 678
4.23.1 Draganflyer X4 Large Project Management 679
4.23.2 Draganflyer Remote Supervision and Investigation of Equipment 680
4.23.3 Draganflyer Remote Supervision and Investigation of Agricultural Land and Equipment 683
4.23.4 Draganflyer Advanced RC Flight Research 685
4.23.5 Aerial Archeology 686
4.23.6 Environmental Assessment 688
4.23.7 The Draganflyer X4 is Fun to Fly 690
4.24 Drones Protect US Commerce and US Civilian Safety 694
4.24.1 John Adams Articulates the Need for Military to Fight Terrorists 695
4.24.2 John Adam’s Solution for Terrorism 696

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(EMAILWIRE.COM, March 05, 2016 ) The 2015 study has 448 pages, 183 tables and figures. Worldwide quantum dot markets are poised to achieve significant growth as next generation systems provide a way to improve traditional displays with vibrant color and decrease the cost of making electronic devices by decreasing manufacturing costs while increasing quality.

Quantum dot markets are set for rapid growth. Quantum dot market driving forces relate to technology maturity. TV displays, fuel cell catalysts, solar quantum dots, a range of applications depend on the ability to manufacture quantum dots consistently and in sufficient quantity to be useful in a commercial environment. Large screen TV displays represent one of the first commercial application for quantum dots.

This TV display market is a good market. The overall flat panel display (FPD) market is anticipated to reach US$110 Billion by 2017. Growth is driven by widespread use of devices that embed electronic displays. Displays fit in electronic TVs, notebooks, and mobile smart phones. Ample opportunities exist in the automotive sector as display mediums for entertainment and driver assistance systems.

FPDs can tap into opportunities in the advertising sector, where they are used for both outdoor and indoor ad displays. Public display systems are becoming more common. Technology innovation,
lower prices, and robust demand bodes well for market development.

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Quantum dot films inside FPDs are indispensable to electronic devices that require human operation and as a result LCD and plasma technologies are now commonplace. In the television industry. Quantum dot penetration of flat panel display markets promise to be huge. Demand for thin TVs is strong, with wall mounted TVs accounting for a major portion of the market. FPDs are popular for buildings and transport applications. They are used in digital picture frames.

Challenges to existing display technology comes from viewer desire for pure colors and low energy consumption. These ffeatures are provided by quantum dots. End-use of big TV displays are expected to drive quantum dot markets throughout the forecast period. Industries analyzed include information systems, personal computers, telecom equipment, instrumentation, consumer appliances, transportation equipment, stationary fuels cells, and medical devices.

Quantum Dot (QD) and Quantum Dot LED (QLED) Market is evolving. The quantum dot market depends on techniques for the development of commercial quantity production. Kilogram quantity mass production of quantum dots is a game-changer. High quality, high quantity and low price quantum dots increase the rate of change in consumer electronics markets.

Quantum dot technology offers screen quality far beyond what has been available previously. The quality of light is better for displays with quantum dots. New products are emerging as manufacturers learn to integrate high efficiency / luminescence quantum dots into display products. The level of change represents a paradigm shift that creates new industries, products, and jobs in science and industry. The list of possible quantum dot applications is ever expanding. New applications are waiting for the availability of quantum dots.

Gold Nanoparticles Illustrate Properties Of Colloidal Nanocrystals Size Dependency

Intrinsic physical sizes are comparable to the critical sizes of many important properties of a given class of functional materials
Wavelength of the electron wave function
Diameter of photo-generated excitons Domain size of magnetic single domains
Large surface-to-volume atom ratio alters the chemical potential of the structural
Large surface-to-volume atom ratio different in comparison to corresponding bulk crystals

Strongly size-dependent solubility of nanocrystals
Presence of size dependent structures in the nanometer regime
Electron band configuration
Surface structure
Surface reconstruction
Unique crystal structures
Unique catalytic properties of gold nanocrystals can be considered an example

Quantum Dot and Quantum Dot LED (QLED) market segments include HDTV and displays, solar, LED lighting, cancer imaging, personalized medicine, telco lasers, and ID tags. All segments are anticipated to achieve spectacular growth, with TV display technology and solar markets reaching over $1 billion per year in revenue by 2021. Qdot cancer imaging / personalized medicine reaches $750 million and quantum dot ID Tags go to $700 million dollars by 2021.
Vendors, including Nanosys and QD Vision synthesize these materials in solution, and formulate them into inks and films. Quantum Dot LEDs (QLED) enable performance and cost benefits
Quantum Dot LED (QLED) commercial focus has remained on key optical applications: Optical component lasers are emerging as a significant market. LED backlighting for LCD displays, LED general lighting, and solar power quantum dots are beginning to reach the market. Vendors continue to evaluate other applications.
Medical applications are potentially large and beginning to reach a level of maturity that represents real market presence. Early stage work with University College London in cancer imaging is progressin

Quantum dots QDs are nano-particles in the range of 2 nm to 10 nm diameter. Quantum dots are tiny bits of semiconductor crystals with optical properties that are determined by their size and shape more than material composition. Their small size is of nanoparticles is only now making them able to be manufactured in commercial quantities. They are made through a synthesis process. Strong growth is anticipated as companies master manufacturing techniques that allow consistent production

Quantum dot markets at $306 million in 2014 are anticipated to reach $4.6 billion by 2021 as next generation devices, systems, and displays are triggered by quantum dots. Quantum dots represent the next wave of semi conductor revolution, giving sophisticated functionality based on the size and shape of the nanoparticle not the base material. Because the materials science is so easy to manipulate, the devices can be made very inexpensively with a lot of variety.

Companies Profiled

Fisher Scientific / Life Technologies Corp
QD Vision
Nanoco Technologies
Nanosys
QD Laser / Fujitsu

Market Participants

3M
Apple
Evident Technologies
InVisage
Kateeva
LG Display
NanoAxis
NanoPhotonica
N-N Labs
Neophotonics
Nexxus Lighting
Ocean Nanotech
Philips / MMD
Quantum Material
SAIC
Samsung
Shenzhen Vigor Electronic Co.
Sigma-Aldrich
Sony
Trust

Key Topics

Quantum Dots
QDs
QLED
OLED
Quantum Dot (QD)
Quantum Dot LED (QLED)
QD Ink
Semiconductor Quantum Dots
Cadmium-Free Quantum Dots
Qdot® Nanocrystal
Ink Jet Printing QLED
Nanoparticle
QLED Pure Colors
Low energy consumption QLED
Quantum Dot LED
Nanotechnology
Super AmoLED

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Table Of Content

1. Quantum Dot Market Description And Market Dynamics 45
1.1 Quantum Dot Market Description 45
1.2 Quantum Dot TV Display Technology 45
1.3 Display Technology 48
1.4 Quantum Dot Light Emitting Diodes (QLEDs) 49
1.4.1 QLED Quantum Dot Display Is Better Than OLED 49
1.4.2 Quantum Dots Semiconductor Nanocrystals 50
1.4.3 Quantum Dot Changes In Energy Band Gaps 50
1.5 Quantum Dot LED (QLED) Commercial Focus 51
1.5.1 Life Sciences 52
1.5.2 Applied Sciences 52
1.5.3 Medical Sciences 53

2. Quantum Dot Market Shares And Market Forecasts 56
2.1 Quantum Dot Market Driving Forces 56
2.1.1 Quantum Dot (QD) and Quantum Dot LED (QLED) Market 57
2.1.2 Quantum Dot Market Driving Forces 58
2.1.3 Cadmium-Free Quantum Dots 63
2.2 Quantum Dot (QD) Market Shares 64
2.2.1 Thermo Fisher Scientific / Life Technologies 68
2.2.2 Life Technologies Qdot Nanocrystal Applications 69
2.2.3 Nanosys QDEF 70
2.2.4 NanoSys Materials Architect 70
2.2.5 Nanosys Product Oriented Collaborations 71
2.2.6 LG Display Joint Development Agreement With QD Vision 72
2.2.7 3M 72
2.2.8 InVisage Technologies 73
2.2.9 Sigma-Aldrich Qdot® Bioconjugates 73
2.2.10 QD Laser 73
2.2.11 Nanoco Technologies 74
2.2.12 Nanoco Cadmium-Free Quantum Dots (CFQD™) 75
2.2.13 Nanoco Group / Dow Chemical Company (NYSE: DOW) 76
2.2.14 Nanoco Joint Development Agreement With Large Lighting Company 76
2.2.15 NanoAxis Nanomedicine Applications 77
2.2.16 NN-Labs 77
2.2.17 Nexxus Lighting Partnership with QD Vision 78
2.2.18 QD Vision 78
2.2.19 QD Vision and Cadmium 78
2.2.20 Quantum Materials Corporation (QMC) 79
2.2.21 NanoPhotonica 79
2.2.22 Ocean NanoTech Organic Soluble Iron Oxide Nanoparticles 79
2.2.23 Quantum Dot Vendor Unit Market Share Analysis 80
2.3.24 Quantum Dot Market Shares, Dollars, Low End Mid-Range, And High End, Mg Shipped 81
2.3 Quantum Dot and Quantum Dot LED (QLED) Market Forecasts 83
2.3.1 Quantum Dot And Quantum Dot LED (QLED) Market Forecasts, Units 87
2.3.2 Quantum Dot and Quantum Dot LED (QLED) Market Sectors 89
2.3.1 Quantum Dot LED (QLED) Application Forecasts 91
2.3.2 Benefits of QLED Displays 92
2.3.3 Quantum Dot Commercial Applications – General Lighting 94
2.3.4 Quantum Dot and Quantum Dot LED (QLED) Display Market 97
2.3.5 Nanoco / Dow To Sell, Market And Manufacture Cadmium-Free Quantum Dots For LCD displays 100
2.3.6 Quantum Dot and Quantum Dot LED (QLED) Medical Imaging Dollars 101
2.3.1 Quantum Dot Telco Laser / QD Laser 1240-1310nm Quantum Dot Lasers 104
2.3.2 Quantum Dot ID Tags / Quantum Material / Quantum Dot Printed Electronic Ink Formulations 107
2.3.3 Quantum Dot and Quantum Dot LED (QLED) Solar Market 109
2.3.4 Nanoco Cadmium Free Nanomaterials Used As Solar Ink 111
2.3.5 Quantum Cascade Lasers (QCLs) 112
2.4 Quantum Dot Prices 112
2.4.1 Quantum Dot TV Prices 119
2.5 Quantum Dot Market Regional Segment Analysis 122

3 Quantum Dot Display Product Description 126
3.1 Samsung 126
3.1.1 Samsung TVs with Quantum Dot Technology 126
3.1.2 Samsung 8K TVs 127
3.1.3 Samsung KN55S9C TV 128
3.1.4 Samsung 4" AM-QLED Prototype 130
3.1.5 Samsung Color Quantum Dot Display QLED 131
3.1.6 Samsung Assessment of QLED 132
3.1.7 Samsung Quantum Dots 132
3.1.8 Samsung Advanced Institute of Technology Nanotechnology Research 133
3.1.9 Samsung Sophisticated And Improved Curved Designs 136
3.1.10 Samsung Sports Live and Video CLips 137
3.1.11 Samsung Platform Powered by Tizen 138
3.2 LG 138
3.2.1 LG Quantum Dot TV 139
3.2.2 LG Display Joint Development Agreement With QD Vision 140
3.2.3 LG Display / QD Vision 140
3.3 Sony 142
3.3.1 Sony QD Lifelike Motion 144
3.4 QD Vision 144
3.4.1 QD Vision QLED Efficiency 145
3.4.2 QLEDs 146
3.4.3 QD Vision QLED Technology 148
3.4.4 QD Vision / Philips Monitors MMD Quantum Dot Monitor 150
3.5 3M 152
3.5.1 3M Color - QDEF 152
3.5.2 3M / Nanosys Quantum Dot Commercialization of QDEF 154
3.6 Evident Technologies 155
3.6.1 Evident Technologies Lead Sulfide (PbS) EviDot Quantum Dots 155
3.6.2 Evident Technologies Quantum Dot Properties 157
3.6.3 Evident Product Designed To Generate Electricity 161
3.6.4 Evident Technologies Thermoelectrics (TE) 161
3.7 InVisage 163
3.7.1 InVisage QuantumFilm Image Sensor 163
3.7.2 InVisage QuantumFilm Image Sensor for Mobile SmartPhones 165
3.7.3 InVisage QuantumFilm Image Sensor for Professionals 168
3.7.4 InVisage QuantumFilm Image Sensor 168
3.7.5 InVisage Dynamic Zoom 171
3.8 Nanosys 174
3.8.1 Nanosys QDEF 174
3.8.2 Nanosys Precisely Tuned Color 174
3.8.3 Nanosys Brightness And Energy 175
3.8.4 Nanosys QDEF: OLED Performance At An LCD Price 175
3.8.5 NanoSys Quantum Dots 175
3.8.6 Nanosys Quantum Dot Enhancement Film (QDEF) 177
3.8.7 Nanosys Product Oriented Collaborations 181
3.8.8 NanoSys Visual Experience 185
3.8.9 NanySys QDEF Return on Investment ROI and Total Cost of Ownership TCO Improvements 186
3.9 Nanoco Technologies 188
3.9.1 Nanoco CFQD Display 188
3.9.2 Nanoco CFQD Lighting 190
3.9.3 Nanoco Quantum Dots 191
3.9.4 Nanoco Quantum Dot Beads 195
3.9.5 Nanoco Cadmium-Based Quantum Dots (NanoDots™) 196
3.9.6 Nanoco Cadmium-Free Quantum Dots (CFQD™) 197
3.10 Kateeva 201
3.10.1 Kateeva Inkjet Printing Equipment For Organic LED Mass Production 202
3.10.2 Kateeva OLED Performance Controls To achieve Reliability 209
3.10.3 Kateeva OLED TVs 210
3.11 Thermo Fisher Scientific / Life Technologies 210
3.11.1 Qdot® Probes 212
3.11.2 Life Technologies Corp Invitrogen 213
3.11.3 Life Technologies Qdot® Nanocrystals 213
3.12 NanoAxis 218
3.12.1 NanoAxis Quantum Dots (QDs) 218
3.12.2 NanoAxis AxiCad™ Quantum Dots 220
3.13 N-N Labs 222
3.13.1 N-N Labs Cadium Based Quantum Dots 223
3.13.2 N-N Labs Cadmium Selenide Zinc Sulfide Quantum Dots (CZ) 224
3.13.3 N-N Labs Cadmium Selenide Zinc Sulfide Quantum Dots In Water (CZW) 225
3.13.4 N-N Labs Cadmium Sulfide Quantum Dots (CS) 226
3.13.5 N-N Labs Cadmium Telluride Quantum Dots (CT) 228
3.13.6 N-N Labs Cadium Free Quantum Dots / N-N Labs Copper Indium Sulfide Zinc Sulfide Quantum Dots (CIS)229
3.13.7 N-N Labs Copper Indium Sulfide Zinc Sulfide Quantum Dots In Water (CISW) 230
3.13.8 N-N Labs Indium Phosphide Zinc Sulfide Quantum Dots (INP) 231
3.13.9 N-N Labs Indium Phosphide Zinc Sulfide Quantum Dots In Water (INPW) 232
3.13.10 N-N Labs Manganese Doped Zinc Selenide Quantum Dots (DD) 233
3.13.11 N-N Labs Manganese Doped Zinc Selenide Quantum Dots in Water (DDW) 234
3.13.12 N-N Labs CuInS/ZnS (CIS, Cadmium Free Core-Shell Quantum Dots) 235
3.13.13 N-N Labs Mn:ZnSe ( D-dots, Cadmium free Doped Quantum Dots) 236
3.14 Nexxus Lighting 236
3.15 Ocean Nanotech 238
3.15.1 Ocean Nanotech Preparation of Quantum Dots 238
3.15.2 Ocean NanoTech Organic Soluble Iron Oxide Nanoparticles 241
3.15.3 Ocean NanoTech Water Soluble Quantum Dots 242
3.15.4 Ocean Nanotech Technology 245
3.15.5 Ocean Nanotech Water Soluble Quantum Dots - QSH 246
3.15.6 Ocean Nanotech Water Soluble Quantum Dots - QXH 247
3.15.7 Ocean Nanotech Organic Soluble Quantum Dots - QSP 247
3.15.8 Ocean Nanotech Organic Soluble Quantum Dots - QPP 248
3.15.9 Ocean Nanotech Water Soluble Heavy Metal Free Quantum Dots - CSH 248
3.15.10 Ocean Nanotech Water Soluble Quantum Dot Beads >> QBA 248
3.15.11 Ocean Nanotech Water Soluble Quantum Dot Beads >> QBH 249
3.16 QD Laser 249
3.16.1 QD Laser 1240-1310nm Quantum Dot Lasers 249
3.16.2 QD Laser 1030-1180nm DFB Lasers For Material Processing And Sensing 250
3.16.3 QD Laser 640 – 785 nm High Power Lasers With Monitor PD 251
3.16.4 QD Laser 532, 561, 594nm Compact Visible Laser Module 252
3.16.5 QD Laser 1270-1310nm Quantum Dot Lasers 255
3.16.6 QD Laser 1300nm High Temperature Quantum Dot Lasers 256
3.16.7 QD Laser 1000-1180nm DFB Lasers For Material Processing And Sensing 257
3.17 Quantum Material Corp 258
3.17.1 Quantum Material Corp Displays & QD-LED 258
3.17.2 Quantum Material Corp Quantum Dot Display Performance Issues 259
3.17.3 Quantum Material Corp Quantum Dot Solutions 260
3.17.4 Quantum Material Quantum Dot Printed Electronic Ink Formulations 262
3.17.5 Quantum Material Corp Quantum Computing 264
3.17.6 Quantum Material Makes the Tetrapod Quantum Dot. 264
3.17.7 Quantum Material Quantum Dots: Man-Made Molecule 265
3.17.8 Quantum Material Available Across The Entire Light Wavelength From UV to IR Spectra 265
3.17.9 Rice University Quantum Dot Synthesis 266
3.17.10 Quantum Material Access2Flow QD Mass-Production 266
3.18 Sigma-Aldrich 267
3.18.1 Sigma-Aldrich Core-Type Quantum Dots 267
3.18.2 Sigma-Aldrich Core-Shell Quantum Dots 267
3.18.3 Sigma-Aldrich Alloyed Quantum Dots 268
3.18.4 Sigma-Aldrich Quantum Dots Applications 270
3.19 NanoPhotonica 279

4 Quantum Dot And Quantum Dot Led (Qled) Technology 281
4.1 Quantum dots Are Tiny Particles, Nanocrystals 281
4.2 Heavy Metal 284
4.5.4 QD Vision Replacing Alkyl Phosphine- And Alkyl Phosphine Oxide Solvents 285
4.5.5 QD Vision Higher-Quality Quantum Dots 285
4.3 TV Color Specifications 286
4.4 Nanoco Technologies Integrating Red And Quantum Dots With Blue LEDs 288
4.5 Mostafa el Sayed 288
4.5.1 Nanotechnology: Potential Use of Nanoparticles: 290
4.5.2 Nanomedicine 290
4.5.3 Nanocatalysis 291
4.5.4 Plasmonics: Semiconductor Quantum Dots And Rods Can Be Dramatically Enhanced By Plasmon Coupling Interactions 291
4.5.5 Mostafa A. El-Sayed Awards: 293
4.6 Graphene 293
4.7 Fluorescence 294
4.8 Life Technologies Qdot® Nanocrystal Structure 295
4.9 Qdot® Bioconjugates 300
4.10 Applications for Qdot® Nanocrystals 301
4.10.1 Life Technologies Qdot® Nanocrystal Structure 303
4.10.2 Tuneability of Life Technologies Qdot® Nanocrystals 305
4.10.3 Qdot® Bioconjugates 305
4.10.4 Applications for Life Technologies Qdot® Nanocrystals 306
4.11 QDVision LED Light 307
4.11.1 LED backlights 308
4.11.2 Nanosys QDEF Technology Optical Film Component for LED LCD Backlight 308
4.12 Fujitsu Laboratories Ltd. QD Laser 309
4.13 Rice University Quantum DOts 313
4.13.2 Combined Graphene Quantum Dots, Graphene Oxide, Nitrogen And Boron Made Into A Catalyst 315
4.14 Ghent University in Belgium i 315
4.15 Nanosensomach 316
4.16 Quantum-Dot Plasmonics and Spasers / QUADOPS 316

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(EMAILWIRE.COM, March 05, 2016 ) Next generation webcams multifunction webcams are very sophisticated, they can do facial recognition, they are used in security systems, and for on line education. They are used for 3D mapping, commercial pipeline observation, border patrol, package delivery, photography, and agriculture are more energy efficient, last longer and when connected to automated analytics have a significantly lower cost of operation than manned security systems.

WebCam markets promise to grow significantly because of the more economical visualization and navigation provided by systems. Visualization includes mapping from the air, inspection from the air, surveillance from the air, and package delivery from the air. The unmanned aircraft equipped with cameras are able to do things that cannot be done in any other way. This bodes well for market development.

The webcam industry is characterized by short product life cycles, continual performance enhancements, and rapid adoption of technological advances. It is intensely competitive. There are retail and OEM market segments. There are security, travel, and online education segments among others.

Price sensitivity characterizes the OEM market. Virtually every tablet and smartphone will have a webcam going forward. WebCams are used in combination with instant messaging programs. YouTube is a premier video site. Microsoft Messenger, Yahoo Messenger, AOL Instant Messenger, SameTime, and Skype support video chat. Broadband connections support streaming video. Installation, image quality and performance are ways to measure the substance of the WebCam experience.

Imaging depends on quality and usefulness. Picture quality is an ongoing issue for webcams. Sample photos from each Web camera need to be tested in a variety of lighting conditions provide a good measure of quality. The standard high-resolution setting is measured in pixels and is constantly shifting for video.

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Resolution used for video, e-mailing and posting on the Web varies. A Web camera includes software to help present and adjust the picture. WebCams can take high quality still pictures, with a lower quality for video. The resolution that works well for video is lower than that for still pictures that require higher resolution. Anything higher quality, anything matching the quality of the still pictures in the video would be a huge drain on the processor, and reduce resolution for this reason.

The frames-per-second (fps) rate determines how quickly a webcam can capture and move video. The fewer frames per second, the choppier the picture. Full-motion video is generally 60 frames-per-second. Instant messaging software and servers are improving in this regard.

WebCam video broadcasts are limited by the speed of Internet connections and instant messaging servers. Streaming video works best with a high-bandwidth connections. Transfer rates can be limited by instant messaging servers. Skype and MSN Messenger is offering smooth video. Skype's video chat service is increasing its user base on a daily basis.

WebCam controls include focus dials, lens covers, and pan, tilt and zoom capabilities. Computer sound cards and microphones mean the Webcam includes a built-in microphone or comes with a headset. WebCams come bundled with video-conferencing software. Packages include software for video editing, surveillance, stop motion, video conferencing or email.

Security systems provide alerts.

Inherent value of video communication is enabled. Google, YouTube, Facebook, and Skype are some of many social media applications that provide high quality free video communication. There is plenty of motivation to purchase webcams as people seem to enjoy social media as much as anything. Video conferencing is poised to become ubiquitous.

According to Susan Eustis, leader of the team that prepared the study, “Security applications are promising to continue to grow rapidly. The ability to remotely monitor one room away or across the world using the Internet provides stunning new functionality that is enormously significant because of the automated process that implements intelligent systems. This intelligence capability promises to be used by everyone for security, security for people in their homes, businesses, police departments, universities, hospitals, and all organizations with a campus.”

The WebCam market at $3.4 billion in 2014 is expected to grow to $15.2 billion by 2021. Strong growth is triggered by the increasing availability of broadband and Internet connectivity. The Internet protocols of Ethernet dominate all networking.

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software. The company has 35 distributors worldwide, including Global Information Info Shop, Market Research.com, Research and Markets, Bloomberg, electronics.ca, and Thompson Financial. WinterGreen Research is positioned to help customers facing challenges that define the modern enterprises. The increasingly global nature of science, technology and engineering is a reflection of the implementation of the globally integrated enterprise. Customers trust wintergreen research to work alongside them to ensure the success of the participation in a particular market segment.

WinterGreen Research supports various market segment programs; provides trusted technical services to the marketing departments. It carries out accurate market share and forecast analysis services for a range of commercial and government customers globally. These are all vital market research support solutions requiring trust and integrity.

Companies Profiled

Market Leaders

Logitech
D-Link
Microsoft
Flir
Creative Technology
Philips
Sony
Cisco
Samsung
10Moon
Platinet / Omega Technology
A4Tech
Vivitar
Canon

Market Participants

10moons
A4Tech
Annke
B2
Blackstone Group / Vivant
Brother
Canon
Creative Technology Ltd
D-Link
Encore Electronics
FLIR / Lorex
Genius
iMirco Electronics
IPEVO
Logitech International
Micron
Microsoft
Nest
Netgear
Nikon
Platinet
Philips
Proxicast
Relleek Electronics
Rosewill
Sakar International / Vivitar
Samsung Electronics
Shenzhen Vigor Electronic Co.
Sony
Trust
Vimicro International Corporation
Withings

Key Topics

Social Networking
WebCams
PC Externally Connected WebCam
Notebook WebCam
Network WebCam
Security Internet Directly Connected WebCams
Enterprise WebCams
External WebCam
WebCam View Overlooking
WebCam Market Shares
Multi Function WebCam
WebCam Forecasts
WebCam Market Strategies
Webcam Adoption
Micro Lenses
Color Filter Arrays
Web Camera Image Sensor Control Interface
Active-Pixel Image Sensors
Webcam on Internet
Webcam Network Access
Enterprise Webcam Networks
Webcam Architecture

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Table Of Content

1. Webcam Market Description and Market Dynamics 47
1.1 WebCam Market Description and Market Dynamics 47
1.1.1 Kinds of WebCams 48
1.1.2 Standalone WebCams 49
1.1.3 Network WebCam Cameras 49
1.2 Trends In The WebCam Market 50
1.2.1 WebCam Vendor Competitive Strengths 51
1.3 Global Presence Issues 52
1.3.1 Logistics And Supply Chain Infrastructure 52
1.4 Webcam Wireless Network Monitoring Uses 54
1.4.1 WebCam.Com Adult Entertainment 56
1.4.2 Personal Cameras Connected To A Home PC 57
1.4.3 Webcam Pointing At A Scene 57
1.4.4 WebCams for Promotion; WebCam Toolkit 57
1.4.5 Home Video Production 59
1.5 Consumer WebCams 59
1.5.1 Consumer WebCams Quality Of The Lens 59
1.5.2 WebCam Bandwidth Requirements 60
1.5.3 Skype Web-calling 61
1.6 Community Police Scanning 62
1.7 Entertainment Web Cams 63
1.7.1 Big Ben WebCam 63
1.8 WebCam View Overlooking 69
1.9 Camera Types Of Webcams 73

2. Webcam Market Shares And Market Forecasts 74
2.1 WebCam Market Driving Forces 74
2.1.1 WebCam Image Quality 78
2.1.2 WebCam Shutter Speed 79
2.1.3 WebCam Network Speed 79
2.1.4 WebCam Sensitivity 79
2.2 WebCam Market Shares 79
2.2.1 Logitech Full HD 1080p with Skype Video Calls 84
2.2.2 Microsoft LifeCam Studio 85
2.2.3 Sony Playstation Eye Webcam - USB 2.0 86
2.2.4 Lorex HD Security Camera System 86
2.2.5 Philips SPZ5000/00 87
2.2.6 D-Link Cloud Camera 1000, Day Network Cloud Camera 89
2.2.7 Creative Dell Webcam Central 90
2.2.8 iMicro 91
2.2.9 Cisco Linksys Wireless-G Direct Internet Home 91
2.2.10 Flir 93
2.2.11 Vimicro Software 94
2.2.17 Vimicro 94
2.2.18 Vivint 95
2.2.19 Vivint Doorbell Camera 95
2.2.20 Omega Value Line Web Cams 96
2.2.21 10moons 96
2.2.22 A4Tech 96
2.2.16 IPEVO’s Interactive Teaching Tools 97
2.2.23 Nikon 97
2.3 WebCam Market Forecasts 99
2.3.1 WebCam Market Segments 104
2.3.2 WebCam Small / Mid-Size Business Security Market Segment 107
2.3.3 WebCam Municipal / Campus Security Market Segment 108
2.3.4 WebCam Market Business Advertising Segment Forecasts 109
2.3.5 WebCam Enterprise Conferencing Market 110
2.3.6 WebCam Market Skype / Notebook / Social Forecasts 111
2.3.7 WebCam Market Business Advertising Segment, Forecasts 112
2.3.8 WebCam Remote Education Market Segments 113
2.3.9 Technology Trends In The Webcam Consumer Market 115
2.3.10 WebCam Architecture Revolution 117
2.3.11 WebCam Value of Innovation 118
2.3.12 Remote Learning WebCams 118
2.4 WebCam Prices 119
2.5 WebCam Regional Market Segments 134

3. Webcam Product Description 136
3.1 Logitech 136
3.1.1 Logitech Full HD 1080p with Skype Video Calls 136
3.1.2 Logitech HD Webcam C615 140
3.1.3 Logitech HD Webcam C525 143
3.1.4 Logitech HD Webcam C270 145
3.1.5 Logitech HD Webcam C310 147
3.1.6 Logitech Premium Webcam Offerings 149
3.1.7 Logitech Mid-Range Webcams 149
3.1.8 Logitech Performance Webcams 150
3.1.9 Logitech Family Of Webcams 151
3.1.10 Logitech QuickCam® Orbit AF 153
3.1.11 Logitech Style 156
3.1.12 Logitech QuickCam® Orbit AF Security Camera 159
3.1.13 Logitech Indoor Camera Video Security 163
3.1.14 Logitech WiLife Outdoor Camera 164
3.2 Microsoft 168
3.2.1 Microsoft LifeCam Studio 168
3.2.2 Microsoft LifeCam Cinema 170
3.2.3 Microsoft LifeCam HD-3000 172
3.2.4 Microsoft Kinect for Xbox 360 174
3.2.5 Microsoft Kinect for Xbox One 175
3.2.6 Microsoft LifeCam VX-1000 178
3.2.7 Microsoft LifeCam VX-3000 182
3.2.8 Microsoft LifeCam VX-7000 183
3.2.9 Microsoft LifeCam VX-5000 183
3.2.10 Microsoft Notebook Computer LifeCam NX-6000 185
3.3 Philips 189
3.3.1 Philips SPZ5000/00 189
3.3.2 Philips SPC1330NC Webcam 193
3.3.3 Philips PZ2500/00 200
3.3.4 Philips SPC900NC/37 201
3.3.5 Philips SPC 900NC Best In Class Webcam 202
3.3.6 Philips SPC710NC/00 Webcam 206
3.3.7 Philips SPC611NC/37 Webcam 207
3.3.8 Philips SPC1300 Webcam 211
3.4 Sony WebCams 213
3.4.1 Sony PLAYSTATION Eye Webcam - USB 2.0 213
3.4.2 Sony SNC-EP520 36x Day/Night IP PTZ Camera 214
3.4.3 Sony EVI D100 Camera 215
3.4.4 Sony EVI H100V/W Camera - PTZ 216
3.4.5 Sony EVI HD7V Camera - PTZ 217
3.4.6 Sony EVI HD3V Videoconferencing Camera - PTZ - 2 MP 218
3.4.7 Sony IPELA SNC-DH240 Network Dome Camera - 3.3 MP - 1080p - 600 TVL - Day/Night 219
3.4.8 Sony BRC-Z330 Camera - PTZ 219
3.4.9 Sony BRC-Z700 Camera - PTZ - 1.1 MP 220
3.4.10 Sony SNC-DH280 1080p HD Vandal Resistant Minidome Security Camera 221
3.4.11 Sony IPELA SNC-HM662 Network Camera - Outdoor - Waterproof/Vandalproof - 5 MP - Day/Night222
3.4.12 Sony SNC-ER580 20x 1080p HD PTZ IP Security Camera 223
3.4.13 Sony IPELA SNC-DH120 Network Dome Camera - 1.4 MP - 720p - Day/Night 224
3.4.14 Sony SRG-120DH Camera - PTZ - 2.1 MP 225
3.4.15 Sony EVI-D100 1/4" Pan/Tilt/Zoom Camera Kit, includes Camera, EVID100/PAC3 CCD, 1/4", NTSC, SD, Built-in Lens, Composite, Y/C 226
3.4.16 Sony IPELA SNC-DH240T Network Dome Camera - Vandalproof - 3.3 MP - 1080p - 600 TVL - Day/Night 227
3.4.17 Sony SNC-ER550 28x 1080p HD PTZ Security Camera 228
3.4.18 Sony IPELA SNC-DH220T Network Dome Camera - Vandalproof - 3.3 MP - Day/Night 229
3.4.19 Sony IPELA SNC-DH160 Network Dome Camera - Outdoor - Vandalproof - 1.4 MP - 720p - Day/Night 230
3.4.20 Sony IPELA SNC-EP580 Network Camera - PTZ - 3.3 MP - 1080p - Day/Night 231
3.4.21 Sony Surveillance WebCams 232
3.4.22 Sony PlayStation Web Camera 233
3.4.23 Sony PlayStation Eye 235
3.4.24 Sony CMU-BR100 Camera and Microphone for Skype 237
3.4.25 Sony IP WebCam Specifications 238
3.4.26 Sony WebCam Innovations 243
3.5 Creative Technology 245
3.5.1 Creative Webcams 245
3.5.2 Creative Dell Webcam Central 247
3.5.3 Creative Dell Webcam Manager 248
3.5.4 Creative Dell Webcam Center 248
3.5.5 Creative WaveStudio 248
3.5.6 Creative Live! Cam Center 249
3.5.7 Creative Desktop IM Webcam Video Effects 250
3.5.8 Desktop Creative Live! Cam Video IM Pro Webcam 253
3.5.9 Desktop Creative Live! Cam Optia Pro Webcam 255
3.5.10 Creative Technology Notebook WebCams 257
3.5.11 Creative Technology Laptop Pro Webcam 258
3.5.12 Creative Live! Cam Notebook Ultra Laptop Webcam 259
3.6 Cisco / Linksys 260
3.6.1 Cisco Cisco TelePresence PrecisionHD USB Cameras 260
3.6.2 Cisco Linksys Wireless PTZ Internet Camera with Audio 267
3.7 D-Link 271
3.7.1 D-Link Cloud Camera 1000, Day Network Cloud Camera 271
3.7.2 D-Link Instant E-mail Alerts and Auto-Recording 273
3.7.3 D-Link Cloud Camera 1100, Day/Night Network Cloud Camera 274
3.7.4 D-Link WebCam Night Vision Technology 275
3.7.5 D-Link Day & Night Wi-Fi Camera 276
3.7.6 D-Link Pan & Tilt Day/Night Network Camera 278
3.7.7 D-Link HD Pan & Tilt Wi-Fi Camera 282
3.7.8 D-Link HD Wi-Fi Camera 283
3.6.9 D-Link 1 MP HD Cube PoE IP Camera 284
3.6.10 D-Link Internet Camera Technology Supports Security Systems 285
3.7 Encore Electronics 297
3.8 iMirco Electronics 300
3.7.9 iMicro IMC3299 USB Webcam, w/ Night Vision 300
3.7.10 iMicro IM109N USB Webcam, w/ Microphone 302
3.7.11 iMicro IM210 1.3MP USB Webcam w/ Clip 304
3.7.12 iMicro IM210N 1.3MP USB Webcam w/ Clip 305
3.7.13 iMicro IMC027 USB 2.0 Webcam for Notebook and Desktop w/ Night Vision 306
3.7.14 iMicro CAM-IMC626 1.3MP Notebook Webcam 308
3.7.15 iMicro CAM-IMC851 1.3MP Notebook Webcam w/ Microphone 309
3.8 Relleek Electronics Co. Ltd / Custom Memory Web Cams 316
3.9 3DV 321
3.10 Flir / Lorex 322
3.10.1 Lorex Outdoor Security Cameras 322
3.10.2 Lorex Dome Security Cameras 323
3.10.3 Lorex Bullet Security Cameras 324
3.10.4 Lorex Pan-Tilt-Zoom Cameras 325
3.10.5 Lorex Wireless Security Cameras 326
3.10.6 Lorex IP Camera For Home Monitoring 330
3.10.7 Lorex Home Security Camera Systems 330
3.10.8 Lorex Color DMC2023 PC Cam – 334
3.11 Adomax Electranic Technology (Z.Q.) Ltd WebCams 335
3.12 Platinet / Omega Technology Inc. 336
3.12.1 OMEGA WEB CAM C14 HARPY LED LIGHTS 2.0MPIX (interpolated) 480kpix optical USB 336
3.12.2 OMEGA WEB CAM C168 SACRET 1,3MPIX + MIC. NIGTH VISION [40948] 338
3.12.3 OMEGA WEB CAM SKYLARK C175 1,3MPix LED + MIC [40950] 339
3.12.4 OMEGA WEB CAM C193 ICTINIA 1.3MPIX LED + MIC BLISTER 340
3.12.5 OMEGA WEB CAM C11 UNIVERSAL 300KPIX + MIC PIANO BLACK BLISTER 342
3.12.6 OMEGA VOIP KIT OUWH-195 1,3MPIX HD 5P USB 343
3.12.7 OMEGA WEB CAM C10 12Mpix (i) + MIC BLISTER 345
3.12.8 OMEGA WEB CAM C12SB 12Mpix (i) + MIC BLISTER 346
3.12.9 OMEGA WEB CAM 1,3MPIX VALUE LINE OUW-13 BOX USB 347
3.12.10 OMEGA WEB CAM 1,3MPIX VALUE LINE OUW-13 BOX USB 348
3.13 Shenzhen Vigor Electronic & Technology Co.,Ltd 351
3.14 10moons Technology Development Co., Ltd 353
3.14.1 10moons D805HD 353
3.14.2 10moons S603HD Web Cam 354
3.14.3 10moons S604HD 355
3.14.4 10moons S607 355
3.14.5 10moons S303 356
3.14.6 10moons D503 357
3.14.7 10moons D502 358
3.14.8 10moons S302 358
3.14.9 10moons D501M 359
3.14.10 10moons D803M 360
3.14.11 10moons D601 360
3.14.12 10moons V806 361
3.14.13 10moons V805 362
3.14.14 10moons V804 363
3.14.15 10moons V803HD 364
3.14.16 10moons V602 365
3.14.17 10moons V802 366
3.14.18 10moons V801 367
3.14.19 10moons V601 368
3.14.20 10moons D804 369
3.14.21 10moons D802 370
3.14.22 10moons D801 371
3.14.23 10moons S606 372
3.14.24 10moons S605 372
3.14.25 10moons S601 373
3.14.26 10moons S602 374
3.14.27 10moons S301 375
3.15 Vivint 378
3.15.1 Vivint Doorbell Camera Technology 378
3.15.2 Vivint Doorbell Camera 378
3.16 Vimicro International Corporation 388
3.16.1 Vimicro Surveillance Solutions 388
3.16.2 Vimicro Surveillance Hardware 388
3.16.3 Vimicro Software 390
3.16.4 Vimicro Digital Video Processing SoC (System on Chip) for Surveillance Cameras 393
3.17 3DV 3D Imaging Camera for Gaming Application 396
3.18 Samsung Camera CMOS Image Sensor System-on-Chip Real-Time HD Video 397
3.18.1 Samsung SmartCam 397
3.18.2 Samsung S5K4AW CMOS Image Sensors Applications 399
3.18.3 Samsung Video Technique Called Binning 400
3.19 Annke SP1 HD Wireless IP Camera 401
3.19.1 Annke® 4CH 720P HD PoE NVR Security Systems 407
3.19.2 Annke HD IP Security Camera Remote Access via Smartphone 408
3.19.3 Annke Power Over Ethernet 408
3.20 Intel RealSense 3D Camera 411
3.20.1 Intel® RealSense™ 3D Camera Lenses Allow Device To Infer Depth 413
3.20.2 Intel Next Generation Apps Use Video to Detect Motion 413
3.21 B2 1000PC Webcam 415
3.22 Trust 416
3.22.1 Trust Trino Hd Video Webcam 416
3.22.2 Trust Elight Full HD 1080P Webcam 418
3.22.3 Trust Primo Webcam 421
3.22.4 Trust Exis Chatpack 422
3.22.5 Trust Spotlight Webcam Pro 423
3.22.6 Trust Verto Wide Angle Hd Video Webcam 424
3.23 Rosewill RCM-8163 True 1.3 M Effective Pixels USB WebCam 425
3.23.1 Rosewill RCM-8164V 1.3 M Effective Pixels USB 2.0 WebCam 426
3.23.2 Rosewill RCM-3640HD 3.0M pixels WebCam 427
3.23.3 Rosewill RIWC-11001 2.0M pixels UVC Webcam 427
3.24 IPEVO Point 2 View USB Document Cam 428
3.24.1 IPEVO Point 2 View USB Document Cam Close Up Shots 432
3.25 Nest Cam 435
3.25.1 Nest Cam Video History 436
3.25.2 A Nest home. 437
3.26 Netgear Wireless IP Cameras 437
3.26.1 Netgear Ocuity 500 Wireless IP Camera 438
3.27 Withings Home Camera 439
3.28 Genius 442

4. Webcam Technology 446
4.1 Multimedia SoC Design, Video, and Imaging 446
4.1.1 Multimedia SoC Design, Video, and Imaging Standards 446
4.1.2 Image Processing Algorithm Technologies 448
4.1.3 WebCam Audio 450
4.2 Embedded DSP and Multimedia Signal Processing Algorithms 450
4.3 WebCam Video Architecture Revolution 452
4.4 Web Camera Image Sensor Control Interface 453
4.4.1 Detailed System Blocks Description 454
4.5 Sony Image Sensor 457
4.6 Webcam Application Module 460
4.7 Router Provides Secure Wireless Video Communications 461
4.7.1 Micron DigitalClarity Technology 462
4.7.2 Active-Pixel Image Sensors Minimize Artifacts, Smear, Or Blooming For Higher-Quality Images 463
4.7.3 Smart Camera Function Evolving Technology 464
4.7.4 24-Bit Colors RGB 464
4.7.5 Adjusting for the Effect of Light Source 466
4.7.6 Aperture Correction 467
4.8 Real Time Mixed Reality Video 471
4.9 Micro Lenses and Color Filter Arrays 472
4.9.1 CMOS Image Sensor Portfolio 474
4.9.2 Analog-to-Digital Conversion 475
4.10 Telerobotic WebCams 476
4.11 WebCam Speed 476
4.11.1 Sensitivity 477
4.12 Network Camera Software for the Enterprise 477
4.13 YouTube WebCam / Virtual 3D 478

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(EMAILWIRE.COM, March 05, 2016 ) Drones: Trains, Planes, and Drones Use Remote Control: Market Shares, Strategy, and Forecasts, Worldwide, 2015 to 2021. Next generation drones leverage better technology, launching from ships anywhere. The technology is evolving better navigation, softer landings, longer flights, better ability to carry different payloads.

The drones are able to achieve military and commercial tasks. They have been evolving airfreight delivery systems capability. They are used for surveillance, reconnaissance and intelligence missions. They do 3D mapping, commercial pipeline observation, border patrol, package delivery, photography, and agriculture. These are more energy efficient, last longer and have a significantly lower cost of operation than manned aircraft.

Drone technology extends everywhere, even to airline control towers. Drones evolving technology is extending uses, even evolving to trains and planes. The use of Drone technology to control moving devices remotely extends the notion of drones, creating a larger potential drone market. Military drones will make every navy ship an aircraft carrier. They can be launched from anywhere, not needing an airfield.

In the recent Germanwings airline crash, the control tower knew for 10 minutes that the airliner was set to destruct with all the passengers on board but the controllers in the tower were powerless to help. This crash represents an instance of how security systems and sensors might be used from a control tower to effect remote control in response to a security issue.

Headlines like “Amtrak train derailed going 106 M.P.H. on sharp curve; at least 9 killed”, represent another instance of where remote control of a transport unit would improve safety in train operations. Remote monitoring. and remote piloting offer guidelines on the commercial use of unmanned aircraft systems . Drone commercial uses will provide billions of dollars in economic growth.

Drone unmanned aerial vehicle (UAV) technology has reached a level of maturity that has put these systems at the forefront of aerospace manufacturing. Procurement around the world is adapting to drone availability. Use in the global war on terrorism has demonstrated unique usefulness for military intelligence, surveillance, reconnaissance and communications relay.

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Relatively low-cost of drones make them work for civilian applications. Law enforcement, mapping, video making, movie making, environmental monitoring, and aerial survey become compelling applications in the future.

Drone aircraft are sophisticated and flexible. They take off, fly and land autonomously. They enable engineers to push the envelope of normal flight. Reconnaissance drones can fly for days continuously. Remote, ground-based pilots can work in shifts.

Removal of the need for an onboard pilot ushers in an era of low cost aerial craft called drones. The drone elimination of the need for human support systems on aircraft dramatically reduces the aircraft’s size, complexity, and power requirements. The drones effectively reduce overall program cost, development time and risk. Many advanced flight technologies are for piloted craft. These are initially tested using unmanned subscale demonstrators.

Removing the pilot allows designers to simplify the aircraft’s design and then test it at reduced risk. It allows configurations that would be impossible or impractical for human occupation.

A common issue with UAV platforms is the need to optimize these aircraft. UAV are used to carry useful payloads. These platforms are flexible as to payload, permitting interchangeable or additional sensors and other electronics, extra fuel or weapons systems. The sole function of an unmanned aircraft is to get to a target location, perform a task, and then return in the most efficient and cost-effective way. Without a pilot aboard, the return trip is optional. Light weight is central to UAV design.

NORTHROP GRUMMAN GLOBAL HAWK

LEXINGTON, Massachusetts (July 30, 2015) – WinterGreen Research announces that it has published a new study Drones: Trains, Planes, and Drones Use Remote Control: Market Shares, Strategy, and Forecasts, Worldwide, 2015 to 2021. Next generation drones leverage better technology, launching from ships anywhere. The technology is evolving better navigation, softer landings, longer flights, better ability to carry different payloads.

The drones are able to achieve military and commercial tasks. They have been evolving airfreight delivery systems capability. They are used for surveillance, reconnaissance and intelligence missions. They do 3D mapping, commercial pipeline observation, border patrol, package delivery, photography, and agriculture. These are more energy efficient, last longer and have a significantly lower cost of operation than manned aircraft.

Drone technology extends everywhere, even to airline control towers. Drones evolving technology is extending uses, even evolving to trains and planes. The use of Drone technology to control moving devices remotely extends the notion of drones, creating a larger potential drone market. Military drones will make every navy ship an aircraft carrier. They can be launched from anywhere, not needing an airfield.

In the recent Germanwings airline crash, the control tower knew for 10 minutes that the airliner was set to destruct with all the passengers on board but the controllers in the tower were powerless to help. This crash represents an instance of how security systems and sensors might be used from a control tower to effect remote control in response to a security issue.

Headlines like “Amtrak train derailed going 106 M.P.H. on sharp curve; at least 9 killed”, represent another instance of where remote control of a transport unit would improve safety in train operations. Remote monitoring. and remote piloting offer guidelines on the commercial use of unmanned aircraft systems . Drone commercial uses will provide billions of dollars in economic growth.

Drone unmanned aerial vehicle (UAV) technology has reached a level of maturity that has put these systems at the forefront of aerospace manufacturing. Procurement around the world is adapting to drone availability. Use in the global war on terrorism has demonstrated unique usefulness for military intelligence, surveillance, reconnaissance and communications relay.

Relatively low-cost of drones make them work for civilian applications. Law enforcement, mapping, video making, movie making, environmental monitoring, and aerial survey become compelling applications in the future.

Drone aircraft are sophisticated and flexible. They take off, fly and land autonomously. They enable engineers to push the envelope of normal flight. Reconnaissance drones can fly for days continuously. Remote, ground-based pilots can work in shifts.

Removal of the need for an onboard pilot ushers in an era of low cost aerial craft called drones. The drone elimination of the need for human support systems on aircraft dramatically reduces the aircraft’s size, complexity, and power requirements. The drones effectively reduce overall program cost, development time and risk. Many advanced flight technologies are for piloted craft. These are initially tested using unmanned subscale demonstrators.

Removing the pilot allows designers to simplify the aircraft’s design and then test it at reduced risk. It allows configurations that would be impossible or impractical for human occupation.

A common issue with UAV platforms is the need to optimize these aircraft. UAV are used to carry useful payloads. These platforms are flexible as to payload, permitting interchangeable or additional sensors and other electronics, extra fuel or weapons systems. The sole function of an unmanned aircraft is to get to a target location, perform a task, and then return in the most efficient and cost-effective way. Without a pilot aboard, the return trip is optional. Light weight is central to UAV design.

Drones represent a way to use air to travel faster and at less cost. The market is divided between military and commercial drones. Military drones represent the future of the national security presence for every nation. Increasing technology sophistication and lower costs are achieving dramatic market shifts.

Remote operation occurs in a control tower. The control tower knew for ten minutes that the Germanwings flight was headed for disaster and could do nothing about it, the same was true during the airliner participation in the 911 terrorist bombings. What this study is about is control towers that have the ability to stop trains, planes, and control drones.

Control towers are set to become a way of life and drones light the way. Other technologies will follow. If a train is approaching a curve at 100 miles per hour when it should be going 50 miles per hour, there in the future there will be a way to remotely take over the train and slow it or stop it.

If a plane is hijacked, if there is a bad guy in the pilot’s seat, then in the future, the control tower will take over the plane. Drones lead the way in this regard. Drones provide a way to permit a plane to enter an airspace and to be controlled remotely. It is the drone technology that will be adopted by the trains and planes in the future of control tower expansion.

In this study, we illustrate how drones achieve doing work even though they are remotely controlled. Remote operation of trains is now possible. A speeding train can be stopped by trained staff watching remotely. The rules for this have yet to be fully implemented.

Transportation Trades AFL-CIO Endorses Federal Mandates To Require At Least Two Crew Members On U.S. Freight Trains

Drone market forecasts indicate strong growth anticipated Markets at $3.6 billion in 2014 are anticipated to reach $16.1 billion by 2021. A $3.6 billion market is substantial indicating the presence of many reference accounts for vendors. The wide variety of models and applications speak to the strong foothold in the market. With many vendors pushing products, the aggregate marketing will contribute to building a huge market for drones.

Commercial drone agricultural markets will grow significantly as the aircraft are able to perform more cost efficiently than other ways of farming, ranching, and orchard tending. Package delivery is evolving as a nascent market for commercial drones.

Military markets for drones with strike capability will grow rapidly. Every segment of drone market applications is poised for strong growth as the designs become more mature and vendors spread throughout the world..

Military drones will be used on ships to replace missiles. Drones will master becoming more elusive and able to fly faster to get out of the way of armies firing at them. Drones will be launched from the decks of ships and controlled remotely to deal with trouble anywhere.

Drones markets promise to grow significantly because of the more economical visualization and navigation provided by systems. Visualization includes mapping from the air, inspection from the air, surveillance from the air, and package delivery from the air. The unmanned aircraft equipped with cameras are able to do things that cannot be done in any other way. This bodes well for market development.

Unmanned aircraft systems promise to achieve a more significant aspect of commercial market presence. Army Unmanned Aircraft Systems flying of 3 million flight hours gives drones market credibility. Eighty eight percent of those hours were logged in combat situations in Iraq and Afghanistan, paving the way for commercial drone markets to develop.

According to Susan Eustis, leader of the team that prepared the study, “Quantities of fielded military and commercial systems of every size and description are set to increase. Every ship can become an aircraft carrier with drones, every commercial endeavor can be made to operate more efficiently with drones. Police departments, the oil and gas industry, border patrol, and utilities are all using commercial drones. Units are used for agriculture. Vendors continue to improve the capabilities of drone aircraft. Governments continue to improve the rules and regulations controlling drones.Their ability to support the military and commercial endeavors is increasing. Unmanned aircraft have fundamentally changed the accuracy of utility and oil and gas inspections. The drones are set to fundamentally change how agriculture is conducted.”

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software. The company has 35 distributors worldwide, including Global Information Info Shop, Market Research.com, Research and Markets, Bloomberg, electronics.ca, and Thompson Financial. WinterGreen Research is positioned to help customers facing challenges that define the modern enterprises. The increasingly global nature of science, technology and engineering is a reflection of the implementation of the globally integrated enterprise. Customers trust wintergreen research to work alongside them to ensure the success of the participation in a particular market segment.

WinterGreen Research supports various market segment programs; provides trusted technical services to the marketing departments. It carries out accurate market share and forecast analysis services for a range of commercial and government customers globally. These are all vital market research support solutions requiring trust and integrity.

Companies Profiled

Market Leaders

AeroVironment Lockheed Martin
Textron
Boeing / Insitu
Northrop Grumman
Draganflyer
AeroVironment

Market Participants

AeroVironment
ASN Technologies
Aurora Flight
Aviation Industry Corp (Avic)
BAE Systems
Boeing
Challis UAV Inc.
China Aerospace
Denel Dynamics
DJI
Draganflyer
Finmeccanica
Flirtey
General Atomics
General Dynamics
Google
GoPro
Honeywell
Integrated Dynamics
Israel Aerospace Industries
L-3 Communications
Laird / Cattron Group International
Lockheed Martin
Marcus UAV
MMist
Northrop Grumman
Parrot/senseFly
Prox Dynamics
Proxy Technologies
RUAG Aerospace
Safran Morpho
SAIC
Scaled Composites
Schiebel
Textron
TRNDlabs
Wing Loong

Key Topics

Military Drones
Autonomous trains
Autonomous systems
Drones
Autonomous planes
Robotics
UAS
Planes
Trains
Commercial Drones
Drone Unmanned Aerial Systems (UAS)
Drone 3D Mapping
Drone Commercial Pipeline Observation
Drone Border Patrol
Drone Package Delivery
Drone Photography
Dronr Agriculture
Remote Control
Drone Surveillance
Drone Reconnisance
Drone Intelligence
Drone Missels
Drone Launchers
Aerial Refueling

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Table Of Content

1. Trains, Planes, and Drones: Market Description and Market Dynamics 93
1.1 Moving Transport Vehicle Remote Operation 93
1.2 Remote Operation Of Trains 94
1.2.1 Remote Control Of Planes, Trains, And Drones 96
1.2.2 Remote Control via Hacking Into An Airplane's Computer 96
1.2.3 Train Crash 97
1.2.4 Germanwings Crash: Co-pilot Suicide, Cockpit Doors Locked 100
1.3 Drones: Commercial Unmanned Aerial Systems (UAS) Description 102
1.2.1 US FAA Issues 104
1.3.2 Government Unmanned Aircraft Systems (UAS) 105
1.3.3 Military Drones Definition 105
1.4 Pre-Position UASs In Key Strategic Locations 105
1.4.1 Maritime Air Take-Off and Landing: 106
1.4.2 Unmanned Aerial Systems (UAS) Aerial Refueling 106
1.4.3 Unmanned Aerial Systems (UAS) Enhanced Capability and Payloads 106
1.4.4 Unmanned Aerial Systems (UAS) Enhanced Resilience 108
1.4.5 Small and Micro-UASs 108
1.4.6 Unmanned Aerial Systems (UAS) Perimeter Surveillance 109
1.4.7 Unmanned Aerial Systems (UASs) Surveillance 109
1.5 Georeferenced Imagery 111
1.5.1 Unmanned Aerial Systems (UAS) Traffic Monitoring 112
1.5.2 Unmanned Aerial Systems (UAS) Agriculture Mapping 113
1.5.3 Unmanned Aerial Systems (UAS) Homeland Security 114
1.5.4 Unmanned Aerial Systems (UAS) for Scientific Research 116
1.6 Globalization and Technology 118
1.6.1 Proliferation of Conventional Military Technologies 118
1.6.2 UASs General Roles 118
1.7 Border Patrol: 119
1.8 Development Of Lighter Yet More Powerful Power Sources For UASs 120

2. Drones, Unmanned Aerial Systems (UAS) Market Shares and Forecasts 121
2.1 Drone Market Driving Forces 121
2.1.1 UAS Challenges 129
2.1.2 Commercial Drone Unmanned Aerial Systems (UAS) 130
2.1.3 Drone Infrastructure Standards 135
2.2 Drone Market Shares 136
2.3 Drone Market Forecasts 139
2.3.1 Drone Market Leaders And Potential Market Share To 2021… 142
2.3.2 Commercial Drone Market Vertical Growth, Agriculture, Oil and Gas, Insurance 144
2.3.3 Drone Market Regional Growth 146
2.3.4 Comparison in Growth of Commercial Vs. Defense Spending on Drones 150
2.3.5 Market Growth Minis Vs. HALES/MALES? 152
2.4 Military Drone Markets 153
2.4.1 Military Drone Extended System Requirements 158
2.4.2 Drone FAA Federal Aviation Regulations 158
2.4.3 Military Drone Market Driving Forces 159
2.4.4 US DoD Spending Trends 162
2.4.5 US Military Budget 163
2.5 Military Drone Market Shares 163
2.5.1 Northrup Grumman 166
2.5.2 General Atomics 171
2.5.3 Textron A1A 173
2.5.4 AeroVironment 175
2.5.5 Boeing Insitu 175
2.5.6 Lockheed Martin Corporation (NYSE:LMT) 177
2.5.7 Prox Dynamics AS 177
2.5.8 Denel Dynamics 178
2.5.9 SAIC 178
2.5.10 Israel Aerospace Industries 179
2.5.11 General Dynamics Corporation 179
2.5.12 Wing Loong Medium-Altitude Long-Endurance (MALE) Drone 179
2.5.13 DJI 179
2.5.14 Drone Upgrade Spending 181
2.5.1 Military Drone Segments, Specific Drones and Their Vendors 184
2.5.2 Military Drone Systems Market Segments: Persistent 186
2.5.3 Military Penetrating Drone Systems Market Segments: 188
2.5.4 Military Tactical Drone Systems Market Segments: 189
2.5.5 Military Small Tactical Drone Systems Market Segments: 190
2.5.6 Military Mini Drone Systems Market Segments: 191
2.5.7 Military Drone Market Share Unit Analysis 192
2.5.8 US Military Drone Systems Installed and Sold by Vendor and by Type of Drone Market Shares,Units and Dollars 193
2.6 Military Drone Market Forecasts 195
2.6.1 Military Drone Market Segment Forecasts 196
2.7 Military Drone Regional Market 198
2.7.1 US: Growing Demand For Use Of Drones 201
2.7.2 US Defense Industry Initiatives DII-Related Initiatives 203
2.7.3 US Navy 204
2.7.4 US Air Force Drone Budget 206
2.7.5 US Military to Spend $38.9 Billion On Drones And Unmanned Systems Over 7 Years 207
2.7.6 Inventory of Unmanned Aerial Integrated Systems 209
2.7.7 US Drone Roadmap Anticipates Substantial Growth 211
2.7.8 US Military Drone Robot Technology Budget Requests 217
2.7.9 Unmanned Ground Systems 219
2.7.10 Unmanned Maritime Systems 220
2.7.11 US Military Technology Investment 221
2.8 Commercial Drone Unmanned Aerial Systems (UAS) Market Shares 224
2.8.1 Commercial Drone Unmanned Aerial Systems (UAS) Market Shares 228
2.8.2 Lockheed Martin 229
2.8.3 BP and AeroVironment Launch FAA-Approved, Commercial Unmanned Aircraft Operations 229
2.8.4 AeroVironment's Extensive Operational Track Record 231
2.8.5 AeroVironment $11.2 Million Order for Raven Unmanned Aircraft Systems and Services 231
2.8.6 Textron /AAI 232
2.8.7 Textron Shadow® 235
2.8.8 Aurora Flight Sciences Odysseus Solar-Powered Aircraft 236
2.8.9 Insitu 236
2.8.10 Draganflyer X4 UAV 237
2.8.11 Boeing Insitu 237
2.8.12 DRS Unmanned Technologies Ground Control Stations 238
2.8.13 Proxy Aviation Systems 238
2.8.14 Northrop Grumman Bat 3 238
2.8.15 General Atomics Predator® UAS 239
2.8.16 General Atomics Predator® B UAS 241
2.8.17 Border Patrol / Law Enforcement Drone Unmanned Aerial Systems (UAS) Market Shares 242
2.8.18 Package Delivery Drone Unmanned Aerial Systems (UAS) Market Shares, 243
2.8.19 Google Package Delivery 244
2.8.20 Utility and Pipeline Inspection Drone Unmanned Aerial Systems (UAS) Market Shares 245
2.8.21 Agricultural Inspection and Planting Drone Unmanned Aerial Systems (UAS) Market Shares249
2.8.22 Yamaha RMAX 251
2.8.23 Prox Dynamics PD-100 Black Hornet 254
2.8.24 Photography and Videography Drone Unmanned Aerial Systems (UAS) Market Shares 254
2.9 Commercial Drone Unmanned Aircraft Market Forecasts 255
2.9.1 Unmanned Aerial Systems (UAS), Market Total Forecasts 256
2.9.2 Small Commercial Drone Unmanned Aircraft Market Forecasts 259
2.9.1 Mid-Size Commercial Drone Unmanned Aircraft Market Forecasts 262
2.9.1 Small and Mid Size Commercial Drone Unmanned Aerial Systems 265
2.9.2 Commercial Drone Unmanned Aerial Systems (UAS), Market Forecasts by Sector 266
2.9.3 Commercial Drone UAS Wing Based Sub-segments 276
2.10 Unmanned Aerial Systems Payloads 276
2.10.1 Composites Key to UAV Utility 277
2.11 Unmanned Airplane Regional Market Analysis 278
2.11.1 Unmanned Aerial Vehicle (UAV) Industry Regional Summary 280
2.11.2 U.S Accounts for 73 Percent Of The Worldwide Research, Development, Test, And Evaluation (RDT&E) Spending On UAV Technology 281
2.11.3 UAS Marketplace Moving Target 285
2.11.4 China 285
2.11.5 China 285
2.11.6 DoD Source Materials 286
2.11.7 US Drone Research, Development, Test & Evaluation (RDT&E) 289
2.11.8 US Drones for Aircraft Carriers 292
2.11.9 Worldwide Trade In Drones 295
2.11.10 Chinese Smog-Fighting Drones That Spray Chemicals To Capture Air Pollution 295
2.11.11 China Desires Exports, Steps Up Research In Military Drones 297
2.11.12 Drones for the Netherlands 298
2.11.13 U.S. State Department Drone Export Guidelines 298
2.11.14 Canada 299
2.11.15 Singapore 299
2.11.16 Brazil 300
2.11.17 Morocco 300
2.11.18 India 301
2.11.19 Russia Develops Heavy Drone 301
2.11.20 Russian Drones In the Skies In Ukraine 302

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(EMAILWIRE.COM, March 05, 2016 ) Industrial Robot infrastructure in one industry makes it easier to extend product sets so that they are more available across all industries, remaking all manufacturing everywhere.

Controllers permit leveraging industrial robot technology to improve automated process via iteration of work cells. Using controllers to leverage efficiencies is an evolving art, extending the current state of the art. Robots can perform tasks at less cost, and do work in a manner that cannot be replicated with human manufacturing workers. Information technology is used to implement the services provided by controllers.

Growth prospects for the industrial robotics industry depend on market opportunity metrics relative to the different industries. Automotive investment levels globally have remained at historical highs. Increasing usage of robotic automation by non-automotive companies is driving the usage of industrial robot automation to a new level.

Increased adoption of industrial robots coupled with a huge push from the industry for collaborative robots, opens opportunities for robotic solutions. In the immediate future industrial robots strengthen the position of every industry, promising more manufacturing efficiency at every level.

The industrial robots have not yet achieved economies of scale, illustrating the market opportunity that will come quickly after economies of scale are achieved. New technology and improved controllers open the path to economies of scale for industrial robots. As this occurs a new industrial revolution will occur. There are massive numbers of products offered by each major industrial robot vendor. Product consolidation is occurring in the market. Customization of a few products to increase product volume hold the promise of changing the market so it functions at a level that means devices that basically have eluded economies of scale in the past, will now be able to be mass produced.

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A few leading vendors profiled in the report lead the market. ABB provides a comprehensive range of robots to help manufacturers improve productivity, product quality and worker safety. Regardless of application ABB has a robot to meet needs of the customer in any industry. ABB has installed 250,000 robots worldwide.

ABB's small IRB 120 multipurpose industrial robot weighs 25kg and can handle a payload of 3kg (4kg for vertical wrist) with a reach of 580mm. It is a cost-effective and reliable choice for generating high production outputs in return for low investment. A white finish Clean Room ISO 5 (Class 100) version, certified by IPA, is available.

With a global install base of nearly 300,000 industrial robots, Yaskawa Motoman has over 150 robot arm models currently in production. Well defined criteria help users find a robotic arm that suits industrial applications. Required payload, reach and repeatability specifications are market aspects. Each robotic arm model is paired with a robot controller that enables workers to program and control tasks of a single robot or coordinate multiple robot arms.

Yaskawa. Motoman offers 40 fully integrated, pre-engineered work cell solutions. These work cells include robots, process equipment, and safety equipment. Cost-effective world solutions are available to meet requirements for safety and easy of use. Customers look for industrial robots that are easy to set up and operate. Industrial robots automate manufacturing, starting with automotive factories providing automated process stat is cheaper, more reliable, and proven. Industrial robots are changing the economics of manufacturing and materials handling in all industries. Industrial robots are poised to change every aspect of modern business.

Robots bring a new industrial revolution. Adoption of industrial robots in non-automotive applications is occurring in the electronics, chemicals, pharmaceutical, and food & beverages industries. Industrial robots have opened up new market opportunities. High installation costs have been largely overcome, making industries in developing markets available to vendors. The adoption of robots in underdeveloped countries occurs because of the unavailability of skilled labor.

industrial robots are set to bring a new industrial revolution more important than anything seen before. Industrial robots perform repetitive tasks efficiently, they do not eat, they do not make mistakes, they do not get tired, they do what they are told.

Manufacturing plants are frequently long aisles of nothing but robots, no human in sight. Beyond industrial robots that repeat actions, more intelligent robots loaded with sensors, cameras, and intelligent software are able to automate process using controllers to manage action. Use of microprocessors provides a measure of intelligent control over the activity of the robot based on input from the sensors and the cameras.

Think about the current industrial revolution. Before the invention of the automobile, buggy whip manufacturing was a thriving business. No longer. In the same vein, industrial robots hold the promise of eliminating many of the existing jobs in manufacturing. Innovation, centers of excellence. New enterprises promise to replace many of the existing jobs. People need to be flexible, to develop new industries.

Increased adoption of industrial robots coupled with a huge push from the industry for collaborative robots, opens opportunities for robotic solutions. In the immediate future industrial robots strengthen the position of every industry, promising more manufacturing efficiency at every level.

The issue becomes creating jobs and building economies worldwide so people can afford to support a family and a lifestyle and buy the goods that are manufactured so efficiently. This new job creation market thrust will come from industry and government investment in innovation and centers of excellence.

Industrial robots promise to replace 70 to 90% of existing manufacturing jobs. People will learn new ways to achieve an economy, to achieve economic development. An economy needs to adjust, to be flexible if you gave pink slips to more than half the labor force.

According to Susan Eustis, principal author of the market research study, “Industrial robot vendors have discovered that with intelligent use of new technology, they can dominate an aspect of some manufacturing automated process for a particular sector. As the early adopters in the auto industry have proven, robots do the work cheaper and better than humans once a repetitive process has been evolved. Industrial robots make the difference between winning competitive advantage or losing it. Solutions offered by vendors are creating market growth opportunities .”

Industrial robots can perform tasks faster and more accurately than humans. Increases in productivity are provided by industrial robots. Robots help reduce overall manufacturing costs in developing and developed countries. Markets are expected to rise 11.5% annually through 2021.Industrial robot markets at $22 billion in 2014 are anticipated to reach $48.9 billion by 2021.

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software. The company has 35 distributors worldwide, including Global Information Info Shop, Market Research.com, Research and Markets, Electronics.CA, Bloomberg, and Thompson Financial.

WinterGreen Research is positioned to help customers face challenges that define the modern enterprises. The increasingly global nature of science, technology and engineering is a reflection of the implementation of the globally integrated enterprise. Customers trust WinterGreen Research to work alongside them to ensure the success of the participation in a particular market segment.

WinterGreen Research supports various market segment programs; provides trusted technical services to the marketing departments. It carries out accurate market share and forecast analysis services for a range of commercial and government customers globally. These are all vital market research support solutions requiring trust and integrity.

Companies Profiled

Market Leaders

ABB
Yasakawa
Denso
Fanuc
Kuka
Kawasaki
Toshiba
Panasonic
Stabuli
Nachi
Yamaha
Epson
Comau
Adept Technologies

Market Participants

ABB Robotics
Adept Technology
American Robot
Anhui Efort Intelligent Equipment
Apex Automation
Arotech
Apex Automation and Robotics
Association for Advancing Automation (A3)
Aurotek
Axium
BAE Systems
Changzhou Mingseal Robotic Technology
Daimler AG/Mercedes-Benz
Denso Wave
DJI Innovation
DMG Mori Ellison Technologies
Durr
EBZ
ECA Robotics
Elbit Systems
Epson
Evatran Group
Fanuc
Fiat / Comau
Fuji Heavy Industries
GSK
Harbin BOSHI Automation
Harbin Haier & HIT Robot Technology
Harmonic Drive Systems
HuaHeng Welding
Hyundai Heavy Industries
International Federation of Robotics (IFR)
Kawasaki Robotics
Kuka
MESNAC
Mitsubishi
Nabtesco
Nachi Fujikoshi Corp.
National Institute of Standards and Technology
Osaka Transformer Company OTC / Daihen
Panasonic
Pari Robotics
Pedsco
Re2, Inc
ReconRobotics
Reis Robotics
Rethink Robotics
Robosoft
Robotic Industries Association (RIA)
Rockwell Automation
Schunk GmBH
Shanghai STEP Electric
Shenzhen Jasic Technology
Shibuya Seiki
SDR Tactical Robot
SIASUN Robot & Automation
Stäubli
Tangshan Kaiyuan Group / Tangshan Kaiyuan Welding (TKSW)
Thyssen
Toshiba TM
Universal Robots
VDE
Yamaha
Yaskawa / Motoman

Key Topics

Industrial Robot
Industrial Robot Articulated
Industrial Robot Cylindrical
Industrial Robot Cartesian
Industrial Robot Scara
Industrial Robot Welding
Industrial Robot Painting
Industrial Robot Material
Handling
Industrial Robot Logistical,
Packaging
Industrial Robot Palletizing
Industrial Robot Food
Industrial Robot Beverages
Industrial Robot Packaging
Industrial Robot Metals
Industrial Robot Heavy
Machinery
Industrial Robot Plastics And
Rubber
Industrial Robot Solar /
Industrial Robot Market
Installed Base
General Industrial Robot
Markets
Automotive Industrial Robot
Market Shares
Systems Body-In-White
Industrial Robot Market
Shares
SCARA Industrial Robot
Market Shares
Industrial Robot Cell Size
Low-Cost Automation
Industrial Robots Replace
Existing Manufacturing Jobs
Robots Bring A New
Industrial Revolution
Industrial Robot Target
Markets
Industrial Robots Third Wave
Of Automated Process
Flexible Response To
Changing Market Conditions
Innovation For Manufacturing
Manufacturing Localization

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Table Of Content

1. Industrial Robot Description and Market Dynamics 54
1.1 Industrial Robot Markets 54
1.1.1 Robots Make Production More Efficient 55
1.1.2 Robots Find A Place in Industry 55
1.1.3 Challenges to the Use Of Industrial Robots 56
1.2 Robots Achieve Reduced Labor Costs 57
1.3 Buggy Whips 59
1.3.1 Industrial Robots Promise To Replace 70 To 90% Of Existing Manufacturing Jobs 59
1.3.2 Industrial Robots In Auto Factories Multi-Tasking: Welding, Riveting, Bonding And Installing A Component 61
1.3.3 Advent Of Low-Cost Automation 63
1.3.4 Tesla’s factory 64
1.3.5 Everyone Will Have Access To A Personal Robot 65
1.4 Global Economy 66
1.4.1 Robotics as Key Economic Enabler 68
1.4.2 US Economy 72

2. Industrial Robots Market Share and Market Forecasts 74
2.1 Robot Market Driving Forces 74
2.1.1 Robots Bring A New Industrial Revolution 77
2.1.2 Industrial Robot Target Markets 82
2.1.3 Industrial Robots Third Wave Of Automated Process 83
2.2 Industrial Robot Market Shares 88
2.2.1 Industrial Robots Market Shares 88
2.2.2 ABB 90
2.2.3 Kuka 91
2.2.4 Fanuc 93
2.2.5 Denso 94
2.2.6 Kawasaki Robotics 94
2.2.7 Yaskawa 95
2.2.8 Mitsubishi Electric Corp. 96
2.2.9 Nachi Fujikoshi Corp. 96
2.2.10 Pari Robotics 97
2.2.11 Kuka / Reis Robotics 97
2.2.12 Automotive Robotics and Systems 98
2.2.13 Rockwell Automation 99
2.2.14 Schunk GmbH 100
2.2.15 Staubli International AG 100
2.2.16 Toshiba TM Robotics 101
2.2.17 Yamaha Robotics 101
2.2.18 Comau 101
2.2.19 Epson 103
2.2.20 Industrial Robot Market Share Segment Shipments by Cell Size 104
2.2.21 Industrial Robot Market Installed Base 106
2.2.22 General Industrial Robot Markets 110
2.2.23 Automotive Robot Market Shares 111
2.2.24 Systems Body-In-White Market Shares, 113
2.2.25 SCARA Industrial Robot Market Shares, 114
2.3 Industrial Robot Market Forecasts 115
2.3.1 Industrial Robots Market Unit Forecasts 120
2.3.2 Robotic Trends 122
2.4 Industrial Robots Market Segments 124
2.4.1 Industrial Robot Market Forecasts, Market Segments: Automotive, Body In White, Food, Beverages, Packaging, Metals, Heavy Machinery, Plastics And Rubber, And Solar / Other 125
2.4.2 Automobile Industry Industrial Robots 127
2.4.3 Robot Density in Automotive and General Industry 128
2.4.4 Industrial Robot Market Forecasts, Market Segments: Welding, Painting, Material Handling, Logistical, Packaging, Palletizing 130
2.4.5 Industrial Paint Robots 132
2.4.6 Industrial Paint Robot ROI 132
2.4.7 Industrial Robot Market Forecasts, Market Segments: Welding Segments, 133
2.4.8 Industrial Robot Market Forecasts, General Manufacturing and Other Segments 135
2.4.9 Industrial Robot Market Forecasts, Market Segments: Articulated, Cylindrical, Cartesian, And Scara 136
2.4.10 Articulated Industrial Robots 136
2.4.11 Industrial 6-Axis, 5-Axis, and 4-Axis SCARA Robots 137
2.4.12 Cartesian Industrial Robots 138
2.4.13 Advanced Industrial Robotics Market Penetration 148
2.4.14 Industrial Robot Welding 151
2.4.15 Yaskawa Motoman Robotic Welding and Cutting 152
2.4.16 Industrial Robot Palletizing 153
2.4.17 Robotics End User Trends 156
2.4.18 Foxcomm Doubles Total Robotics Installed Base 158
2.4.19 Industrial Robot Automated Material Handling 158
2.5 Industrial Robots ROI 159
2.6 Industrial Robots Pricing 163
2.7 Industrial Robots Regional Market Segments 166
2.7.1 US 169
2.7.2 Europe 171
2.7.3 Asia Pacific 171
2.7.4 Japan 172
2.7.5 Japan 173
2.7.6 Chinese Industrial Robots Market 175
2.7.7 Leading Chinese Mainland Industrial Robot Players 181
2.7.8 Chinese Industrial Robot Companies 183
2.7.9 ABB Developing Markets Opportunities 184

3. Industrial Robot Product Description 188
3.1 Robotic Manufacturing Equipment 188
3.1.1 ABB 190
3.1.2 Kawasaki Robotics 190
3.1.3 Kuka Automotive Production Complexity 191
3.1.4 Yaskawa Motoman 191
3.1.5 Fanuc 192
3.1.6 Global Industrial Robotics Market Segmentation 193
3.2 ABB 193
3.2.1 ABB Process Industry Control Robots 194
3.2.2 ABB Comprehensive Range Of Robots 196
3.2.3 ABB IRB 120 For Flexible And Compact Production 196
3.2.4 ABB IRB 140 198
3.2.5 ABB IRB 140 Small, Powerful And Fast 6-Axes Robot 198
3.2.6 ABB IRB 6660 For Press Tending 199
3.2.7 ABB IRB 6650S Full Vertical And Horizontal Stroke Motion 202
3.2.8 ABB IRB 360 FlexPicker™ 204
3.2.9 ABB IRB 5500 – FlexPainter 206
3.2.10 ABB IRB 5500 – FlexPainter 208
3.2.11 ABB Material Handling Robots 210
3.2.12 ABB IRB 1200 Material Handling And Machine Tending 210
3.2.13 ABB Power IRB 7600 Built To Handle Work-Pieces Weighing 500 kg 212
3.2.14 ABB Symphony Plus 214
3.2.15 ABB IRB 2600ID Arc Welding 215
3.2.16 ABB IRB 1520ID Lean Arc Welder 218
3.2.17 ABB IRB Cost of Ownership Reductions 219
3.2.18 ABB YuMi 220
3.2.19 ABB YuMi Robotic Co-Worker 221
3.2.20 ABB Human - Robot Collaboration 222
3.2.21 ABB Human - Robot Collaboration 223
3.2.22 ABB YuMi Dual Arm Robots 223
3.3 Kuka Robots 227
3.3.1 Kuka LBR IIWA 230
3.3.2 Kuka LBR IIWA 7 R800 230
3.3.3 Kuka LBR IIWA 7 R820 231
3.3.4 Kuka KR 5 ARC 233
3.3.5 Kuka KR 16 L6-2 234
3.3.6 Kuka KR 5-2 ARC HW Specialist Arc Welding 235
3.3.7 Kuka KR 16-2 F for Tasks In The Glass Industry 237
3.3.8 Kuka KR 16-2 CF For Industry Including the Cleanroom 238
3.3.9 Kuka KR 90 R2700 PRO (KR QUANTEC PRO) 239
3.3.10 Kuka KR 40 PA Palletizing Robot 241
3.3.11 Kuka 120 R3200 PA 242
3.3.12 Kuka 1000 1300 TITAN PA 242
3.3.13 Kuka 1000 L950 TITAN PA 243
3.3.14 Kuka Customer Production Focus 244
3.3.15 Kuka Robots in the Industry 250
3.3.16 Kuka Robots in the Food Processing Industry 251
3.3.17 Kuka Automation in Agriculture 253
3.4 Fanuc 256
3.4.1 Fanuc ARC Mate 256
3.4.2 Fanuc LR Mate Series 261
3.4.3 Fanuc F-200iB 262
3.4.4 Fanuc M-1iA 263
3.4.5 Fanuc M-2iA 264
3.4.6 Fanuc M-3iA 266
3.4.7 Fanuc M-10iA 267
3.4.8 Fanuc M-20iA 269
3.4.9 Fanuc M-410iA 271
3.4.10 Fanuc M-410iC 272
3.4.11 Fanuc M-420iA 273
3.4.12 Fanuc M-430iA 273
3.4.13 Fanuc M-710iA 275
3.4.14 Fanuc M-900iA 278
3.4.15 Fanuc M-900iB 280
3.4.16 Fanuc M-2000iA 282
3.4.17 Fanuc Paint Robots 283
3.4.18 Fanuc R-1000iA 284
3.4.19 Fanuc R-2000iB 285
3.4.20 Fanuc R-2000iC 289
3.4.21 FANUC 295
3.4.22 Fanuc Vegetable Sorting Robot 295
3.4.23 FANUC Robodrill DiA5 Series 296
3.5 Denso Wave 298
3.5.1 Denso HS-G Series 299
3.5.2 Denso HM-G Series 301
3.5.3 Denso VM-G Series 303
3.5.4 Denso VS-G Series 305
3.5.5 Denso New VS-G Series 307
3.5.6 Denso VP-G Series 313
3.5.7 Denso XR-G Series 315
3.6 Yaskawa Motoman 318
3.6.1 Yaskawa Motoman Arc Welding Robots 318
3.6.2 Yaskawa Motoman 7-Axis Robotic Welding Arm 319
3.6.3 Yaskawa Motoman Spot Welding Robots 327
3.6.4 Yaskawa Motoman Assembly Robots 335
3.6.5 Yaskawa Motoman Material Cutting Robot 356
3.6.6 Yaskawa Motoman Die Casting Robots 365
3.6.7 Yaskawa Motoman Dispensing Robots 373
3.6.8 Yaskawa Motoman Machining Robots 388
3.6.9 Yaskawa Motoman Material Removal Robots 420
3.6.10 Yaskawa Motoman Press Tending Robots 425
3.6.11 Yaskawa Motoman Robots for Warehouse Distribution Centers 445
3.6.12 Yaskawa Motoman Machine Tending Robots 447
3.6.13 Yaskawa Motoman Robotic Palletizer Models 479
3.6.14 Yaskawa Motoman Part Transfer Robots 484
3.6.15 Yaskawa Motoman Robots for Primary and Secondary Packaging 517
3.6.16 Yaskawa Motoman Clinical Lab Robots 517
3.6.17 Yaskawa Motoman Analytic Specimen Capabilities 518
3.6.18 Yaskawa Motoman AutoSorter™ 519
3.6.19 Yaskawa Motoman Painting Robots 520
3.6.20 Yaskawa Motoman Robot Painting to Specifications 521
3.7 Staubli Robotics: Innovative SCARA and 6-Axis Robots And Software Solutions 538
3.7.1 Staubli TP80 Fast Picker Robot 539
3.7.2 Staubli TS40 SCARA robot 544
3.7.3 Staubli TS60 SCARA robot 545
3.7.4 Staubli TS80 SCARA robot 546
3.7.5 Staubli TX40 6-Axis Industrial Robot 547
3.7.6 Staubli TX2-40 6-Axis Industrial Robot 548
3.7.7 Staubli TX60 6-Axis Industrial Robots 549
3.7.8 Staubli TX2-60 6-Axis Industrial Robots 550
3.7.9 Staubli TX90 6-Axis Industrial Robot 551
3.7.10 Staubli TX2-90 6-Axis Industrial Robot 552
3.7.11 Staubli RX160 6-Axis Industrial Robot 553
3.7.12 Staubli TX200 6-Axis Heavy Payload Robot 554
3.7.13 Staubli TX340 SH Industrial Robot 555
3.7.14 Staubli Painting Robots 556
3.8 Logistics Services Robots 557
3.8.1 Amazon Kiva Mobile-Robotic Fulfillment System 557
3.8.2 Swisslog WarehouseRunner for Storage and Retrieval: Increase Efficiency Throughout the Warehouse 557
3.8.3 C&D Robotics ATL Automatic Truck Loading 558
3.8.4 Motoman Robotic Truck Unloading and Mixed-Case Depalletizing 559
3.8.5 Yaskawa Motoman Packaging 563
3.8.6 Yaskawa Motoman Palletizing 565
3.9 Adept Technology Inc. 567
3.9.1 Adept SCARA Robot - Adept Cobra ePLC800 Inverted SCARA 4-Axis Robot 567
3.9.2 Adept Parallel Robot (Delta Robot): Adept Quattro ePLC800H 568
3.9.3 Adept Six-Axis Robot - Adept Viper ePLC850 569
3.9.4 Adept Linear Modules - Adept Python 571
3.10 Aurotek Corp. 572
3.10.1 Aurotek Automation & Robotics 572
3.10.2 Aurotek Actuator 573
3.10.3 Aurotek Motion Controller 573
3.11 Axium Inc. 574
3.11.1 Axium Palletizing Solutions - Axium IxOFlex – Scalable 574
3.11.2 Axium IxOFlex – T – Tissue Palletizing Solution 576
3.11.3 Axium EOP – End of Press Robotic Palletizing 577
3.11.4 Axium RRFlex – Rail Mounted Palletizing Solution 578
3.11.5 Axium ROP – Mixed Load Palletizing 579
3.11.6 Axium WrapBotic – Palletizing and Wrapping Solution For Unstable Loads 581
3.11.7 Axium Depalletizing Solutions: Axium DP500 Sorter – Robotic Folding Carton Sorter 582
3.11.8 Axium DP240 – Layer Depalletizer 583
3.11.9 Axium DP500 Feeder – Robotic Folding Carton Feeder 584
3.11.10 Axium CIS – Case Measuring & Inspection System 585
3.11.11 Axium Case Packing Solutions: Axium BD-X-65 – Tissue Box Collating Solution 586
3.11.12 Axium CP-4X – Case Packer 4 axis 587
3.11.13 Axium CP-6X – Case Packer 6 Axis 588
3.11.14 Axium MP900 – Mixed Case Packing 589
3.12 Daihen Corp. 590
3.12.1 Daihen FD-V6 STANDARD ARC WELDING ROBOT 590
3.12.2 Daihen FD-V6L Long Reach Arc Welding Robot 592
3.12.3 Daihen FD-B4 Through-Arm Cable ARC Welding Robot 594
3.12.4 Daihen FD-B4L EXTENDED REACH THROUGH-ARM CABLE ARC WELDING ROBOT 597
3.12.5 Daihen FD-H5 Compact ARC Welding Robot 600
3.12.6 Daihen FD-V20 LONG REACH ARC WELDING ROBOT 603
3.13 Ellison Technologies. 605
3.13.1 Ellison Bulk Mail Handling 605
3.13.2 Ellison Robot Swing Boom 606
3.13.3 Ellison Tilt/Rotate Table 607
3.13.4 Ellison Headstock/Tailstock 608
3.13.5 Ellison Index Tables 609
3.13.6 Fanuc/Ellison Vision 610
3.13.7 Ellison Gripper Systems 611
3.14 Mitsubishi Electric Corp. 612
3.14.1 Mitsubishi Vertical Type Robots 612
3.15 Nachi Fujikoshi Corp. 619
3.15.1 Nachi SRA100/166/210/166L/120EL 619
3.15.2 Nachi SRA166/210-01A 620
3.15.3 Nachi SRA100H/SRA133HL 621
3.15.4 Nachi SRA100B/100J 622
3.15.5 Nachi Arc Welding NB/NV Series 623
3.15.6 Nachi SC series SC700 623
3.15.7 Nachi SC series SC500 624
3.15.8 Nachi SC series SC400L 625
3.15.9 Nachi MC350/MC280/MC470P 626
3.15.10 Nachi SC series SC400LC 627
3.15.11 Nachi ST133CF/166CF/210CF-01 628
3.15.12 Nachi SJ80C-18D/24D, SJ120C-28D/28S 629
3.15.13 Nachi Compact and Super Fast Robot - MZ04 630
3.15.14 Nachi MZ07 - the World's Fastest Lightweight, Compact Robot 631
3.15.15 Nachi ST210TP 632
3.15.16 Nachi LP130/180/210-01 633
3.15.17 Nachi MR35/50 634
3.15.18 Nachi MR20/20L 635
3.15.19 Nachi MC35/50/70 636
3.15.20 Nachi MC20/MC10L 637
3.15.21 Nachi MC12S 638
3.15.22 Nachi SRA100/166/210/166L/120EL 639
3.16 Epson Robots 640
3.17 Pari Robotics 645
3.17.1 Pari Gantry Robots 645
3.17.2 Pari Portal Robots 646
3.17.3 Pari Robot Transporters 648
3.18 Reis Robotics 648
3.18.1 Reis VERTICAL ARTICULATED ARM 648
3.18.2 Reis Linear Kinematics 650
3.18.3 Reis Horizontal Articulated Arm 652
3.18.4 Reis Hybrid Kinematics 654
3.18.5 Reis ROBOTSTAR VI – THE STAR AMONG ROBOT CONTROLS 657
3.19 Rockwell Automation Inc. 657
3.19.1 Rockwell Robotic Solutions 657
3.19.2 Rockwell Packaging 658
3.19.3 Rockwell Cartoner 659
3.19.4 Rockwell Case Packer 661
3.19.5 Rockwell Horizontal Flow Wrapper 663
3.19.6 Rockwell Vertical Form, Fill & Seal 664
3.19.7 Rockwell Material Handling 666
3.19.8 Rockwell Conveyors 668
3.19.9 Developments by Cisco and Rockwell Automation 669
3.19.10 Rockwell Palletizing 671
3.19.11 Rockwell Sortation 674
3.19.12 Rockwell Factory Machines 676
3.20 Schunk GmbH 678
3.20.1 SCHUNK Mobile Gripping Systems. 678
3.20.2 SCHUNK Clamping Technology 679
3.20.3 SCHUNK Gripping Systems 679
3.21 Toshiba Machine TM Robotics 680
3.21.1 Toshiba Machine TM SCARA THP550 680
3.21.2 TM SCARA THP700 681
3.21.3 TM SCARA TH1050A 682
3.21.4 TM SCARA THL1000 683
3.22 Yamaha Robotics 684
3.22.1 Yamaha YK600XGL 685
3.22.2 Yamaha YK500TW 686
3.22.3 Yamaha YK1200X 687
3.22.4 Yamaha YK1000XGS 688
3.22.5 Yamaha YK1000XC 689
3.23 Kawasaki Robotics 690
3.24 Universal Robots 692
3.25 MIT Autonomous Gardener Equipment Mounted On The Base of a Roomba 696

4. Industrial Robot Technology 699
4.1 SCARA Robots 699
4.1 Nanotechnology 701
4.2 Sensor Technology 701
4.2.1 Robot System Architecture 702
4.2.2 Automation Technology Replaces Manual Labor Tasks 703
4.2.3 Behavior-Based Robotics 703
4.2.4 Proprietary Sensor Technology 704
4.2.5 System Design & Architecture 704
4.3 Welding Robots 705
4.4 Material Handling Robots: 706
4.5 Painting Robots 706
4.5.1 Paint Robots 709
4.6 Plasma Cutting Robots: 712
4.7 Robotic Assistants: Co-Robots 712
4.7.1 Low-Cost Robots Baxter, UR5 and UR10 for Small And Medium Business (SMEs) 713
4.8 Industrial Robots Degrees-Of-Freedom 717
4.8.1 Motion characteristics 717
4.8.2 Continuous Path Robots 718
4.8.3 Accuracy and repeatability 718
4.9 Robotics and Automation Scope and Standards 718
4.9.1 Use Of Standard Industrial Robots 720
4.9.2 IEEE Standards Initiatives Affecting Industrial Robots 721

5 Robot Company Description 722
5.1 ABB Robotics 722
5.1.1 ABB and IO Deliver Direct Current-Powered Data Center Module 733
5.1.2 ABB / Validus DC Systems DC Power Infrastructure Equipment 734
5.1.3 ABB Technology 736
5.1.4 ABB Global Lab Power 738
5.1.5 ABB Global Lab Automation 739
5.1.6 ABB Strategy 739
5.1.7 ABB Global Leader In Power And Automation Technologies 754
5.1.8 ABB Power Products 755
5.1.9 ABB Power Systems 756
5.1.10 ABB Customers 756
5.1.11 ABB Partners 758
5.1.12 ABB Discrete Automation and Motion 760
5.1.13 ABB Low Voltage Products 761
5.1.14 ABB Process Automation 762
5.2 Adept Technology 763
5.2.1 Adept Technology Leading Provider Of Intelligent Vision-Guided Robotics 767
5.3 American Robot Corporation 768
5.4 Anhui Efort Intelligent Equipment 769
5.5 Apex Automation 770
5.6 Arotech 772
5.6.1 Arotech's Power Systems Division (APSD) 772
5.7 Apex Automation and Robotics 773
5.8 Association for Advancing Automation (A3) 775
5.9 Aurotek 775
5.9.1 Aurotek's Training and Simulation Division (ATSD) 776
5.9.2 Aurotek Target Markets 776
5.10 Axium 777
5.11 BAE Systems 779
5.11.1 BAE Systems Organization 780
5.11.2 BAE Systems Performance 781
5.11.3 BAE Systems Key Facts 782
5.11.4 BAE Systems Strategy 783
5.11.5 BAE Systems Operational Framework 784
5.11.6 Key Performance Indicators (KPIs) 784
5.11.7 BAE Systems Risk Management 784
5.12 Changzhou Mingseal Robotic Technology 787
5.13 Daimler AG/Mercedes-Benz 789
5.13.1 Daimler AG Revenue 789
5.14 Denso Wave ** 790
5.14.1 Denso Development Network 794
5.15 DJI Innovation 797
5.16 DMG Mori Ellison Technologies** 798
5.16.1 DMG Mori Ellison Technologies Brings Mastery Of Advanced Manufacturing Technology 799
5.17 Durr 800
5.18 EBZ 801
5.19 ECA Robotics 801
5.20 Elbit Systems 803
5.20.1 Elbit Systems Principal Market Environment 805
5.20.2 Elbit Systems 806
5.21 Epson 808
5.21.1 Epson Automation on Assembly Lines Using Robots 813
5.22 Evatran Group 814
5.23 Fanuc 815
5.23.1 FANUC Corporation 825
5.23.2 Fanuc Revenue 827
5.23.3 Fanuc Joint Venture With General Electric in the FA field 829
5.24 Fiat / Comau 830
5.25 Fuji Heavy Industries 832
5.25.1 Subaru Automotive Business 834
5.25.2 Subaru of America 835
5.26 GSK 835
5.27 Harbin BOSHI Automation 836
5.28 Harbin Haier & HIT Robot Technology 838
5.29 Harmonic Drive Systems 839
5.29.1 Applications for Harmonic Drive products: 840
5.29.2 Harmonic Drive Servo Actuators 841
5.29.3 Harmonic Drive Gearheads 841
5.29.4 Harmonic Planetary® Gearhead 841
5.30 HuaHeng Welding 842
5.31 Hyundai Heavy Industries 843
5.32 International Federation of Robotics (IFR) 844
5.33 Kawasaki Robotics 846
5.34 Kuka 848
5.34.1 KUKA Dominant Customer Segment, Automotive Industry 849
5.34.2 Kuka Revenue 851
5.34.3 Kuka Competition 854
5.34.4 Kuka Innovative Technology 856
5.34.5 Kuka Well Positioned With A Broad Product Portfolio In Markets With Attractive Growth Prospects 856
5.34.6 Kuka Strategy 857
5.34.7 Kuka Corporate Policy 859
5.34.8 Kuka Customers 865
5.34.9 KUKA Acquires 51% of Reis Robotics 867
5.34.10 Kuka Positioning in Robotics and Systems 868
5.35 MESNAC 870
5.36 Mitsubishi 871
5.36.1 Mitsubishi Electric Corp. 872
5.37 Nabtesco 874
5.38 Nachi Fujikoshi Corp. 875
5.38.1 Nachi Fujikoshi Business 878
5.39 National Institute of Standards and Technology 882
5.40 Osaka Transformer Company OTC / Daihen 883
5.40.1 Daihen Innovative Technology 884
5.40.2 Daihen 884
5.41 Panasonic 885
5.41.1 Sanyo 885
5.41.1 SANYO 2011 Sales Of Solar Photovoltaic Systems 886
5.41.2 Panasonic / Sanyo Solar Ark 889
5.41.3 Panasonic /Sanyo Solar Stone Brewing Company Reference Account 891
5.41.4 Panasonic / Sanyo Solar LumenHAUS Reference Account 892
5.41.5 I nSpec / SANYO 893
5.41.6 SANYO and InSpec Group Partnership Generates Multiple Solar Installations in Oregon 893
5.42 Pari Robotics 894
5.43 Pedsco 895
5.44 Re2, Inc 896
5.44.1 Re Leading Developer 900
5.44.2 Re2 Forerunner High Speed Inspection Robot 902
5.44.3 Re2 ForeRunner RDV 903
5.44.4 Re2 HST - High-Speed Teleoperation 903
5.45 ReconRobotics 904
5.45.1 ReconRobotics Tactical, Micro-Robot Systems 905
5.46 Reis Robotics 906
5.46.1 Reis Robotics Foundry Systems, Laser Applications, Arc Welding, And Photovoltaics 907
5.46.1 Reis Robot Systems And Process-Oriented System Solutions 907
5.47 Rethink Robotics 907
5.48 Robosoft 908
5.49 Robotic Industries Association (RIA) 909
5.50 Rockwell Automation 910
5.50.1 Rockwell Automation Operating Segments 912
5.50.2 Rockwell Automation Long-term Strategy 913
5.50.3 Rockwell Automation Acquisitions 915
5.50.4 Rockwell Automation Profile 916
5.51 Schunk GmBH 917
5.52 Shanghai STEP Electric 917
5.52.1 Step Industrial Automation, Electric Drive, Energy, And Environmental Protection 918
5.53 Shenzhen Jasic Technology 920
5.53.1 Jasic Integrated Welding Solution Provider 921
5.53.2 Jasic Integrated Welding Solution Target Markets 921
5.53.3 Jasic Integrated Welding Solutions 923
5.54 Shibuya Seiki 924
5.54.1 Shibuya Kogyo Pharmaceutical Application Examples 925
5.54.2 Shibuya Kogyo Robotic System For Handling Soft Infusion Bags 927
5.54.3 Shibuya Kogyo Robotic Cell Culture System "CellPRO" 927
5.54.4 Shibuya Kogyo Robotic System For Leaflet & Spoon Placement 927
5.54.5 Shibuya Kogyo Robotic Collating System 929
5.54.6 Shibuya Kogyo Automated Aseptic Environmental Monitoring System 930
5.55 SDR Tactical Robot 931
5.56 SIASUN Robot & Automation 932
5.57 Staubli 933
5.57.1 Stäubli Industrial Robots 934
5.57.2 Stäubli Controllers 934
5.57.3 Stäubli Software 934
5.57.4 Typical applications of Stäubli robots 934
5.57.5 Staubli International AG 936
5.58 Tangshan Kaiyuan Group / Tangshan Kaiyuan Welding (TKSW) 938
5.59 Thyssen 939
5.60 Toshiba 940
5.60.1 Toshiba Machine 940
5.60.2 TM Robotics Europe 941
5.60.3 TM Robotics Americas 942
5.61 Universal Robots 942
5.62 VDE 943
5.63 Yamaha 944
5.63.1 Yamaha Robotics 947
5.64 Yaskawa 948
5.64.1 Yaskawa Revenue 949
5.64.2 Yaskawa Business 951
5.64.3 YASKAWA Electric Motion Control 952
5.64.4 YASKAWA Electric Robotics 953
5.64.5 YASKAWA Electric System Engineering 953
5.64.6 YASKAWA Electric Information Technology 953
5.64.7 Yaskawa / Motoman 953
5.64.8 Yaskawa Motoman 954
5.65 Selected Robot Companies 955
5.65.1 Selected Robot Companies 980

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(EMAILWIRE.COM, March 05, 2016 ) This research report presents worldwide mobile phone shipment volume forecast and recent quarter review of major mobile phone vendor performance. The report includes major vendors' shipment volume and growth, shipment revenue and growth, operating profit and ASP, along with analytical insights. The finding shows that the worldwide mobile phone shipment volume increased 13.2% sequentially and 1.7% year-on-year in the fourth quarter of 2015, to around 540.4 million units, owing largely in part to year-end purchase demand.

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Though Apple continued to enjoy over 50% sequential growth, 2016 will be its first year to witness shipment volume decline. Huawei, on the other hand, outperformed others in 2015, with its shipment volume breaking 100 million units. Shipment volume of the global smartphone industry is anticipated to top around 357 million and 361 million units in the first and second quarter of 2016, respectively. Year-on-year growth is estimated at 4.3% and 7.0%.

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Table of Contents

Worldwide Mobile Phone Shipment Volume, 1Q 2013 - 2Q 2016
Major Mobile Phone Vendor Shipment Volume, 1Q 2013 - 2Q 2016
Major Mobile Phone Vendor Shipment Volume Share, 1Q 2013 - 2Q 2016
Major Mobile Phone Vendor Shipment Volume Year over Year Growth Rate, 1Q 2013 - 2Q 2016
Major Mobile Phone Vendor Shipment Volume Quarter on Quarter Growth Rate, 1Q 2013 - 2Q 2016
Major Mobile Phone Vendor Shipment Revenue, 1Q 2013 - 4Q 2015
Major Mobile Phone Vendor Shipment Revenue Share, 1Q 2013 - 4Q 2015
Major Mobile Phone Vendor Shipment Revenue Year over Year Growth Rate, 1Q 2013 - 4Q 2015
Major Mobile Phone Vendor Shipment Revenue Quarter on Quarter Growth Rate, 1Q 2013 - 4Q 2015
Major Smartphone Vendor Shipment Volume, 1Q 2013 - 2Q 2016
Major Smartphone Vendor Shipment Volume Share, 1Q 2013 - 2Q 2016
Major Smartphone Vendor Shipment Volume Year over Year Growth Rate, 1Q 2013 - 2Q 2016
Major Smartphone Vendor Shipment Volume Quarter on Quarter Growth Rate, 1Q 2013 - 2Q 2016
Major Mobile Phone Vendor Operating Profit Margin, 1Q 2013 - 4Q 2015
Major Mobile Phone Vendor ASP, 1Q 2013 - 4Q 2015
Intelligence Insight
Research Scope & Definitions

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(EMAILWIRE.COM, March 05, 2016 ) Industrial robots have been widely applied in a broad array of industries and have lured numerous companies to set foot into this arena, including Taiwanese companies such as Foxconn, Delta, Foxlink, Shihlin Electric, Contrel Technology, Tongyou Electronic, and Advantech-LNC Technology.

Recent years, several leading companies have seen aggressive investment in related technologies or M&A activities, including FANUC, ABB, KUKA, Yaskawa, Siemens, Sony, Mitsubishi, Honda, and Seiko Epson. This report provides an overview of the industrial robot technologies and thorough patent data mining results that reflect major vendors' patent deployments and technology trends. Also included are the outlook for the industrial robot market and opportunities for perspective entrants.

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Table of Contents

1.Technology Development
1.1 Type of Technology

2. Patent Mining

3. Patent analysis
3.1 Trend Analysis
3.1.1 By Country
3.1.2 By Sector and Field
3.1.3 By Technology
3.2 R&D Performance Analysis
3.2.1 Relative R&D Intensity

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4. Patent portfolio Development strategy
4.1 International Assignees
4.2 Taiwanese Assignees
4.3 Development of Major Industrial Robot Companies
4.3.1 FANUC Corporation
4.3.2 Yaskawa Electric Corporation
4.3.3 KUKA
4.3.4 Siemens
4.3.5 Sony

5. MIC Perspective
5.1 Patents Focused on Contol, Machine Tool, Computing Technologies, Handling and Electrical Machinery with Key Applications in Transport, Chemistry, and Semiconductor
5.2 Image Analysis as Key Development Focus for Newcomers

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(EMAILWIRE.COM, March 05, 2016 ) WAF was developed in the early 1990s to respond to the threats and sophisticated attacks that traditional firewalls failed to handle. In the business environment, the usage of computers and computer networks has become necessary to send, receive, and store business information. Organizations send e-mails and information through a web server. Security has become a major concern for them because an organization's network carries sensitive, confidential, and personal information. In most cases, attackers are not interested in exploiting software, but they are determined to gain unauthorized access to network devices.

Threats directed toward end-users have been increasing in complexity with time. These threats are dangerous because hackers are attacking over trusted protocols such as HTTP, bypassing traditional firewalls. WAF has emerged as a suitable security solution and is available for different implementation requirements.

WAF is used to protect web applications against common attacks such as cross-site scripting and SQL injection. It monitors the content of each encrypted and unencrypted inbound web traffic to detect advanced attack types. WAF can integrate with other network security technologies such as vulnerability scanners, DoS protection appliances, web fraud detection, and security information and event management solutions. Technavio suggests that the integration of WAFs on application delivery controller (ADC) platforms could give the end-users greater visibility into web application traffic patterns before and during the occurrence of cyber-attacks and also help defend against threats.

Market analysts forecast the global WAF market to grow at a CAGR of 17.34% over the period 2014-2019.

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Covered in this report
This report covers the present scenario and growth prospects of the global WAF market for 2015-2019. The report also presents the vendor landscape and a corresponding detailed analysis of the top five vendors operating in the market.

To calculate the market size, the report considers the revenue generated from the sales of WAF solutions (includes WAF software, WAF hardware appliances, integrated WAF, and cloud-based WAF). The market size is calculated on the basis of following segments:
By end-users
BFSI
eCommerce
Government
By geographies
Americas
APAC
EMEA

New report, Global Web Application Firewall (WAF) Market 2015-2019, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the landscape of the global WAF market and its growth prospects in the coming years. The report includes a discussion of the key vendors operating in this market.

Key regions
Americas
APAC
EMEA

Key vendors
Akamai
Barracuda Networks
Citrix Systems
F5 Networks
Imperva

Other prominent vendors
Applicure Technologies
Bee Ware
DBAPPSecurity
Deny All
Fortinet
IBM
Juniper Networks
NSFOCUS
Penta Security Systems
Positive Technologies
Qualys
Radware
Sophos
Trustwave

Key market driving factors
Growing dependency on Internet
For a full, detailed list, view our report

Key market risk factors
High cost of deployment
For a full, detailed list, view our report

Key market trend
Demand for cloud-based WAF solutions
For a full, detailed list, view our report

Key questions answered in this report
What will the market size be in 2019 and what will the growth rate be
What are the key market trends
What is driving this market
What are the challenges to market growth
Who are the key vendors in this market space
What are the market opportunities and threats faced by the key vendors
What are the strengths and weaknesses of the key vendors

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Table Of Content

PART 01: Executive summary
Market highlights
PART 02: Scope of the report
Market overview
PART 03: Market research methodology
Research methodology
Economic indicators
PART 04: Introduction
Key market highlights
PART 05: Market takeaways
Market analysis for 2014
PART 06: Market description
Architecture of WAF
Types of web threats
Victims of phishing attacks 2014
Leading countries of origin of web application attacks
Countries affected by web application attacks
Consequences of web application threats
Advantages and features of WAFs
Benefits of WAF implementation
PART 07: Market landscape
Market overview
Product life cycle analysis
Global WAF market
Five forces analysis
PART 08: Market segmentation by end-user
Global WAF market by end-user 2014-2019
Global WAF market in BFSI sector
Global WAF market in e-commerce sector
Global WAF market in government sector
PART 09: Geographical segmentation
Segmentation of global WAF market by region 2014-2019
Segmentation of global WAF market by region 2014-2019 (revenue)
PART 10: Market drivers
Growing dependency on Internet
Need to improve quality of protection
Need to adhere to regulatory requirements
High-profile data breaches
PART 11: Impact of drivers
PART 12: Market challenges
High cost of deployment
Emerging threat from open-source WAF
Technical defects
Adverse effect on network performance
PART 13: Impact of drivers and challenges
PART 14: Market trends
Demand for cloud-based WAF solutions
Increased demand from SMEs
Increased number of DDoS attacks
Increase in M&A
PART 15: Vendor landscape
Vendors matrix
Vendor competitive scenario
Description of major vendors
Vendor news updates
Other prominent vendors

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(EMAILWIRE.COM, March 05, 2016 ) Could computing and cloud GIS include all GIS-based services hosted on the Internet, as follows:
Maps
Data (data storage and data accessing)
Data analysis for managing assets
The implementation of cloud computing technology has been a major milestone in the GIS industry. The advantages associated with the adoption of cloud GIS, such as optimized operations in real time, are encouraging organizations to shift to this technology. Cloud GIS use a virtualized platform, which is beneficial for a scalable, elastic environment.

Market analysts forecast the global cloud GIS market to grow at a CAGR of 11.03% during the period 2016-2020.

Covered in this report
The report covers the present scenario and the growth prospects of the global cloud GIS market for 2016-2020. To calculate the market size, the report considers the revenue generated from the cloud GIS software segment. It also presents the vendor landscape and a corresponding detailed analysis of the top three vendors operating in the market.

The market is divided into the following segments based on geography:
Americas
APAC
EMEA

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New report, Global Cloud GIS Market 2016-2020, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.

Key vendors
CartoDB
ESRI
Hexagon

Other prominent vendors
GIS Cloud
Mapbox
Apple Maps
Google Maps
OpenStreetMap
Bing Maps.

Market driver
Easy-to-access data
For a full, detailed list, view our report

Market challenge
Low Internet penetration in APAC
For a full, detailed list, view our report

Market trend
Easy migration
For a full, detailed list, view our report

Key questions answered in this report
What will the market size be in 2020 and what will the growth rate be?
What are the key market trends?
What is driving this market?
What are the challenges to market growth?
Who are the key vendors in this market space?
What are the market opportunities and threats faced by the key vendors?
What are the strengths and weaknesses of the key vendors?

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Table Of Content

PART 01: Executive summary
Highlights
PART 02: Scope of the report
Top-vendor offerings
PART 03: Market research methodology
Research methodology
Economic indicators
PART 04: Introduction
Key market highlights
PART 05: Market description
Cloud computing and cloud GIS
PART 06: Market landscape
Market overview
Market size and forecast
PART 07: Market segmentation by end-user
Market overview
PART 08: Natural resources
Market size and forecast
PART 09: Utilities
Market size and forecast
PART 10: Tele-communications
Market size and forecast
PART 11: Government
Market size and forecast
PART 12: Geographical segmentation
Overview
PART 13: Americas
Market size and forecast
PART 14: EMEA
Market size and forecast
PART 15: APAC
Market size and forecast
PART 16: Market drivers
PART 17: Impact of drivers
PART 18: Market challenges
PART 19: Impact of drivers and challenges
PART 20: Market trends
PART 21: Five forces analysis
PART 22: Key vendor analysis
Competitive scenario
Other prominent vendors
PART 23: Appendix
List of abbreviations
PART 24: Explore Technavio

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Source: EmailWire.Com

(EMAILWIRE.COM, March 05, 2016 ) While the advantages of SDN (Software Defined Networking) and network virtualization are well known in the enterprise IT and data center world, both technologies also bring a host of benefits to the telecommunications service provider community. Not only can these technologies help address the explosive capacity demand of mobile traffic, but they can also reduce the CapEx and OpEx burden faced by service providers to handle this demand by diminishing reliance on expensive proprietary hardware platforms. The recognition of these benefits has led to the emergence of the NFV (Network Functions Virtualization) concept that seeks to virtualize and effectively consolidate many service provider network elements onto multi-tenant industry-standard servers, switches and storage.

Mobile operators and internet service providers have already begun making SDN and NFV investments in a number of functional areas including but not limited to EPC/mobile core, IMS, policy control, CPE (Customer Premises Equipment), CDN (Content Delivery Network) and transport networks. SNS Research estimates that service provider SDN and NFV investments will grow at a CAGR of 54% between 2015 and 2020. As service providers seek to reduce costs and virtualize their networks, these investments will eventually account for over $20 Billion in revenue by the end of 2020.

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The “SDN, NFV & Network Virtualization Ecosystem: 2015 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the SDN, NFV and network virtualization ecosystem including enabling technologies, key trends, market drivers, challenges, use cases, deployment case studies, regulatory landscape, standardization, opportunities, future roadmap, value chain, ecosystem player profiles and strategies. The report also presents market size forecasts from 2015 till 2030. The forecasts are segmented for 10 submarkets, 2 user base categories, 9 use cases, 6 regions and 34 countries.

The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report.

Key Findings:

The report has the following key findings:

SNS Research estimates that service provider SDN and NFV investments will grow at a CAGR of 54% between 2015 and 2020, eventually accounting for over $20 Billion in revenue by the end of 2020.
At present, virtualized EPC/mobile core, IMS and policy control platforms represent over 70% of all VNF (Virtual Network Function) software investments.
Although the use of SDN is widespread in the enterprise and data center domain, service providers are only beginning to adopt the technology to programmatically manage their networks.
Investments on orchestration platforms will account for nearly $2 Billion in revenue by the end of 2020, representing nearly 10% of all service provider SDN and NFV spending.
The growing adoption of SDN and NFV has created a natural opportunity for silicon and server OEMs to combine their server platforms with a networking business stream.

Topics Covered:

The report covers the following topics:

SDN, NFV and network virtualization ecosystem
Market drivers and barriers
Enabling technologies, protocols, architecture and key trends
Use cases, applications, PoC (Proof of Concept) and deployment case studies
CapEx saving potential of SDN and NFV
Orchestration and management platforms
Regulatory landscape and standardization
Industry roadmap and value chain
Profiles and strategies of over 240 leading ecosystem players
Strategic recommendations for ecosystem players
Market analysis and forecasts from 2015 till 2030

Forecast Segmentation:

Market forecasts are provided for each of the following submarkets, user base and use case categories:

Submarkets
SDN Hardware & Software
NFV Hardware & Software
Other Network Virtualization Software
User Base Categories
Service Providers
Enterprises & Data Centers
NFV Submarkets
Hardware Appliances
Orchestration & Management Software
VNF Software
Service Provider SDN Submarkets
SDN-Enabled Hardware Appliances
Orchestration & Management Software
SDN Controller Software
Network Applications Software
Enterprise & Data Center SDN Submarkets
SDN-Enabled Hardware Appliances
SDN-Enabled Virtual Switches
SDN Controller Software
Service Provider Use Case Categories
CDN
CPE
Data Center
EPC/Mobile Core
Fixed Access Networks
IMS & VoLTE
Policy, OSS & BSS
RAN (Radio Access Network)
Transport & Backhaul
Regional Markets
Asia Pacific
Eastern Europe
Latin & Central America
Middle East & Africa
North America
Western Europe
Country Markets

Argentina, Australia, Brazil, Canada, China, Czech Republic, Denmark, Finland, France, Germany, India, Indonesia, Israel, Italy, Japan, Malaysia, Mexico, Norway, Pakistan, Philippines, Poland, Qatar, Russia, Saudi Arabia, Singapore, South Africa, South Korea, Spain, Sweden, Taiwan, Thailand, UAE, UK and USA
Additional forecasts are provided for:

SDN and NFV Induced Service Provider CapEx Savings by Region

Key Questions Answered:

The report provides answers to the following key questions:
How big is the SDN, NFV and network virtualization opportunity?
What trends, challenges and barriers are influencing its growth?
How is the ecosystem evolving by segment and region?
What will the market size be in 2020 and at what rate will it grow?
Which regions, submarkets and countries will see the highest percentage of growth?
How are service provider led initiatives driving SDN and NFV investments?
How does regulation impact the adoption of SDN and NFV centric networks?
How can NFV make the VoLTE (Voice over LTE) business case work?
How can software defined DPI (Deep Packet Inspection) complement SDN functionality?
What level of CapEx savings can SDN and NFV facilitate for service providers?
Do SDN and NFV pose a threat to traditional network infrastructure vendors?
Who are the key market players and what are their strategies?
Is there a ring leader in the SDN and NFV ecosystem?
What strategies should enabling technology providers, network infrastructure vendors, mobile operators and other ecosystem players adopt to remain competitive?

List of Companies Mentioned:

The following companies and organizations have been reviewed, discussed or mentioned in the report:

3GPP (3rd Generation Partnership Project)
6WIND
A10 Networks
Accedian Networks
ACCESS CO.
Accton Technology Corporation
Active Broadband Networks
Actus Networks
ADARA Networks
Adax
ADLINK Technology
ADTRAN
ADVA Optical Networking
Affirmed Networks
Agema Systems
Airbus Defence and Space
Akamai Technologies
ALAXALA Networks Corporation
Albis Technologies
Alcatel-Lucent
Allied Telesis
Allot Communications
Alpha Networks
ALTEN Calsoft Labs
ALTEN Group
Altiostar Networks
Alvarion Technologies
Amartus
AMD (Advanced Micro Devices)
Amdocs
ANEVIA
Argela
Aricent
Arista Networks
Arkoon Netasq
ARM Holdings
ARRIS Group
Artesyn Embedded Technologies
ASOCS
AT&T
AudioCodes
Avago Technologies
Avaya
AWS (Amazon Web Services)

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Table of Content

1: Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned

2: An Overview of SDN, NFV & Network Virtualization
2.1 What is Network Virtualization?
2.2 What is SDN (Software Defined Networking)?
2.3 SDN Protocols
2.3.1 OpenFlow
2.3.2 BGP-TE (Border Gateway Protocol - Traffic Engineering)
2.3.3 PCEP (Path Computation Element Protocol)
2.3.4 I2RS (Interface to the Routing System)
2.3.5 VxLAN (Virtual Extensible LAN)
2.3.6 ALTO (Application Layer Traffic Optimization)
2.3.7 IETF Software Driven Networks
2.4 SDN Implementation Approaches
2.4.1 Network Virtualization Approach
2.4.2 Evolutionary Approach
2.4.3 The “Central Control” Approach
2.5 What is NFV (Network Functions Virtualization)?
2.6 NFV Enabling Technologies
2.6.1 Cloud Computing and Network Virtualization
2.6.2 Open Management and Control Protocols
2.6.3 Industry Standard High-Volume Servers
2.7 NFV Implementation Architecture
2.7.1 NFVI (NFV Infrastructure)
2.7.1.1 Hardware Resources
2.7.1.2 Virtualized Resources
2.7.2 VNFs (Virtualized Network Functions)
2.7.3 NFV-MANO (NFV-Management and Orchestration)
2.7.3.1 VIM (Virtualized Infrastructure Manager)
2.7.3.2 Orchestrator
2.7.3.3 VNF Manager
2.8 How SDN and NFV Differ from Each Other?
2.8.1 Similarities and Differences
2.8.2 Can Both Technologies Complement Each Other?
2.8.3 How Are Vendors Positioning their Solutions?
2.9 Market Drivers
2.9.1 Leveraging Generic Low-cost Hardware
2.9.2 Multi-tenancy on Same Hardware
2.9.3 Reduced Power Consumption
2.9.4 Faster TTM (Time to Market)
2.9.5 Improved Operational Efficiency & Performance
2.9.6 Centralized Provisioning and Network Control
2.9.7 Ability to Launch New Services & Virtual Networks Quickly
2.9.8 Dynamic Scaling of Services
2.9.9 Opening the Door to Multi-vendor Interoperability
2.9.10 CapEx and OpEx Reduction
2.9.11 Fast Troubleshooting and Improved Diagnostics
2.9.12 Vendor Support
2.10 Market Barriers
2.10.1 Lack of Standardization & Technology Maturity
2.10.2 Uncertain Cost-Benefits Tradeoffs
2.10.3 NFV May Slow/Delay Traffic
2.10.4 Will Multi-vendor Interoperability Really Work?
2.10.5 Co-Existence with Legacy Networks: Integration Challenges

3: SDN & NFV Use Case Scenarios
3.1 Enterprise, Data Center & Generic Use Cases
3.1.1 Network Virtualization
3.1.2 Scalable Data Centers
3.1.3 Tap Aggregation
3.1.4 Dynamic WAN Re-Routing
3.1.5 Network Exchange: Interconnecting Physical Networks
3.1.6 Improved Traffic Engineering
3.1.7 Converged Storage
3.2 Service Provider Centric Use Cases
3.2.1 RAN Virtualization
3.2.2 C-RAN (Cloud RAN)
3.2.3 Wireline Fixed Access Network Virtualization
3.2.4 CPE & Home Network Environment Virtualization
3.2.5 Mobile Backhaul Virtualization
3.2.6 EPC/Mobile Core Virtualization
3.2.7 IMS & VoLTE Virtualization
3.2.8 DPI Virtualization
3.2.9 Policy Functions Virtualization
3.2.10 Virtual Routers
3.2.11 Virtualization & Control of Security Functions
3.2.12 Virtualization of CDNs
3.2.13 Service Chaining
3.2.14 Bandwidth on Demand
3.2.15 Packet-Optical Integration
3.2.16 SDN/NFV Iaas (Infrastructure as a Service)
3.2.17 VNFaas (Virtual Network Function as a Service)
3.2.18 VNPaaS (Virtual Network Platform as a Service)

4: SDN & NFV Deployment Case Studies
4.1 Service Provider Deployment Case Studies
4.1.1 AT&T
4.1.2 BT Group
4.1.3 China Mobile
4.1.4 DT (Deutsche Telekom)
4.1.5 KDDI Corporation
4.1.6 KT Corporation
4.1.7 LG Uplus
4.1.8 Mobily Saudi Arabia
4.1.9 NAKA Mobile
4.1.10 NTT Communications
4.1.11 NTT DoCoMo
4.1.12 PT (Portugal Telecom) /Oi
4.1.13 SingTel
4.1.14 SK Telecom
4.1.15 SoftBank
4.1.16 Telekom Austria Group
4.1.17 Telstra
4.1.18 Telefónica
4.1.19 Verizon
4.1.20 Vodafone Group
4.2 Enterprise & Data Center Deployment Case Studies
4.2.1 Equinix
4.2.2 Fidelity Investments
4.2.3 Google
4.2.4 Kanazawa University Hospital
4.2.5 Nippon Express

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(EMAILWIRE.COM, March 05, 2016 ) Big Data originally emerged as a term to describe datasets whose size is beyond the ability of traditional databases to capture, store, manage and analyze. However, the scope of the term has significantly expanded over the years. Big Data not only refers to the data itself but also a set of technologies that capture, store, manage and analyze large and variable collections of data to solve complex problems.

Amid the proliferation of real time data from sources such as mobile devices, web, social media, sensors, log files and transactional applications, Big Data has found a host of vertical market applications, ranging from fraud detection to R&D.

Despite challenges relating to privacy concerns and organizational resistance, Big Data investments continue to gain momentum throughout the globe. SNS Research estimates that Big Data investments will account for nearly $30 Billion in 2014 alone. These investments are further expected to grow at a CAGR of 17% over the next 6 years.

The “Big Data Market: 2014 – 2020 – Opportunities, Challenges, Strategies, Industry Verticals & Forecasts” report presents an in-depth assessment of the Big Data ecosystem including key market drivers, challenges, investment potential, vertical market opportunities and use cases, future roadmap, value chain, case studies on Big Data analytics, vendor market share and strategies.

The report also presents market size forecasts for Big Data hardware, software and professional services from 2014 through to 2020. Historical figures are also presented for 2010, 2011, 2012 and 2013. The forecasts are further segmented for 8 horizontal submarkets, 15 vertical markets, 6 regions and 34 countries.

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The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report.

Key Findings:

The report has the following key findings:

In 2014 Big Data vendors will pocket nearly $30 Billion from hardware, software and professional services revenues
Big Data investments are further expected to grow at a CAGR of nearly 17% over the next 6 years, eventually accounting for $76 Billion by the end of 2020
The market is ripe for acquisitions of pure-play Big Data startups, as competition heats up between IT incumbents
Nearly every large scale IT vendor maintains a Big Data portfolio
At present, hardware sales and professional services account for more than 70% of all Big Data investments
Going forward, software vendors, particularly those in the Big Data analytics segment, are expected to significantly increase their stake in the Big Data market as it matures

Topics Covered:

The report covers the following topics:

Big Data ecosystem
Market drivers and barriers
Big Data technology, standardization and regulatory initiatives
Big Data industry roadmap and value chain
Analysis and use cases for 15 vertical markets
Big Data analytics technology and case studies
Big Data vendor market share
Company profiles and strategies of 90 Big Data ecosystem players
Strategic recommendations for Big Data hardware, software and professional services vendors and enterprises
Exclusive interview transcripts of 4 players in the Big Data ecosystem
Market analysis and forecasts from 2014 till 2020

Forecast Segmentation:

Market forecasts and historical figures are provided for each of the following submarkets and their categories:

Hardware, Software & Professional Services

Hardware
Software
Professional Services

Horizontal Submarkets

Storage & Compute Infrastructure
Networking Infrastructure
Hadoop & Infrastructure Software
SQL
NoSQL
Analytic Platforms & Applications
Cloud Platforms
Professional Services

Vertical Submarkets

Automotive, Aerospace & Transportation
Banking & Securities
Defense & Intelligence
Education
Healthcare & Pharmaceutical
Smart Cities & Intelligent Buildings
Insurance
Manufacturing & Natural Resources
Web, Media & Entertainment
Public Safety & Homeland Security
Public Services
Retail & Hospitality
Telecommunications
Utilities & Energy
Wholesale Trade
Others

Regional Markets

Asia Pacific
Eastern Europe
Latin & Central America
Middle East & Africa
North America
Western Europe

Country Markets

Argentina, Australia, Brazil, Canada, China, Czech Republic, Denmark, Finland, France, Germany, India, Indonesia, Israel, Italy, Japan, Malaysia, Mexico, Norway, Pakistan, Philippines, Poland, Qatar, Russia, Saudi Arabia, Singapore, South Africa, South Korea, Spain, Sweden, Taiwan, Thailand, UAE, UK, USA

Key Questions Answered:

The report provides answers to the following key questions:

How big is the Big Data ecosystem?
How is the ecosystem evolving by segment and region?
What will the market size be in 2020 and at what rate will it grow?
What trends, challenges and barriers are influencing its growth?
Who are the key Big Data software, hardware and services vendors and what are their strategies?
How much are vertical enterprises investing in Big Data?
What opportunities exist for Big Data analytics?
Which countries and verticals will see the highest percentage of Big Data investments?

List of Companies Mentioned:

The following companies and organizations have been reviewed, discussed or mentioned in the report:

1010data
Accel Partners
Accenture
Actian Corporation
Actuate Corporation
adMarketplace
Adobe
ADP
AeroSpike
AlchemyDB
Aldeasa
Alpine Data Labs
Alteryx
Amazon.com
AMD
AnalyticsIQ
Antic Entertainment
AOL
Apple
AppNexus
Ascendas
AT&T
Attivio
AutoZone
Avvasi
AWS (Amazon Web Services)
Axiata Group
Bank of America
Basho
Beeline Kazakhstan
Betfair
BlueKai
Bluelock
BMC Software
BMW
Boeing
Booz Allen Hamilton
Box, Inc.
Buffalo Studios
BurstaBit
CaixaTarragona
Capgemini
Cellwize
CenturyLink
Chang
China Telecom
CIA (Central Intelligence Agency)
Cisco Systems
Citywire
Cloudera
Coca-Cola
Comptel
Concur
Contexti
Coriant
Couchbase
CSA (Cloud Security Alliance)
CSC (Computer Science Corporation)
CSCC (Cloud Standards Customer Council)
Datameer
DataStax
DDN (DataDirect Network)
Dell
Deloitte
Delta
Department of Commerce
Deutsche Bank
Deutsche Telekom
Digital Reasoning
Dollar General
Dotomi
eBay
El Corte Inglés
Electronic Arts
EMC Corporation
Equifax
Ericsson
Ernst & Young
E-Touch
European Space Agency
eXelate
Experian
Facebook
FedEx
Ferguson
Ford
Fractal Analytics
Fujitsu
Fusion-io
Gamegos
Ganz
GE (General Electric)
Goldman Sachs
GoodData Corporation
Google
Greylock Partners
GTRI (Georgia Tech Research Institute)
Guavus
Hadapt
HDS (Hitachi Data Systems)
Hortonworks
HP
Hyve Solutions
IBM
IEC (International Electrotechnical Commission)
Ignition Partners
InfiniDB
Infobright
Informatica Corporation
Information Builders
In-Q-Tel
Intel
Internap Network Services Corporation
Intucell
Inversis Banco
ISO (International Organization for Standardization)
ITT Corporation
ITU (International Telecommunications Union)
J.P. Morgan
Jaspersoft
Johnson & Johnson
JP Morgan
Juguettos
Juniper Networks
Kabam
Karmasphere
KDDI
Kixeye
Kobo
Kognitio
KPMG
KT (Korea Telecom)
Lavastorm Analytics
LG CNS
LinkedIn
LucidWorks
Mahindra Satyam
MapR
MarkLogic
Marriott International
Mayfield fund
McDonnell Ventures
McGraw Hill Education
MediaMind
Meritech Capital Partners
Microsoft
MicroStrategy
mig33
MongoDB
Motorola
Movistar
Mu Sigma
Myrrix
Nami Media
Navteq
Neo Technology
NetApp
NetFlix
Nexon
NIST (National Institute of Standards and Technology)
North Bridge
NTT Data
NTT DoCoMo
NYSE (New York Stock Exchange)
OASIS
ODaF (Open Data Foundation)
Open Data Center Alliance
Opera Solutions
Oracle
Orange
Orbitz
Palantir Technologies
Panorama Software
ParAccel
ParStream
Pentaho
Pervasive Software
Pivotal Software
Platfora
Playtika
Pokemon
Proctor and Gamble
Pronovias
PwC
QlikTech
Quantum Corporation
Quiterian
Rackspace
RainStor
Relational Technology
Renault
ReNet Tecnologia
Rentrak
Revolution Analytics
RiteAid
Robi Axiata
Royal Dutch Shell
Sabre
Sailthru
Sain Engineering
Salesforce.com
Samsung
SAP
SAS Institute
Savvis
Scoreloop
Seagate Technology
SGI
Shuffle Master
Simba Technologies
SiSense
Skyscanner
SmugMug
Snapdeal
Software AG
Sojo Studios
SolveDirect
Sony
Southern States Cooperative
Splunk
Spotme
Sqrrl
Starbucks
Supermicro
Tableau Software
Talend
Tango
TapJoy
TCS (Tata Consultancy Services)
Telefónica
Tencent
Teradata
Terracotta
Terremark
The Hut Group
The Knot
The Ladders
The Trade Desk
Think Big Analytics
Thomson Reuters
TIBCO Software
Tidemark
TubeMogul
Tunewiki
U.S. Air Force
U.S. Army
U.S. Navy
Ubiquisys
UBS
Umami TV
UN (United Nations)
Unilever
US Xpress
Venture Partners
Verizon
Versant
Vertica
VIMPELCOM
VMware (EMC Subsidiary)
VNG
Vodafone
Volkswagen
Walt Disney Company
WIND Mobile
WiPro
Xclaim
Xyratex
Yael Software
Zettics
Zynga

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Table of Content

Chapter 1: Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Historical Revenue & Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned

Chapter 2: An Overview of Big Data
2.1 What is Big Data?
2.2 Approaches to Big Data Processing
2.2.1 Hadoop
2.2.2 NoSQL
2.2.3 MPAD (Massively Parallel Analytic Databases)
2.2.4 Others & Analytic Technologies
2.3 Key Characteristics of Big Data
2.3.1 Volume
2.3.2 Velocity
2.3.3 Variety
2.3.4 Value
2.4 Market Growth Drivers
2.4.1 Awareness of Benefits
2.4.2 Maturation of Big Data Platforms
2.4.3 Continued Investments by Web Giants, Governments & Enterprises
2.4.4 Growth of Data Volume, Velocity & Variety
2.4.5 Vendor Commitments & Partnerships
2.4.6 Technology Trends Lowering Entry Barriers
2.5 Market Barriers
2.5.1 Lack of Analytic Specialists
2.5.2 Uncertain Big Data Strategies
2.5.3 Organizational Resistance to Big Data Adoption
2.5.4 Technical Challenges: Scalability & Maintenance
2.5.5 Security & Privacy Concerns

Chapter 3: Vertical Opportunities & Use Cases for Big Data
3.1 Automotive, Aerospace & Transportation
3.1.1 Predictive Warranty Analysis
3.1.2 Predictive Aircraft Maintenance & Fuel Optimization
3.1.3 Air Traffic Control
3.1.4 Transport Fleet Optimization
3.2 Banking & Securities
3.2.1 Customer Retention & Personalized Product Offering
3.2.2 Risk Management
3.2.3 Fraud Detection
3.2.4 Credit Scoring
3.3 Defense & Intelligence
3.3.1 Intelligence Gathering
3.3.2 Energy Saving Opportunities in the Battlefield
3.3.3 Preventing Injuries on the Battlefield
3.4 Education
3.4.1 Information Integration
3.4.2 Identifying Learning Patterns
3.4.3 Enabling Student-Directed Learning
3.5 Healthcare & Pharmaceutical
3.5.1 Managing Population Health Efficiently
3.5.2 Improving Patient Care with Medical Data Analytics
3.5.3 Improving Clinical Development & Trials
3.5.4 Improving Time to Market
3.6 Smart Cities & Intelligent Buildings
3.6.1 Energy Optimization & Fault Detection
3.6.2 Intelligent Building Analytics
3.6.3 Urban Transportation Management
3.6.4 Optimizing Energy Production
3.6.5 Water Management
3.6.6 Urban Waste Management
3.7 Insurance
3.7.1 Claims Fraud Mitigation
3.7.2 Customer Retention & Profiling
3.7.3 Risk Management
3.8 Manufacturing & Natural Resources
3.8.1 Asset Maintenance & Downtime Reduction
3.8.2 Quality & Environmental Impact Control
3.8.3 Optimized Supply Chain
3.8.4 Exploration & Identification of Wells & Mines
3.8.5 Maximizing the Potential of Drilling
3.8.6 Production Optimization
3.9 Web, Media & Entertainment
3.9.1 Audience & Advertising Optimization
3.9.2 Channel Optimization
3.9.3 Recommendation Engines
3.9.4 Optimized Search
3.9.5 Live Sports Event Analytics
3.9.6 Outsourcing Big Data Analytics to Other Verticals
3.10 Public Safety & Homeland Security
3.10.1 Cyber Crime Mitigation
3.10.2 Crime Prediction Analytics
3.10.3 Video Analytics & Situational Awareness
3.11 Public Services
3.11.1 Public Sentiment Analysis
3.11.2 Fraud Detection & Prevention
3.11.3 Economic Analysis
3.12 Retail & Hospitality
3.12.1 Customer Sentiment Analysis
3.12.2 Customer & Branch Segmentation
3.12.3 Price Optimization
3.12.4 Personalized Marketing
3.12.5 Optimized Supply Chain
3.13 Telecommunications
3.13.1 Network Performance & Coverage Optimization
3.13.2 Customer Churn Prevention
3.13.3 Personalized Marketing
3.13.4 Location Based Services
3.13.5 Fraud Detection
3.14 Utilities & Energy
3.14.1 Customer Retention
3.14.2 Forecasting Energy
3.14.3 Billing Analytics
3.14.4 Predictive Maintenance
3.14.5 Turbine Placement Optimization
3.15 Wholesale Trade
3.15.1 In-field Sales Analytics
3.15.2 Monitoring the Supply Chain

Chapter 4: Big Data Industry Roadmap & Value Chain
4.1 Big Data Industry Roadmap
4.1.1 2010 – 2013: Initial Hype and the Rise of Analytics
4.1.2 2014 – 2017: Emergence of SaaS Based Big Data Solutions
4.1.3 2018 – 2020 & Beyond: Large Scale Proliferation of Scalable Machine Learning
4.2 The Big Data Value Chain
4.2.1 Hardware Providers
4.2.1.1 Storage & Compute Infrastructure Providers
4.2.1.2 Networking Infrastructure Providers
4.2.2 Software Providers
4.2.2.1 Hadoop & Infrastructure Software Providers
4.2.2.2 SQL & NoSQL Providers
4.2.2.3 Analytic Platform & Application Software Providers
4.2.2.4 Cloud Platform Providers
4.2.3 Professional Services Providers
4.2.4 End-to-End Solution Providers
4.2.5 Vertical Enterprises

Chapter 5: Big Data Analytics
5.1 What are Big Data Analytics?
5.2 The Importance of Analytics
5.3 Reactive vs. Proactive Analytics
5.4 Customer vs. Operational Analytics
5.5 Technology & Implementation Approaches
5.5.1 Grid Computing
5.5.2 In-Database Processing
5.5.3 In-Memory Analytics
5.5.4 Machine Learning & Data Mining
5.5.5 Predictive Analytics
5.5.6 NLP (Natural Language Processing)
5.5.7 Text Analytics
5.5.8 Visual Analytics
5.5.9 Social Media, IT & Telco Network Analytics
5.6 Vertical Market Case Studies
5.6.1 Amazon – Delivering Cloud Based Big Data Analytics
5.6.2 Facebook – Using Analytics to Monetize Users with Advertising
5.6.3 WIND Mobile – Using Analytics to Monitor Video Quality
5.6.4 Coriant Analytics Services – SaaS Based Big Data Analytics for Telcos
5.6.5 Boeing – Analytics for the Battlefield
5.6.6 The Walt Disney Company – Utilizing Big Data and Analytics in Theme Parks

Chapter 6: Standardization & Regulatory Initiatives
6.1 CSCC (Cloud Standards Customer Council) – Big Data Working Group
6.2 NIST (National Institute of Standards and Technology) – Big Data Working Group
6.3 OASIS –Technical Committees
6.4 ODaF (Open Data Foundation)
6.5 Open Data Center Alliance
6.6 CSA (Cloud Security Alliance) – Big Data Working Group
6.7 ITU (International Telecommunications Union)
6.8 ISO (International Organization for Standardization) and Others

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(EMAILWIRE.COM, March 05, 2016 ) Over the top (OTT) messaging leaders are rapidly evolving their key mobile messaging application interfaces to new voice and video communications, with revenue dilution implications for carriers worldwide. The progress made in mobile IP voice and video this year alone from key OTT players such as Facebook and Google is a clear indication of heightened mobile communications competitive pressure from these new players in 2016 and beyond. Operator have picked up the pace with the deployment of new digital communications technologies such as VoLTE ,Wi-Fi Calling and WebRTC. Despite its slow growth to date, Rich Communications Services (RCS) may turn out to be mobile operators’ best-bet in offsetting the OTT competition, supported by large industry partners. Few carriers are giving enough thought to the B2B2C opportunities implicit in WebRTC and far too many continue to view the technology as a threat to their existing calling business, as opposed to an opportunity for external monetization. We believe that provisioning easy-to-access developer tools and WebRTC APIs for in-browser communications has the potential to revolutionize the carrier wholesale business on a whole new digital level.

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Key Findings

Telcos are focusing on Rich Communications Services (RCS) opportunity, which is charged as a premium VAS or as part of a standard mobile communications package, in order to combat the mounting mobile communications competitive pressure from OTT players. Carriers in the US, APAC and Europe are looking to align VoLTE capabilities with RCS for more advanced IP communication services.
Wi-Fi calling has been launched by a large number of different industry participants including mobile incumbents, cable and fixed-players, with a wide variation in use case. The operators are positioning Wi-Fi calling as a cheaper alternative for cellular calling to avoid high roaming costs and markets as coverage enhancement value-add, especially for indoor calling.
Companies such as Telenor, AT&T and Telefonica are experimenting with Web browser-based, real-time communications for voice and video communications. Provisioning easy-to-access developer tools and WebRTC APIs for in-browser communications has the potential to revolutionize the carrier wholesale business on a whole new digital level.

Synopsis

‘Carrier digital communications: Agility in innovative use cases will maximize service provider opportunities’ report by Pyramid Research describes the state of the carrier digital communications market, analyzes the market drivers and details a number of industry and service provider initiatives that highlight how technologies from VoLTE to Wi-Fi Calling and WebRTC is moving towards commercialization.

The report comprises of the following sections:

Section 1: The carrier digital communications imperative
Section 2: Digital communications technology trends
Section 3: Digital communications carrier deployments and case studies Section 4: What’s next for digital communications?
Section 5: Key findings & recommendations

Reasons To Buy

Review technologies and services operators are deploying to compete with OTT service providers
Learn best practices in positioning VoLTE, RCS and Wi-Fi calling services.
Assess competitive products built around mesh networking.
Assess the various revenue models available with WebRTC APIs.

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Table of Contents

Executive Summary
Section 1: The carrier digital communications imperative
Mobile messaging
Mobile voice
Mobile video
Section 2: Digital communications technology trends
VoLTE
Wi-Fi calling
WebRTC
Section 3: Digital communications carrier deployments and case studies
RCS deployments to date and next steps
Case study: SK Telecom joyn.T
Case study: T-Mobile US Advanced Messaging
Wi-Fi calling deployments to date and next steps
Case study: EE Wi-Fi Calling
Case study: Cablevision Freewheel
WebRTC use cases
Case study: AT&T Enhanced WebRTC API
Case study: Telefonica’s TokBox Leverage
Mesh networking deployments to date
Section 4: What’s next for digital communications?
Competitive digital communications solutions
Digital communications opportunities for carriers
Section 5: Key findings & recommendations
Key finding
Recommendations

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(EMAILWIRE.COM, March 05, 2016 ) The explosive growth of over-the-top (OTT) services has disrupted the telecommunications market by boosting competition and by creating a phenomenal traffic load on the transport pipes of ISPs. Network providers are using traffic differentiation to manage the increased volume and distribute the cost of additional capacity, which has raised equal-access concerns among online content and service providers and consumers. As many governments around the world strive to address the issue, regulators are grappling with how to maintain Internet equality without discouraging sector growth.

Key Findings

The rapid uptake of OTT services globally is a major driver of the growth in data traffic for broadband providers. Popular OTT applications have disrupted the traffic management models of ISPs by exponentially expanding the volume of content carried over the Internet. The increased data load has created challenges for ISPs, which are coming up with methods for managing congestion.
Traffic management by ISPs has prompted governments to intervene to ensure Internet traffic equality. The need for government intervention to achieve a neutral Internet has been debated for a long time. Since the rise of the public Internet, governments have been weighing the merits of regulating such an expansive space against the risks of curtailing freedom.
Regulators must recognize the factors that enable a sustainable net neutrality program. A concerted implementation plan is needed to push forward the net neutrality agenda and attain sustainable progress. Some key enablers are identified based on each country’s level of stakeholder cooperation and its progress in averting neutrality breaches.
Network operators must seek ways to partner with OTT content and app providers. In the past few years, a number of MNOs have chosen to partner with OTT service and app providers, as an alternative or parallel strategy to rolling out proprietary Internet applications. OTT partnerships reduce the time to market for the operators aiming to launch new Internet-based services.
Participation in multi-stakeholder initiatives can help ISPs engage in the policy-setting process of their respective countries. By participating in such initiatives, broadband operators can boost their influence and make sure their technical and economic interests are considered in the development of net neutrality rules.

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Synopsis

The explosive growth of over-the-top (OTT) services has disrupted the telecommunications market by boosting competition and by creating a phenomenal traffic load on the transport pipes of ISPs. Network providers are using traffic differentiation to manage the increased volume and distribute the cost of additional capacity, which has raised equal-access concerns among online content and service providers and consumers. As many governments around the world strive to address the issue, regulators are grappling with how to maintain Internet equality without discouraging sector growth.“OTT Services: Collaborative Regulation Can Promote Internet Neutrality” offers an in-depth examination of the main regulatory models and strategies adopted around the world to safeguard the neutrality of the Internet, highlighting the interests and viewpoints of the different stakeholders in the debate and the challenges facing regulators in establishing a system that works for all. The Report’s analysis provides specific examples of prevalent regulatory models through case studies of Brazil, Chile, the European Union, France, South Korea, the United Kingdom and the United States, with a focus on the particular developments and challenges of each market.

The Report is structured as follows:

Section 1: Dynamics shaping the OTT environment. This section provides an overview of the three key growth segments within the OTT services sector as well as the threats and opportunities that OTT services present for network operators.
Section 2: Ecosystem player views Here we explore the perspectives of the various stakeholders in the global net neutrality debate, focusing on their views on what net neutrality means and the government’s role in ensuring an open and neutral Internet.
Section 3: Case studies – Approaches to regulating net neutrality. Seven jurisdictions are examined more closely: the European Union, Brazil, Chile, France, South Korea, the United Kingdom and the United States. Each case study offers detailed analysis of the trajectory and approach taken toward net neutrality regulation, the progress made in recent years and the challenges going forward.
Section 4: Key findings and recommendations. We conclude with a summary of our findings on the impetus for net neutrality and key regulatory models being adopted around the world, as well as specific recommendations for network operators looking to increase their participation in the net neutrality policymaking process and the OTT market.

Reasons To Buy

OTT Services: Collaborative Regulation Can Promote Internet Neutrality’ provides a comprehensive analysis of key regulatory models for Internet neutrality that are being adopted across the world, helping executives at MNOs, fixed telcos and pay-TV providers make informed strategic decisions and develop effective partnerships in the OTT arena.
The Report’s forward-looking analysis of key trends in OTT services helps providers assess the potential impact of OTTs on their business and identify related opportunities. The case studies focus on how governments and other stakeholders in seven developed and emerging markets have approached the net neutrality debate, allowing executives to refine their expectations for regulatory outcomes.
By understanding the interests and positions of the main stakeholders in the net neutrality debate – government, end users, content providers and ISPs – telecom professionals can develop strategies to ensure their respective needs are addressed in upcoming regulatory cycles.
The Report’s recommendations are based on real strategies employed by network operators to position themselves to influence more effectively the net neutrality laws in their respective markets, and to increase their participation in the ever-growing OTT services market. Network operators can benefit from strategies such as partnering with OTT players, collaborating with regulators, joining multi-stakeholder initiatives and forging coalitions with consumer and content provider advocacy groups.

Browse Detail Report With TOC @ http://www.researchmoz.us/ott-services-collaborative-regulation-can-promote-internet-neutrality-report.html

Table of Contents

Executive summary
Introduction: Report scope and definitions
Report scope
Definition of over-the-top services
Internet neutrality definition

Section 1: Dynamics shaping the OTT environment
Growth drivers and trends – OTT video
Growth drivers and trends – OTT messaging
Growth drivers and trends – OTT telephony
The impact of OTT services on network providers

Section 2: Ecosystem player views
Diverging stances on net neutrality
The governments’ dilemma
Autonomy is key for ISPs
Consumers want open access, equality and more choices
OTTs: Neutrality benefits consumers and the entire ecosystem

Section 3: Case studies – Approaches to regulating net neutrality
Regulating net neutrality: Same goal, different paths
Regulatory frameworks for net neutrality
Case study: United Kingdom
Case study: France
Case study: South Korea
Case study: United States
Case study: European Union
Case study: Chile
Case study: Brazil

Section 4: Key findings and recommendations
Key findings: Impetus for net neutrality regulation
Key findings: Regulatory models
Key findings: Principles and enablers
Recommendations: Partnerships
Recommendations: Multi-stakeholder initiatives
Recommendations: Collaboration with regulators (co-regulation)
Recommendations: Collaboration with consumer groups
and content providers

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(EMAILWIRE.COM, March 08, 2016 ) The China Hub Industry 2016 Market Research Report is a professional and in-depth study on the current state of the Hub industry.

The report provides a basic overview of the industry including definitions, classifications, applications and industry chain structure. The Hub market analysis is provided for the China markets including development trends, competitive landscape analysis, and key regions development status.

Development policies and plans are discussed as well as manufacturing processes and Bill of Materials cost structures are also analyzed. This report also states import/export consumption, supply and demand Figures, cost, price, revenue and gross margins.

Inquire for Sample Copy at http://www.reportsweb.com/inquiry&RW0001157868/sample .

The report focuses on China major leading industry players providing information such as company profiles, product picture and specification, capacity, production, price, cost, revenue and contact information. Upstream raw materials and equipment and downstream demand analysis is also carried out. The Hub industry development trends and marketing channels are analyzed. Finally the feasibility of new investment projects are assessed and overall research conclusions offered.

With 143 tables and figures the report provides key statistics on the state of the industry and is a valuable source of guidance and direction for companies and individuals interested in the market.

Table of Content

1 Industry Overview

2 Manufacturing Cost Structure Analysis of Hub

3 Technical Data and Manufacturing Plants Analysis

4 Production Analysis of Hub by Regions, Type, and Applications

5 Consumption Volume and Consumption Value Analysis of Hub by Regions

6 Analysis of Hub Production, Supply, Sales and Market Status 2011-2016

7 Analysis of Hub Industry Key Manufacturers

8 Price and Gross Margin Analysis

9 Marketing Trader or Distributor Analysis of Hub

10 Development Trend of Hub Industry 2016-2021

11 Industry Chain Suppliers of Hub with Contact Information

12 New Project Investment Feasibility Analysis of Hub

13 Conclusion of the China Hub Industry 2016 Market Research Report

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Priya Sisodia
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(EMAILWIRE.COM, March 07, 2016 ) Portland, OR -- LXORY announced the addition of another product to its growing list of luxury mobile accessories: The XStand 2-in-1 Apple Watch and iPhone dock. Featuring a modern design, the stand launched in February offers Apple iPhone and Watch users numerous benefits once assembled.

"The XStand was designed to reduce the ugly clutter many multi-device users complain about," explained John Dewan. "Having electronics strewn on a nightstand among numerous cords goes against everything Apple's devices are about and the people who own them. However, our latest accessory eliminates the clutter caused by devices and their cords and displays their newest gadgets in style."

In addition to integrating cord management to securely hold the charging codes of a user's iPhones and Apple Watch, the dock offers to stylishly show off their personal technology. Users can place their gadgets on this black and orange dock and display them on their desks as they work or on their nightstands at home. As the XStand comes with two sets of padded rubber strips, users can customize the dock to complement their personal style.

Convenience and aesthetics aside, the XStand is travel friendly. The spokesperson shared that the collapsible design may appeal to frequent travelers, ensuring that they can take it wherever they go. He also recommended using it instead of a standard hotel alarm clock radio while users are on the road.

The XStand is also flexible. Unlike other docks, it can hold any iPhone regardless of how bulky its case is. Moreover, it is Qi charger-compatible. Users can easily place their wireless charging pads behind the phone and they are set to go.

However, the biggest strength of the 2-in-1 Apple Watch and iPhone dock is its ability to protect users' valuable Apple gadgets. The padded holder will safely secure the Apple Watch and smartphone, reducing their risk of getting damaged due to falling. Moreover, it will limit the occurrence of scratches as it separates the gadgets from keys and other sharp objects usually found on desks or tables. As a result, users' significant investment will be safe for a longer period of time.

"As delicate as it looks, the XStand packs a lot of power due to its features and benefits," added Dewan. "Therefore, we can ensure its users of great value for money. In fact, we are celebrating its launch with a 10% discount. Users who join our email list are eligible for a 20% discount that will be delivered to their inboxes. To further ensure value, we offer the XStand with our customary full 30-day, 100% no-risk money-back guarantee."

The XStand is now available on Amazon
More information about the XStand can be found on the LXORY website.


About LXORY

LXORY provides accessories which improve the experience with modern mobile devices and enable users to seamlessly integrate them into their lifestyle.


John Dewan
(503) 251-06544
sales@lxory.com

Source: EmailWire.Com

(EMAILWIRE.COM, March 08, 2016 ) According to a recently published report, the Global Automotive Sensors Market expected to grow at the CAGR of 9.1% during 2015-2022 and it estimated to be $36.25 billion by 2022. The global automotive sensors market is segmented on the basis of product, industry applications and geography. The report on Global Automotive Sensors Market Forecast 2015-2022 provides detailed overview and predictive analysis of the market.

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The global automotive sensors market is expected to grow exponentially due to various factors such as increasing demand of vehicles especially motor cars around the world. The increasing demand for hybrid and electric vehicles with growing consumer demand for fuel-efficiency and comfort, in addition to factors such as strengthening government rules for vehicle safety is driving the market for automotive sensors worldwide. The shift towards self-driving cars could significantly boost the automotive sensor market as more intelligent data processing devices are required to make autonomous decisions which leads to development of automotive sensors market. Due to advancement in automobile technology, vehicles are increasingly being equipped with numerous sensing devices that provide information on different parameters ensuring comfort, safety, and security.

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The automotive sensors are one of the fastest growing sectors in automotive industry with growth rate in near double digit; especially in OEM (original equipment manufacturing). Europe (European Union) is presently the leading market of automobile sensors, due to the exponential growth in the logistics industry, with increasing information about safety, and setup of Low Emission Zones (LEZs) in European Union. These factors are fueling the demand for HEVs which is also boosting demand of automotive sensors in this region. Companies based in Europe and US (For example: Bosch, Emerson Electric) have spent significant revenue on R&D for new development of new products for automobiles makers.

The leading players with significant hold over the Global Automotive sensors market include players such as: Bosch, Denso Corporation, Sensata, Freescale Semiconductor, Agilent Technologies, Ford Corporation, Honeywell, Johnson Controls, Emerson Electric, General Electric, AMETEK Inc Honeywell, Analog Devices, and Delphi Automotive. The Bosch and Denso Corporation currently dominates the overall Automotive sensor market with share of over 24% in 2015.

Scope of the report:

Global automotive sensors market by types 2015–2022 ($ billion)
1. Pressure Sensor
2. Temperature Sensor
3. Gas Sensor
4. Motion Sensor
5. MEMS Sensor
6. NOX sensors
7. Speed Sensors
8. Inertial Sensors
9. Magnetic
10. Others

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Global automotive sensors market by application 2015-2022 ($ billion)
1. Powertrain market
2. Body Electronics Others
3. Vehicle Security system
4. Safety and Controls
5. Telematics
6. Chassis
7. Other
Global automotive sensors market regional outlook 2015-2022 ($ billion)
1. North America
2. Europe
3. Asia-Pacific
4. Middle East & Africa
5. Central & South America
Competitive Landscape
1. Bosch,
2. Denso Corporation,
3. Sensata,
4. Freescale Semiconductor,
5. Agilent Technologies,
6. Ford Corporation,
7. General Electric,
8. AMETEK Inc Honeywell,
9. Analog Devices,
10. Delphi Automotive
11. Ashcroft Holdings
12. Autoliv Inc.
13. Banner Engineering
14. Cherry Corporation
15. Miranda Technologies, Inc.
16. Eaton Corporation
17. Emerson
18. Goodrich Corporation
19. Johnson Controls
20. Honeywell

Blog: http://www.pdfdevices.com/global-synthetic-paper-devices-market-is-expected-to-grow-at-the-cagr-of-8-during-2015-2022-brisk-insights/

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Brisk Insights is a global market research firm. Our insightful analysis is focused on developed and emerging markets. We identify trends and forecast markets with a view to aid businesses identify market opportunities optimize strategies.
Working in a highly dynamic and multi-dimensional business makes decision making complex. Effective business decisions are a result of the synthesis of market information. Our Research and data analysis is an efficient and cost-effective way of providing robust market analysis and can yield highly valuable intelligence relating to consumers, competitors and markets.

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Source: EmailWire.Com

(EMAILWIRE.COM, March 07, 2016 ) Noblesville, Indiana -- At a recent press conference held at Crushers, Inc corporate headquarters in Geneva, IL, Ryan Anderson, president, announced the launch of their seven dollar apple watch stand sale exclusively on Amazon.

"Our Craddle apple watch stand is now available on Amazon for seven dollars for a limited time. We are excited to see the customer response to this promotion. The product is being order three times more than in the previous weeks," said Anderson.

According to Anderson, Amazon coupon code SSRG2K74 is to be used when prompted during checkout in order for customers to receive the 30% discount on the current $9.99 sales price.

"Customers will be able to use the exclusive SSRG2K74 Amazon coupon code in order to purchase our apple watch stand for $7," Anderson continued.

Anderson went on to say that Craddle is a light weight apple watch stand and charging station. He added that the product is lightweight, but also durable and made with scratch proof industrial grade aluminum. It was also noted that the Craddle is available in six different colors, black, white, red, blue, green and apple grey. Each color, stated Anderson, was created to match popular Apple Watch bands and allow customers to tap into their own individual style.

Craddle is available on Amazon at $9.99 with an additional 30% savings when coupon code SSRG2K74 is used. The product can be located on Amazon when the search phrase craddle apple watch stand is used inside any open Amazon search bar found on any Amazon webpage.

Anderson concluded by stating each purchase of their Craddle product includes a money back or new replacement customer satisfaction guarantee.


About Crushers Inc

Crushers Inc is a manufacturer and retailer of consumer goods, electronics and dietary supplements.


Ericka Evans
317-660-1338
pr@crushersinc.net

Source: EmailWire.Com