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市場調查報告書

全球商用智慧無人機:市場佔有率·策略·市場預測 (2015-2021年)

Smart Commercial Drones: Market Shares, Strategies, and Forecasts, Worldwide, 2015-2021.

出版商 WinterGreen Research, Inc. 商品編碼 338590
出版日期 內容資訊 英文 967 Pages
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全球商用智慧無人機:市場佔有率·策略·市場預測 (2015-2021年) Smart Commercial Drones: Market Shares, Strategies, and Forecasts, Worldwide, 2015-2021.
出版日期: 2015年08月31日 內容資訊: 英文 967 Pages
簡介

商用智慧無人機市場預測將從2014年的34億美元成長到2021年達到271億美元的規模。就產品類型來看,商規型消費視訊在2015年寫下最大收益佔有率,在預測期間預計也將持續維持最大佔有率。

本報告提供全球商用智慧無人機的市場相關調查,提供您商用智慧無人機概要,用途·技術的詳細分析,各部門的市場規模及市場佔有率的預測,影響市場成長因素分析,並詳細彙整主要產品及技術概要,主要經營者簡介等資訊。

商用智慧無人機無人機系統 (UAS) 市場佔有率·預測

  • 商用智慧無人機市場成長推進因素
  • UAS的課題
  • 商用智慧無人機無人機系統 (UAS)
  • 智慧無人機基礎設施的規格
  • 商用智慧無人機市場佔有率
  • 商用智慧無人機市場預測
  • 商用智慧無人機無人機系統 (UAS):總市場預測

第1章 商用智慧無人機:市場概要·市場動態

  • 商用智慧無人機
  • 無人機的強化功能和承載量
  • 地理影像
  • 全球化·技術
  • 邊防安全

第2章 商用智慧無人機無人機系統 (UAS) 市場佔有率·預測

  • 商用智慧無人機市場促進因素
  • 商用智慧無人機市場佔有率
  • 商用智慧無人機無人機系統 (UAS):總市場預測
  • 商用智慧無人機市場各部門佔有率·預測
    • 邊防安全 / 執法用
    • 宅配用
    • 公共事業·管線檢驗用
    • 農業檢驗·播種用
    • 照片·影像用
    • 商用測量用
    • 軍事用
  • 無人機的風險企業投資
  • 「Follow Me」無人機
  • UAS的承載量
  • 商用無人機的價格
  • 地區市場分析

第3章 商用智慧無人機:產品概要

  • Parrot S.A.
  • GoPro
  • 3D Robotics
  • Yamaha 農藥撒發用無人機
  • DJI
  • Boeing
  • AeroVironment
  • Elbit Systems Ltd
  • Amazon
  • Textron
  • BAE Systems
  • Aurora Flight Sciences Hale
  • L-3 Communications的下一代精密UAS
  • Draganfly Innovations Inc.
  • DRS Unmanned Technologies Ground Control Stations
  • General Atomics
  • Integrated Dynamics
  • MMIST Mist Mobility
  • Marcus UAV Systems
  • Proxy Aviation Systems
  • LaserMotive
  • China Aerospace Science & Industry Corp Jet-Powered WJ600
  • ASN Technology Group
  • Northrop Grumman / Scaled Composites
  • Schiebel Camcopter S-100
  • Parrot AR.Drone $299, Flies Off a Roof
  • Google
  • Facebook
  • Outernet Beamed Via Satellite
  • Lockheed Martin Ground Control System
  • TRNDlabs SKEYE Nano Drone
  • Prox Dynamics PD-100 Black Hornet PRS
  • Denel Dynamics Seeker 400 UAS
  • IAI/Malat Israel Aerospace Industries Heron
  • Safran
  • Honeywell
  • Ascending Technologies
  • Danish Aviation Systems

第4章 無人機 (UAS) 技術

  • 業餘愛好用·商用無人機使用法的學習
  • UAS的避免碰撞技術的演進:航空電子學方法
  • 軍事用無人機技術
  • Northrop Grumman.BAT UAV開放式架構
  • Integrated Dynamics Flight Telecommand & Control Systems
  • 改良型GPS
  • IRGX (Integrated Radio Guidance Transmitter)
  • 天線尾隨系統
  • ATPS 1200
  • 民生用UAV:Rover Systems
  • CPI-406 Deployable Emergency Locator Transmitter (ELT)
  • 雲端運算和multi-layer安全
  • Aurora VHAPS (Very High-Altitude Propulsion System)
  • Aurora Autonomy & Flight Control
  • 宇宙技術:ACSNR (Autonomous Control of Space Nuclear Reactors)
  • PPRV (Positive Pressure Relief Valve)
  • 持續的·大範圍偵察能力
  • SAR (Search and Rescue)
  • L-3 Communications LinkTEK? IDS
  • L-3 Communications FlightTEKR SMC
  • Danish Aviation Systems
  • Draganflyer X4應用
  • 美國的商業·公共安全:透過無人機來保護

第5章 無人機·遠距離操縱相關經營者:企業概要

  • 3D Robotics
  • AeroVironment
  • Airware
  • Ascending Technologies AscTec Firefly
  • ASN Technologies
  • Aurora Flight
  • Aviation Industry Corp (AVIC)
  • BAE Systems
  • Boeing
  • Challis UAV Inc.
  • China Aerospace
  • Cyphy
  • Delair-Tech
  • Denel Dynamics
  • DJI
  • Draganflyer
  • Elbit Systems Ltd
  • Finmeccanica
  • Flirtey
  • General Atomics
  • General Dynamics
  • Google
  • GoPro
  • Honeywell
  • HUVRData, LLC
  • Integrated Dynamics
  • Intel
  • Israel Aerospace Industries
  • Japan Drones
  • L-3 Communications
  • Laird / Cattron Group International
  • Laser Motive
  • Lockheed Martin
  • Marcus UAV
  • MMist
  • Northrop Grumman
  • Parrot/senseFly
  • Prox Dynamics
  • Proxy Technologies
  • RUAG Aerospace
  • Safran Morpho
  • SAIC
  • Scaled Composites
  • Schiebel
  • Secom
  • Skycatch
  • Textron
  • Topcon Positioning Group
  • TRNDlabs
  • XAircraft
  • Yamaha
  • Wing Looong
  • ZMP
目錄

Next generation Smart Commercial drones leverage better technology, they support high quality video camera work in every industry. 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.

Steady, Sure Video Now Achievable from Drones

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.

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.

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Table of Contents

SMART COMMERCIAL DRONE AERIAL SYSTEMS (UAS) MARKET SHARES AND FORECASTS

  • Smart Commercial Drone Market Driving Forces
  • UAS Challenges
  • Smart Commercial Drone Unmanned Aerial Systems (UAS)
  • Smart Drone Infrastructure Standards
  • Smart Commercial Drone Market Shares
  • Smart Commercial Drone Market Forecasts
  • Smart Commercial Drone Aerial Systems (UAS), Market Total Forecasts

1. SMART COMMERCIAL DRONES: MARKET DESCRIPTION AND MARKET DYNAMICS

  • 1.1 Smart Commercial Drones
    • 1.1.1 Smarat Drones: Commercial Unmanned Aerial Systems (UAS) Description 91
  • 1.2 Drone Enhanced Capability and Payloads
    • 1.2.1 Unmanned Aerial Systems (UAS) Enhanced Resilience
    • 1.2.2 Small and Micro-UASs
    • 1.2.3 Unmanned Aerial Systems (UAS) Perimeter Surveillance
    • 1.2.4 Unmanned Aerial Systems (UASs) Surveillance
  • 1.3 Georeferenced Imagery
    • 1.3.1 Unmanned Aerial Systems (UAS) Traffic Monitoring
    • 1.3.2 Unmanned Aerial Systems (UAS) Agriculture Mapping
    • 1.3.3 Unmanned Aerial Systems (UAS) Homeland Security
    • 1.3.4 Unmanned Aerial Systems (UAS) for Scientific Research
  • 1.4 Globalization and Technology
    • 1.4.1 Proliferation of Conventional Military Technologies
    • 1.4.2 Drones General Roles
  • 1.5 Border Patrol:
  • 1.6 Development Of Lighter Yet More Powerful Power Sources For UASs

2. SMART COMMERCIAL DRONE AERIAL SYSTEMS (UAS) MARKET SHARES AND FORECASTS

  • 2.1 Smart Commercial Drone Market Driving Forces
    • 2.1.1 UAS Challenges
    • 2.1.2 Smart Commercial Drone Unmanned Aerial Systems (UAS)
    • 2.1.3 Smart Drone Infrastructure Standards
  • 2.2 Smart Commercial Drone Market Shares
    • 2.2.1 DJI Phantom
    • 2.2.2 Parrot AR.Drone $299, Flies Off a Roof
    • 2.2.3 Ascending Technologies AscTec Firefly
    • 2.2.4 Ascending Technologies Professional Line
    • 2.2.5 AscTec For Professional Drone Users:
    • 2.2.6 Boeing A160 Hummingbird Helicopter
    • 2.2.7 Insitu
    • 2.2.8 Boeing Insitu
    • 2.2.9 Lockheed Martin
    • 2.2.10 BP and AeroVironment Launch FAA-Approved, Commercial Unmanned Aircraft Operations
    • 2.2.11 AeroVironment's Extensive Operational Track Record
    • 2.2.12 AeroVironment $11.2 Million Order for Raven Unmanned Aircraft Systems and Services
    • 2.2.13 Textron /AAI
    • 2.2.14 Textron Shadow®
    • 2.2.15 Aurora Flight Sciences Odysseus Solar-Powered Aircraft
    • 2.2.16 Draganflyer X4 UAV
    • 2.2.17 DRS Unmanned Technologies Ground Control Stations
    • 2.2.18 Proxy Aviation Systems
    • 2.2.19 Northrop Grumman Bat 3
    • 2.2.20 General Atomics Predator® UAS
    • 2.2.21 General Atomics Predator® B UAS
    • 2.3 Smart Commercial Drone Market Forecasts
  • 2.3.1 Smart Commercial Drone Aerial Systems (UAS), Market Total Forecasts 143
  • 2.4 Smart Commercial Drone Market Sector Shares and Forecasts
    • 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
    • 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
  • 2.5 Border Patrol / Law Enforcement Drone Unmanned Aerial Systems
    • 2.5.1 Border Patrol / Law Enforcement Drone Unmanned Aerial Systems (UAS) Market Shares
    • 2.5.2 Smart Commercial Drone Border Patrol / Homeland Security Aerial Systems Forecasts
  • 2.6 Package Delivery Smart Drone Aerial Systems
    • 2.6.1 Package Delivery Smart Commercial Drone Unmanned Aerial Systems (UAS) Market Shares,
    • 2.6.2 Boeing ScanEagle UAV
    • 2.6.3 Google Package Delivery
    • 2.6.4 Package Delivery Smart Commercial Drone Aerial Systems Forecasts 159
  • 2.7 Utility and Pipeline Inspection Smart Commercial Drone Aerial Systems
    • 2.7.1 Utility and Pipeline Inspection Smart Commercial Drone Aerial Systems (UAS) Market Shares
    • 2.7.2 Smart Commercial Drone Oil and Gas / Pipeline Inspection Aerial Systems Forecasts
  • 2.8 Agricultural Inspection and Planting Smart Commercial Drone Aerial Systems
    • 2.8.1 Commercial Drone Market Vertical Growth: Agriculture
    • 2.8.2 Agricultural Inspection and Planting Smart Commercial Drone Aerial Systems (UAS) Market Shares
    • 2.8.3 Yamaha RMAX
    • 2.8.4 Prox Dynamics PD-100 Black Hornet
    • 2.8.5 Draganfly Draganflyer X4-P
    • 2.8.6 AscTec Firefly
    • 2.8.7 3D Robotics
    • 2.8.8 Agricultural Smart Commercial Drone Aerial Systems Forecasts
  • 2.9 Photography and Videography Smart Commercial Drone Aerial Systems
    • 2.9.1 Photography and Videography Smart Commercial Drone Aerial Systems (UAS) Market Shares
    • 2.9.2 Smart Commercial Drone Film / Photo / Video
    • 2.9.3 LiDAR
    • 2.9.4 Smart Commercial Drone: Photography / Videography Systems Forecasts 181
  • 2.10 Commercial Drone Aerial Mapping
    • 2.10.1 GIS Professionals Are Willing To Pay For Drone Systems
    • 2.10.2 GIS Software
    • 2.10.3 UAS-Camera Integration
    • 2.10.4 Maps Of Navigable Drone Highways In The Sky
    • 2.10.5 Aerial Mapping Smart Commercial Drone Systems Forecasts
  • 2.11 Military Drones Market Share and Market Forecasts
    • 2.11.1 Military Drone Market Shares
    • 2.11.2 Northrup Grumman
    • 2.11.3 Military Drone Market Forecasts
    • 2.11.4 Military Drone Market Segment Forecasts
  • 2.12 Venture Investment in Drones
  • 2.13 Follow Me Drones
  • 2.14 Unmanned Aerial Systems Payloads
    • 2.14.1 Composites Key to UAV Utility
  • 2.15 Commercial Drone Prices
    • 2.15.1 Parrot AR.Drone 2.0 Quadcopter Elite Edition
    • 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)
    • 2.15.4 Parrot BeBop Drone Quadcopter with Skycontroller Bundle (Red)
    • 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)
    • 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)
    • 2.15.9 Parrot BeBop Drone Quadcopter with Backpack Bundle (Red)
    • 2.15.10 Parrot BeBop Drone Quadcopter with Hard Case Bundle (Blue)
    • 2.15.11 Parrot BeBop Drone Quadcopter with Hard Case Bundle (Red)
    • 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
    • 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
    • 2.15.17 Parrot Flight Recorder for AR.Drone 2.0 Quadcopter
    • 2.15.18 Parrot Camera for BeBop Drone
    • 2.15.19 Parrot Propellers for BeBop Drone (4-Pack, Red)
    • 2.15.20 Parrot Wall Charger for BeBop Drone and Skycontroller
    • 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)
    • 2.15.23 Parrot Feet Pack for BeBop Drone (4-Pack)
  • 2.16 Smart Commercial Drone Regional Market Analysis
    • 2.16.1 Smart Drone Commercial (UAV) Industry Regional Summary
    • 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
    • 2.16.4 Canada
    • 2.16.5 UK Trade In Drones
    • 2.16.6 Drones for the Netherlands
    • 2.16.7 Japan
    • 2.16.8 Sony Drone Services
    • 2.16.9 Japanese Drone Works Inside The Nuclear Power Plant
    • 2.16.10 China
    • 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
    • 2.16.13 Singapore
    • 2.16.14 Brazil
    • 2.16.15 Morocco
    • 2.16.16 India

3. SMART COMMERCIAL DRONES: PRODUCT DESCRIPTION

  • 3.1 Parrot S.A.
    • 3.1.1 Parrot Bebop Drone Stability
  • 3.2 GoPro
    • 3.2.1 GoPro Recorded Video Can Be Stitched Together Using Kolor
  • 3.3 3D Robotics
  • 3.4 Yamaha Crop Dusting Drones
    • 3.4.1 Yahama
    • 3.4.2 Yamaha RMAX
    • 3.4.3 Yamaha Unmanned Helicopters For Industrial And Research Applications 252
  • 3.5 DJI
    • 3.5.1 DJI Phantom
    • 3.5.2 DJI Inspire 1
    • 3.5.3 DJI Ronin
    • 3.5.4 DJI Ronin Major Updates:
    • 3.5.5 DJI Industries Phantom 3 Drone
    • 3.5.6 DJI Industries Phantom 3 Drone Live HD View
    • 3.5.7 DJI Industries Phantom 3 Drone Complete Control
    • 3.5.8 DJI Industries Phantom Intelligent Battery
    • 3.5.9 DJI Industries Inspire Drone
    • 3.5.10 DJI Industries Ronin-M
    • 3.5.11 DJI Industries Spreading Wings S1000+
    • 3.5.12 DJI Industries Zenmuse Z15-A7
    • 3.5.13 Flying Platforms
    • 3.5.14 DJI Flight Controllers
    • 3.5.15 DJI Camera Gimbals
    • 3.5.16 HD Video Downlink
    • 3.5.17 Ground Stations
    • 3.5.18 DJI Guidance
  • 3.6 Boeing
    • 3.6.1 Boeing A160 Hummingbird Helicopter
    • 3.6.2 Boeing ScanEagle Small Footprint UAS Solutions
    • 3.6.3 Boeing / Insitu / Commercial
    • 3.6.4 Insitu Arctic Ice Floe Monitoring
    • 3.6.5 Insitu Mammal Monitoring
    • 3.6.6 Insitu Pipeline Surveys
    • 3.6.7 Insitu Power-Line Inspections
    • 3.6.8 Insitu Geomagnetic Surveys
    • 3.6.9 Insitu Commercial Fishing
    • 3.6.10 Insitu Public Safety
    • 3.6.11 Insitu Disaster Response
    • 3.6.12 Insitu Search and Rescue
    • 3.6.13 Insitu Port and Border Security
    • 3.6.14 Insitu Communications Relay
    • 3.6.15 Insitu Over-the-Horizon Sensing
    • 3.6.16 Insitu Counter-Narcotics
    • 3.6.17 Insitu Offshore Base
    • 3.6.18 Insitu Defense
    • 3.6.19 Insitu Payload Systems
    • 3.6.20 Insitu Force Protection
    • 3.6.21 Insitu Combined Arms
    • 3.6.22 Insitu Research Future of UAS Operations and Technology
    • 3.6.23 Insitu ICOMC2 Streamline Process
    • 3.6.24 Insitu ICOMC2's Breakthrough Technology Extends Drone Capabilities 315
    • 3.6.25 Insitu NightEagle
  • 3.7 AeroVironment
    • 3.7.1 AeroVironement Global Observer
    • 3.7.2 AeroVironement RQ-20A Puma AE
    • 3.7.3 AeroVironement Wasp AE
    • 3.7.4 AeroVironement Shrike VTOL
    • 3.7.5 AeroVironement Ground Control System
    • 3.7.6 BP and AeroVironment Launch FAA-Approved, Commercial Unmanned Aircraft Operations
    • 3.7.7 AeroVironment Integrated LiDAR Sensor Payload
    • 3.7.8 AeroVironment and Commercial UAV
    • 3.7.9 AeroVironment AV's Family of Small UAS
    • 3.7.10 AeroVironment Raven
  • 3.8 Elbit Systems Ltd
    • 3.8.1 Elbit Systems Herrmes™ 900 - Multi-role, Multi- Payload Configurations Medium Altitude Long Endurance (MALE)
  • 3.9 Amazon
  • 3.10 Textron
    • 3.10.1 Textron Shadow M2
    • 3.10.2 Textron Aerosonde
    • 3.10.3 Textron / Aerosonde AAI Services
    • 3.10.4 Textron Shadow® Reconnaissance, Surveillance
    • 3.10.5 Textron Systems AAI / Aerosonde®
    • 3.10.6 Textron Systems AAI and Aeronautics Orbiter™
    • 3.10.7 Textron Systems AAI Remote Intelligence, Surveillance and Reconnaissance Terminals
    • 3.10.8 Textron Systems AAI One System Remote Video Terminal
    • 3.10.9 Textron Systems AAI Tactical Sensor Intelligence Sharing System
    • 3.10.10 Textron Systems Wasp Micro Air Vehicle (MAV)
    • 3.10.11 Textron Systems Homeland Security
    • 3.10.12 Nano Air Vehicle
  • 3.11 BAE Systems
    • 3.11.1 BAE Systems MIM500™ Series of Uncooled Infrared Camera Cores
    • 3.11.2 BAE Systems Taranis
  • 3.12 Aurora Flight Sciences Hale
    • 3.12.1 Aurora Centaur
    • 3.12.2 Aurora Orion
    • 3.12.3 Aurora SKATE - Small Unmanned Aircraft System
    • 3.12.4 Aurora's HALE
    • 3.12.5 Aurora's Advanced Concepts: SunLight Eagle - Green Flight
    • 3.12.6 Aurora's Excalibur
    • 3.12.7 Aurora GoldenEye 80 - Small, Capable Surveillance UAS
    • 3.12.8 Aurora GoldenEye 50
    • 3.12.9 Aurora GoldenEye 80
    • 3.12.10 Aurora's Advanced Concepts: UHATF
    • 3.12.11 Aurora Flight Sciences Odysseus Solar-Powered Aircraft
    • 3.12.12 Aurora Flight Sciences Orion HALL
    • 3.12.13 Aurora Flight Sciences Earth Science Applications
    • 3.12.14 Aurora Small Unmanned Aerial Systems
    • 3.12.15 Aurora Tactical Systems
    • 3.12.16 Aurora Diamond DA42 MPP
    • 3.12.17 Aurora System Description
  • 3.13 L-3 Communications Next Generation Precision Unmanned Aircraft Systems
    • 3.13.1 L-3 Cutlass Communications Small Expendable Tube-Launched UAS
  • 3.14 Draganfly Innovations Inc.
    • 3.14.1 Draganfly Draganflyer X4-P
    • 3.14.2 Draganfly Handheld Ground Control System
    • 3.14.3 Draganflyer Vision Based System (VBS)
    • 3.14.4 Draganflyer Guardian
    • 3.14.5 Draganfly X4
    • 3.14.6 Draganflyer X6
    • 3.14.7 Draganflyer Aerial Photography & Video Applications
    • 3.14.8 Draganflyer Real Estate Applications
    • 3.14.9 Draganflyer Law Enforcement Applications
    • 3.14.10 Draganflyer X8
  • 3.15 DRS Unmanned Technologies Ground Control Stations
    • 3.15.1 DRS Aircraft Monitoring Unit (AMU)
  • 3.16 General Atomics
  • 3.17 Integrated Dynamics
    • 3.17.1 Integrated Dynamics Rover
    • 3.17.2 Integrated Dynamics Explorer
    • 3.17.3 Integrated Dynamics Skycam
    • 3.17.4 Integrated Dynamics Pride
    • 3.17.5 Integrated Dynamics Spirit
    • 3.17.6 Integrated Dynamics Border Eagle MK - II
    • 3.17.7 Integrated Dynamics Hornet
    • 3.17.8 Integrated Dynamics HAWK MK - V
    • 3.17.9 Integrated Dynamics VISION UAV systems
    • 3.17.10 Integrated Dynamics VISION MK I
    • 3.17.11 Integrated Dynamics Vision M K - I I
    • 3.17.12 Integrated Dynamics S/Integrated Dynamics Integrated Dynamics MK - I
    • 3.17.13 Integrated Dynamics Vector
    • 3.17.14 Integrated Dynamics Tornado
    • 3.17.15 Integrated Dynamics Nishan MK - II
    • 3.17.16 Integrated Dynamics Nishan TJ - 1000
  • 3.18 MMIST Mist Mobility
    • 3.18.1 Sherpa Ranger / MMist
  • 3.19 Marcus UAV Systems
    • 3.19.1 Marcus Autopilots
  • 3.20 Proxy Aviation Systems
    • 3.20.1 Proxy PROTEUS™
    • 3.20.2 Proxy PACS
    • 3.20.3 The Proxy Autonomous Control Suite (PACS™) Virtual Pilot / Virtual Operator
    • 3.20.4 Proxy Cooperative Control/UDMS
    • 3.20.5 Proxy SkyRaider
  • 3.21 LaserMotive
    • 3.21.1 LaserMotive UAV Power Links
    • 3.21.2 LaserMotive Teams with Germany's Ascending Technologies
  • 3.22 China Aerospace Science & Industry Corp Jet-Powered WJ600
    • 3.22.1 Chinese Naval UAS
  • 3.23 ASN Technology Group
  • 3.24 Northrop Grumman / Scaled Composites
    • 3.24.1 Proteus
    • 3.24.2 Northrop Grumman MLB Company
    • 3.24.3 Northrop Grumman.Bat 3
    • 3.24.4 Northrop Grumman Super Bat with Piccolo II Autopilot and TASE Gimbal
    • 3.24.5 Northrop Grumman Unmanned Aerial Systems
    • 3.24.6 Northrop Grumman Bat Unmanned Aircraft System (UAS)
    • 3.24.7 Northrop Grumman Firebird
    • 3.24.8 Northrop Grumman Persistent Multiple Intelligence Gathering Air System
    • 3.24.9 Northrop Grumman M324 UAS (Unmanned Aerial System)
    • 3.24.10 Northrop Grumman RQ-4 Block 20 Global Hawk
    • 3.24.11 Northrop Grumman RQ-4 Global Hawk
    • 3.24.12 Northrop Grumman X-47B UCAS
    • 3.24.13 Northrop Grumman Fire-X Medium-Range Vertical Unmanned Aircraft System
  • 3.25 Schiebel Camcopter S-100
    • 3.25.1 Schiebel Camcopter Target Markets:
  • 3.26 Parrot AR.Drone $299, Flies Off a Roof
  • 3.27 Google
    • 3.27.1 Google Loon
    • 3.27.2 Google Loon Balloon Project
    • 3.27.3 Google Titan Aerospace
  • 3.28 Facebook
  • 3.29 Outernet Beamed Via Satellite
    • 3.29.1 Outernet Mobile Cloud Network Infrastructure
  • 3.30 Lockheed Martin Ground Control System
    • 3.30.1 Lockheed Martin Integrated Sensor Is Structure (ISIS)
    • 3.30.2 Lockheed Martin Integrated Sensor IS Structure (ISIS) Concept of Operations
    • 3.30.3 Lockheed Martin K-MAX Unmanned Helicopter
    • 3.30.4 Lockheed Martin K-MAX Used By Commercial Operators
    • 3.30.5 Lockheed Martin ARES
    • 3.30.6 Lockheed Martin Desert Hawk III
    • 3.30.7 Lockheed Martin Fury
    • 3.30.8 Lockheed Martin Expeditionary Ground Control System
    • 3.30.9 Lockheed Martin Remote Minehunting System
    • 3.30.10 Lockheed Martin Marlin
    • 3.30.11 Lockheed Martin Persistent Threat Detection System
    • 3.30.12 Lockheed Martin Stalker UAS Package Delivery
    • 3.30.13 Lockheed Martin Stalker Droppable Payload
  • 3.31 TRNDlabs SKEYE Nano Drone
  • 3.32 Prox Dynamics PD-100 Black Hornet PRS
    • 3.32.1 Prox Dynamics AS
  • 3.33 Denel Dynamics Seeker 400 UAS
    • 3.33.1 Denel Dynamics Seeker 400 UAS Multi-mission, Multi-role ISR System
    • 3.33.2 Denel Dynamics Seeker 400 UAS System
    • 3.33.3 Denel Dynamics Seeker 400 UAS Multi-mission, Multi-role ISR System Features
    • 3.33.4 Denel Dynamics Hungwe UAS
    • 3.33.5 Denel Dynamics Skua
    • 3.33.6 Denel Dynamics Skua High-speed Target Drone
  • 3.34 IAI/Malat Israel Aerospace Industries Heron
    • 3.34.1 IAI/Malat Israel Aerospace Industries Super Heron
    • 3.34.2 Israel Aerospace Industries Hunter
    • 3.34.3 Israel Aerospace Industries / RUAG Aerospace Ranger
    • 3.34.4 Israel Aerospace Industries Scout
    • 3.34.5 Israel Aerospace Industries Pioneer
    • 3.34.6 Israel Aerospace Industries Searcher MKIII
    • 3.34.7 Israel Aerospace Industries Panther Fixed Wing VTOL UAS
    • 3.34.8 Israel Aerospace Industries Mini Panther Fixed Wing VTOL Mini UAS
  • 3.35 Safran
    • 3.35.1 Safran Patroller and Sperwer
  • 3.36 Honeywell
    • 3.36.1 Honeywell Engines in General Atomics MQ-9 Reaper
  • 3.37 Ascending Technologies
    • 3.37.1 Ascending Technologies Professional Line
    • 3.37.2 AscTec For Professional Drone Users:
    • 3.37.3 AscTec Compliance
    • 3.37.4 Ascending Technologies For Professional UAV
    • 3.37.5 AscTec Falcon 8 + InspectionPRO
    • 3.37.6 AscTec Falcon 8 + VideoEXPERT
    • 3.37.7 AscTec Firefly
    • 3.37.8 Technical Data - AscTec Firefly
  • 3.38 Danish Aviation Systems

4. DRONE UNMANNED AERIAL SYSTEMS (UAS) TECHNOLOGY

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

5. DRONE AND REMOTE CONTROL COMPANY DESCRIPTION

  • 5.1 3D Robotics
  • 5.2 AeroVironment
    • 5.2.1 AeroVironment Financial Results For Its Third Quarter Ended January 31, 2015
  • 5.3 Airware
    • 5.3.1 Airware Components of its Aerial Information Platform
    • 5.3.2 Airware's AIP Business Model
    • 5.3.3 Airware Investment From Intel Capital
  • 5.4 Ascending Technologies AscTec Firefly
    • 5.4.1 Drone: Asctec Firefly With Intel Realsense
    • 5.4.2 Ascending Technologies and Intel Collaboration To Develop Drone Collision Avoidance Technology
    • 5.4.3 Ascending Technologies Asctec Firefly / Intel RealSense Camera
    • 5.4.4 Intel Realsense Cameras And Ascending Technologies' Asctec Trinity
    • 5.4.5 AscTec Falcon 8
    • 5.4.6 Topcon Distribution Partnership With Ascending Technologies
  • 5.5 ASN Technologies
  • 5.6 Aurora Flight
    • 5.6.1 Aurora 2013 Employee Exceptional Service Award
  • 5.7 Aviation Industry Corp (AVIC)
    • 5.7.1 Aviation Industry Corp / Thielert
  • 5.8 BAE Systems
  • 5.9 Boeing
    • 5.9.1 Boeing 2015 Revenue
    • 5.9.2 Boeing Commercial Airplanes
    • 5.9.3 Boeing Defense, Space & Security
    • 5.9.4 Boeing Capital Corporation
    • 5.9.5 Boeing Engineering, Operations & Technology
    • 5.9.6 Boeing Shared Services Group
    • 5.9.7 Boeing Revenue by Segment
    • 5.9.8 Boeing / Insitu
    • 5.9.9 Boeing Defense, Space & Security
  • 5.10 Challis UAV Inc.
  • 5.11 China Aerospace
    • 5.11.1 China Aerospace CASC Space Technology
    • 5.8.2 China Aerospace CASC Revenue
  • 5.12 Cyphy
    • 5.12.1 Cyphy Microfilament Technology
    • 5.12.2 CyPhy Works Microfilament
  • 5.13 Delair-Tech
  • 5.14 Denel Dynamics
  • 5.15 DJI
  • 5.16 Draganflyer
    • 5.16.1 DraganBot
    • 5.16.2 Draganflyer ABEX Awards
  • 5.17 Elbit Systems Ltd
    • 5.17.1 Elbit Systems Ltd UAS (Unmanned Aircraft Systems) and USVs (Unmanned Surface Vessels)
    • 5.17.2 Elbit Systems Ltd Military Aircraft and Helicopter Systems
  • 5.18 Finmeccanica
    • 5.18.1 DRS Technologies
  • 5.19 Flirtey
  • 5.20 General Atomics
    • 5.20.1 USAF awards Contracts to GA-ASI to convert 38 Reaper UASs to Extended Range Capability configuration
    • 5.20.2 U.S. Air Force Plans for Extended-Range Reaper
  • 5.21 General Dynamics
    • 5.21.1 Sequester Mechanism
    • 5.21.2 General Dynamics Revenue
    • 5.21.3 General Dynamics Robotic Systems
    • 5.21.4 General Dynamics Robotic Systems (GDRS) Vision
    • 5.21.5 General Dynamics Robotic Systems (GDRS) Manufacturing
    • 5.21.6 General Dynamics Autonomous Land And Air Vehicle Development
  • 5.22 Google
    • 5.22.1 Google Revenue
    • 5.22.2 Google Revenues by Segment and Geography
    • 5.22.3 Google / Boston Dynamics
    • 5.22.4 Boston Dynamics CHEETAH - Fastest Legged Robot
    • 5.22.5 Boston Dynamics Atlas - The Agile Anthropomorphic Robot
    • 5.22.6 Boston Dynamics BigDog
    • 5.22.7 Boston Dynamics LittleDog - The Legged Locomotion Learning Robot
    • 5.22.8 Google Robotic Division
    • 5.22.9 Google Self-Driving Car
    • 5.22.10 Google Cars Address Vast Majority Of Vehicle Accidents Due To Human Error
    • 5.22.11 Google Business
    • 5.22.12 Google Corporate Highlights
    • 5.22.13 Google Search
  • 5.23 GoPro
    • 5.23.1 GoPro Second Quarter 2015 Highlights
    • 5.23.2 GoPro Opular Mount
    • 5.23.3 GoPro Revenue Surges 54% As It Gains Popularity Abroad
    • 5.23.4 GoPro Acquires Kolor, A Virtual Reality Company
  • 5.24 Honeywell
    • 5.24.1 Honeywell T-Hawk Military Mini Drone
    • 5.24.2 Honeywell's Unmanned Aerial Vehicle RMUs
    • 5.24.3 Honeywell Navigation
  • 5.25 HUVRData, LLC
  • 5.26 Integrated Dynamics
  • 5.27 Intel
    • 5.27.1 Intel Company Strategy
    • 5.27.2 Intel Realsense Cameras And Ascending Technologies' Asctec Trinity
    • 5.27.3 Intel Capital
  • 5.28 Israel Aerospace Industries
    • 5.28.1 Israel Aerospace Industries MALAT Division
  • 5.29 Japan Drones
  • 5.30 L-3 Communications
    • 5.30.1 L3 Communications
    • 5.30.2 L-3 Aerospace Systems
    • 5.30.3 L-3 Electronic Systems
    • 5.30.4 L-3 Communication Systems
    • 5.30.5 L-3 National Security Solutions
    • 5.30.6 L-3 Revenue by Segment
  • 5.31 Laird / Cattron Group International
    • 5.31.1 Cattron- Theimeg Branding
  • 5.32 Laser Motive
  • 5.33 Lockheed Martin
    • 5.33.1 Lockheed Martin First Quarter 2015 Results
    • 5.33.2 Lockheed Martin Symphony Improvised Explosive Device Jammer Systems
    • 5.33.3 Lockheed Martin Aeronautics Revenue
    • 5.33.4 Lockheed Martin Electronic Systems
    • 5.33.5 Lockheed Martin
  • 5.34 Marcus UAV
  • 5.35 MMist
    • 5.35.1 MMIST Sherpatm Guided Parachute System
    • 5.35.2 MMIST SnowGoosetm CQ-10A Unmanned Aerial System (UAS)
  • 5.36 Northrop Grumman
    • 5.36.1 Northrop Grumman Revenue
    • 5.36.2 Northrop Grumman Remotec
    • 5.36.3 Northrop Grumman Leading Global Security Company
    • 5.36.4 Northrop Grumman Supplies Marine Navigation Equipment
    • 5.36.5 Northrop Grumman Recognized by UK Ministry of Defense for Role in Supporting Sentry AWACS Aircraft During Military Operations in Libya
    • 5.36.6 Northrop Grumman Corporation Subsidiary Remotec Inc. upgrade the U.S. Air Force fleet of Andros HD-1
    • 5.36.7 Northrop Grumman NAV CANADA Supplier
  • 5.37 Parrot/senseFly
    • 5.29.1 Parrot Group / senseFly
    • 5.29.2 Parrot Group senseFly CTI Certified
    • 5.37.1 Parrot Drone First Quarter Sales For 2015 Up 356 Percent
  • 5.30 Prox Dynamics
  • 5.31 Proxy Technologies
  • 5.32 RUAG Aerospace
  • 5.33 Safran Morpho
    • 5.33.1 Safron Morpho Identification Division
    • 5.33.2 Safron Morpho e-Documents Division
    • 5.33.3 Safron Morpho e-Documents Payments
    • 5.33.4 Safron Morpho e-Documents Identity & Access Management
    • 5.33.5 Safron Morpho Global Presence
    • 5.33.6 Safron Morpho Detection Division
    • 5.33.7 Safran Morpho Revenue 2015
    • 5.33.8 Key figures for the first quarter of 2015
    • 5.33.9 Safran Morpho Business
    • 5.33.10 Safron Security Revenue
  • 5.34 SAIC
  • 5.35 Scaled Composites
  • 5.36 Schiebel
  • 5.37 Secom
    • 5.37.1 Japanese Security Company To Offer Private Security Drones
  • 5.38 Skycatch
  • 5.39 Textron
  • 5.40 Topcon Positioning Group
  • 5.41 TRNDlabs
  • 5.42 XAircraft
  • 5.43 Yahama
    • 5.43.1 Yamaha Crop Dusting Drones
  • 5.44 Wing Looong
  • 5.45 ZMP
  • 5.46 Drone Market Participants WorldWide
    • 5.45.1 Military UAV Manufacturers
    • 5.45.2 Top Drone Products
    • 5.45.3 FAA Approved Drone Projects

WINTERGREEN RESEARCH,

WinterGreen Research Research Methodology

  • Figure ES-1 Parrot S.A. Bebop Commercial Drone
  • Figure ES-2 Parrot S.A. Bebop Commercial Drone Controller
  • Table ES-3 Smart Commercial Drone Aircraft Benefits
  • Table ES-4 Smart Commercial Drone Unmanned Aerial Systems Functions
  • Table ES-5 Smart Commercial Drone Aerial Systems Features
  • Table ES-6 Drone Unmanned Aerial Systems Mission Tasks
  • Table ES-7 Smart Commercial Drone UAS Challenges
  • Figure ES-8 Smart Commercial Drone Market Shares, 2014
  • Figure ES-9 Smart Commercial Drone Unmanned Aerial Systems (UAS), Market Forecasts Dollars, Worldwide, 2015-2021
  • Table 1-1 Ability Of Commercial Drones To Perform Delivery Function
  • Figure 1-2 Increase In Resolution That Is Possible With Georeferenced Imagery
  • Table 1-3 Department of Transportation Applications
  • Table 1-4 Unmanned Aerial Systems (UAS) Homeland Security Sites To Be Monitored
  • Figure 2-1 Parrot S.A. Bebop Commercial Drone
  • Figure 2-2 Parrot S.A. Bebop Commercial Drone Controller
  • Table 2-3 Smart Commercial Drone Aircraft Benefits
  • Table 2-4 Smart Commercial Drone Unmanned Aerial Systems Functions
  • Table 2-5 Smart Commercial Drone Aerial Systems Features
  • Table 2-6 Drone Unmanned Aerial Systems Mission Tasks
  • Table 2-7 Smart Commercial Drone UAS Challenges
  • Figure 2-8 Smart Commercial Drone Market Shares, 2014
  • Figure 2-9 Smart Commercial Drone Market Shares, 2014
  • Figure 2-10 Airborne Parrot Drone
  • Figure 2-11 Ascending Technologies AscTec Firefly Smart Drone
  • Figure 2-12 Boeing A160 Hummingbird Unmanned Aerial Vehicle
  • Figure 2-13 BP and AeroVironment Drone for Comprehensive GIS Services
  • Figure 2-14 AeroVironment Switchblade Tactical Missile System
  • Figure 2-15 Textron Shadow
  • Figure 2-16 General Atomics Predator UAS
  • Figure 2-17 General Atomics Predator B UAS
  • Figure 2-18 Smart Commercial Drone Unmanned Aerial Systems (UAS), Market Forecasts Dollars, Worldwide, 2015-2021
  • Table 2-19 Smart Commercial Drone Unmanned Aerial Systems Markets, Dollars, Worldwide, 2015-2021
  • Figure 2-20 Smart Commercial Drone Aerial Systems (UAS) Market Forecasts, Units, Worldwide, 2015-2021
  • Figure 2-21 Smart Commercial Drone Aerial Systems (UAS) by Sector, Agriculture, Oil and Gas, Border Patrol, Law Enforcement, Homeland Security, Disaster Response, Package Delivery, Photography, Videography, Dollars, Worldwide, 2015-2021
  • Figure 2-22 Smart Commercial Drone Aerial Systems (UAS) by Sector, Agriculture, Oil and Gas, Border Patrol, Law Enforcement, Homeland Security, Disaster Response, Package Delivery, Photography, Videography, Percent, Worldwide, 2015-2021
  • Table 2-23 Small and Mid Size Smart Commercial Drone Unmanned Aerial Systems Dollars and Units, Worldwide, 2015-2021
  • Table 2-24 Smart Commercial Drone Systems Fixed Wing and Rotor Segments, Dollars and Percent, Worldwide, 2015-2021
  • Table 2-25 Border Patrol / Law Enforcement Smart Drone Aerial Systems (UAS) Market Shares, Dollars, Worldwide, 2014
  • Figure 2-26 Smart Commercial Drone Border Patrol / Homeland Security Aerial Systems Forecasts, Dollars, Worldwide, 2015-2021
  • Table 2-27 Package Delivery Smart Drone Aerial Systems (UAS) Market Shares, Dollars, Worldwide, 2014
  • Figure 2-28 Smart Commercial Drone Package Delivery Aerial Systems Forecasts, Dollars, Worldwide, 2015-2021
  • Table 2-29 Utility and Pipeline Inspection Drone Unmanned Aerial Systems (UAS) Market Shares 161
  • Figure 2-30 Draganflyer Pipeline / Hydro-Transmission Line Inspection
  • Figure 2-31 Smart Commercial Drone Oil and Gas / Pipeline Inspection Aerial Systems Forecasts, Dollars, Worldwide, 2015-2021
  • Table 2-32 Agricultural Inspection and Planting Drone Unmanned Aerial Systems (UAS) Market Shares, Dollars, Worldwide, 2014
  • Figure 2-33 Yamaha Helicopter Drone Spraying
  • Figure 2-34 Yamaha RMAX Helicopter Drones
  • Figure 2-35 Draganfly Draganflyer X4-P
  • Figure 2-36 AscTec Firefly
  • Table 2-37 Technical Data - AscTec Firefly
  • Figure 2-38 Smart Commercial Drone Agriculture Aerial Systems Forecasts, Dollars, Worldwide, 2015-2021
  • Table 2-39 Photography and Videography Drone Unmanned Aerial Systems (UAS) Market Shares, Dollars, Worldwide, 2014
  • Figure 2-40 Smart Commercial Drone Photography / Videography Systems Forecasts, Dollars, Worldwide, 2015-2021
  • Figure 2-41 Commercial Drone Aerial Mapping
  • Table 2-42 Smart Drone Aerial Mapping Market Shares Dollars, Worldwide, 2014
  • Figure 2-43 Smart Drone Mapping Vehicle
  • Table 2-44 3D Maps Of Navigable Drone Highways In The Sky
  • Figure 2-45 Smart Commercial Drone Aerial Mapping Systems Forecasts, Dollars, Worldwide, 2015-2021
  • Figure 2-46 Northrop Grumman Global Hawk
  • Figure 2-47 Military Drone Market Shares, Dollars, Worldwide, 2014
  • Table 2-48 Military Drone Market Shares, Dollars, Worldwide, 2014
  • Table 2-49 Northrop Grumman Global Hawk Features
  • Table 2-50 Northrop Grumman Global Hawk Functions
  • Figure 2-51 Military Drone Unmanned Aerial Systems Forecasts, Dollars, Worldwide, 2015-2021
  • Figure 2-52 Top Five VC Funded Drone Ventures
  • Figure 2-53 DJI Share of FAA Drone Operations Exceptions
  • Figure 2-54 Smart Commercial Drone Aerial Systems (UAS) Regional Market Segments, Dollars, 2014
  • Table 2-55 Smart Commercial Drone Aerial Systems (UAS) Regional Market Segments, 2014
  • Figure 2-56 Japanese Hexacopter Smart Commercial Drone
  • Figure 2-57 Sony Commercial Drone
  • Figure 2-58 Drone Model Envisaged For Work Inside The Reactor Buildings At The Crippled Fukushima No. 1 Nuclear Power Plant
  • Figure 3-1 Parrot S.A. Bebop Commercial Drone
  • Table 3-2 Parrot S.A. Bebop Commercial Drone
  • Table 3-3 Parrot Bebop Drone Stability and Function Sensors
  • Table 3-4 Parrot Bebop Drone Sensor Functions
  • Figure 3-5 3D Robotics
  • Figure 3-6 UC Davis Using Yahama Helicopter Drones For Crop Dusting
  • Figure 3-7 Yamaha Crop Dusting Initiatives
  • Figure 3-8 Yamaha Helicopter Drone Spraying
  • Figure 3-9 Yamaha RMAX Helicopter Drones
  • Figure 3-10 Yamaha Agricultural Spraying
  • Figure 3-11 Yamaha Rmax Drone
  • Figure 3-12 Yamaha Unmanned Helicopters For Industrial And Research Applications
  • Table 3-13 Yamaha Drone Unmanned Helicopters Agricultural Applications
  • Table 3-14 DJI Products
  • Figure 3-15 DJI Phantom
  • Figure 3-16 DJI Phantom Series
  • Figure 3-17 DJI Inspire 1
  • Figure 3-18 DJI Ronin
  • Table 3-19 DJI Ronin Features
  • Figure 3-20 DJI Inspire 1
  • Figure 3-21 DJI Ronin-M
  • Figure 3-22 Spreading Wings S800 EVO
  • Figure 3-23 Zenmuse H3-3D
  • Figure 3-24 DJI Industries Phantom 3 Drone
  • Table 3-25 DJI Industries Phantom 3 Drone Powerful Mobile App
  • Table 3-26 DJI Industries Phantom Functions
  • Table 3-27 DJI Industries Phantom SKEYE Nano Drone Open Platform Apps Programming Functions
  • Figure 3-28 DJI Industries Inspire Drone
  • Table 3-29 DJI Industries Inspire Drone Features
  • Figure 3-30 DJI Industries Ronin-M
  • Table 3-31 DJI Industries Ronin-M Functions
  • Figure 3-32 DJI Industries Spreading Wings S1000+
  • Table 3-33 DJI Industries Spreading Wings S1000+ Features
  • Figure 3-34 DJI Industries Zenmuse Z15-A7
  • Table 3-35 DJI Industries Zenmuse Z15-A7 Features
  • Figure 3-36 DJI Advanced Octocopter Spreading Wings S1000+
  • Table 3-37 Boeing A160 Hummingbird Helicopter Features
  • Figure 3-38 Boeing A160 Hummingbird Unmanned Aerial Vehicle
  • Table 3-39 Boeing-Insitu ScanEagle In Service Views
  • Figure 3-40 Boeing ScanEagle
  • Figure 3-41 Insitu ScanEagle
  • Figure 3-42 Boeing Insitu ScanEagle 2 - the Next Generation Platform
  • Table 3-43 Insitu Industry Standards Best Practices Partners
  • Table 3-44 Insitu ICOMC2's Breakthrough Technology Capabilities
  • Table 3-45 Insitu ICOMC2 Technology Upgrade For Emergency Response
  • Figure 3-46 Insitu NightEagle
  • Figure 3-47 AeroVironement Global Observer
  • Table 3-48 AeroVironement Global Observer Advanced Warning Factors
  • Table 3-49 AeroVironement Global Observer® System Applications
  • Table 3-50 AeroVironement Global Observer® System Target Markets
  • Figure 3-51 AeroVironement RQ-20A Puma AE
  • Figure 3-52 AeroVironement Wasp AE
  • Figure 3-53 AeroVironement Shrike VTOL
  • Figure 3-54 AeroVironement Ground Control System
  • Figure 3-55 BP and AeroVironment Drone for Comprehensive GIS Services
  • Table 3-56 AeroVironment BP Services
  • Table 3-57 AeroVironement BP Inspection of Critical Infrastructure
  • Figure 3-58 AeroVironment Commercial UAV
  • Figure 3-59 AeroVironment UAS: Raven
  • Figure 3-60 AeroVironment Raven
  • Figure 3-61 Elbit Systems Herrmes™ 900 - Multi-role, Medium Altitude Long Endurance (MALE)
  • Table 3-62 Elbit Systems UAS
  • Table 3-63 Interstate Drone Regulation Functions
  • Figure 3-64 Amazon Prime Air Drone
  • Figure 3-65 Textron Shadow M2
  • Table 3-66 Textron Shadow M2 Features
  • Table 3-67 Textron / Aerosonde Aircraft Flight Milestones And Capabilities
  • Table 3-68 Aerosonde Service Capabilities
  • Table 3-69 Textron AAI Optimization For The Aircraft For Military Missions
  • Figure 3-70 Textron Shadow
  • Table 3-71 Textron Training Domains And Capabilities
  • Figure 3-72 Textron Systems UAS: Wasp
  • Table 3-73 Textron Systems Global Observer System Homeland Security Functions
  • Table 3-74 Textron Systems Global Observer Features
  • Figure 3-75 Nano Air UAS Advanced Development Aircraft:
  • Figure 3-76 BAE Systems MIM500™ Series Of Uncooled Infrared Camera Cores
  • Table 3-77 BAE Systems MIM500 Camera Functions
  • Figure 3-78 BAE Systems Taranis
  • Figure 3-79 Aurora Flight Sciences Centaur OPA
  • Figure 3-80
  • Figure 3-81 Aurora Flight Sciences Orion
  • Figure 3-82 Aurora Flight Sciences Orion Magic JCTD
  • Figure 3-83 Aurora Skate
  • Figure 3-85 Aurora Skate Flying Indoors
  • Figure 3-86 Aurora's HALE
  • Figure 3-87 Aurora's Advanced Concepts: SunLight Eagle
  • Figure 3-88 Aurora Excalibur
  • Table 3-89 Aurora GoldenEye 80 Air Vehicle Planned Design Improvements
  • Figure 3-90 Aurora Flight Sciences UAS
  • Table 3-91 Aurora Flight Sciences Tactical UAVs
  • Table 3-92 Aurora's Line of Tactical UAVs
  • Table 3-93 Aurora DA42 MPP Features
  • Table 3-94 Aurora DA42 MPP Features
  • Table 3-95 Aurora DA42 MPP Target Applications
  • Figure 3-96 Aurora Flight Sciences GoldenEye 80
  • Table 3-97 L3 Cutlass Launch Formats
  • Figure 3-98 L-3 Communications Cutlass
  • Table 3-99 L-3 Communications Cutlass Tube-Launched Small UAS Key Features
  • Figure 3-100 Draganfly Handheld Ground Control System
  • Table 3-101 Draganflyer Vision Based System (VBS) Functions
  • Figure 3-102 Draganflyer Guardian
  • Figure 3-103 Draganflyer Camera
  • Figure 3-104 Draganflyer Camera Modules
  • Figure 3-105 Draganflyer Camera Operator Module
  • Figure 3-106 Draganflyer Hovering
  • Source: Draganflyer.
  • Figure 3-107 Draganflyer Quad Rotor Provides Flight Stability Source: Draganflyer.
  • Figure 3-108 Draganflyer X6 Remotely Operated, Unmanned, Miniature Helicopter
  • Figure 3-109 Draganflyer Compact Foldable Frame
  • Source: Draganflyer.
  • Figure 3-110 Draganflyer Camera Real Estate Applications
  • Figure 3-111 Draganflyer Camera Law Enforcement Applications
  • Figure 3-112 Draganflyer Camera Traffic Applications
  • Figure 3-113 Draganflyer Tactical Surveillance
  • Figure 3-114 Draganflyer X8 Helicopter
  • Figure 3-115 DraganFlyer X8 Helicopter Eight Main Horizontal Rotor Blades
  • Figure 3-116 General Atomics Predator UAS
  • Figure 3-117 Integrated Dynamics Rover
  • Figure 3-118 Integrated Dynamics Rover A View
  • Figure 3-119 Integrated Dynamics Explorer Drone
  • Figure 3-120 Integrated Dynamics Skycam
  • Figure 3-121 Integrated Dynamics Pride
  • Figure 3-122 Integrated Dynamics Spirit
  • Figure 3-123 Integrated Dynamics UAV Airframe Systems
  • Figure 3-124 Integrated Dynamics Border Eagle MK - II
  • Figure 3-125 Integrated Dynamics Hornet
  • Figure 3-126 Integrated Dynamics HAWK MK - V
  • Figure 3-127 Integrated Dynamics VISION MK I
  • Figure 3-128 Integrated Dynamics Vision M K - I I
  • Figure 3-129 Integrated Dynamics S / Integrated Dynamics Integrated Dynamics M K-I
  • Figure 3-130 Integrated Dynamics Vector
  • Figure 3-131 MMIST SnowGoose
  • Table 3-132 MMist CQ-10B advantages:
  • Table 3-133 MMist Unmanned Logistics Air Vehicle (ULAV)Functions
  • Table 3-134 MMist CQ-10 System
  • Figure 3-135 MMist SherpaTM Ranger
  • Table 3-136 MMIST Shepra Characteristics
  • Table 3-137 MMist Sherpa™ Systems Guidance Units
  • Table 3-138 MMist Sherpa™ Provider Advantages:
  • Figure 3-139 MMist Payload
  • Figure 3-140 Marcus Zephyr Airframes UAV Systems
  • Table 3-141 Marcus Zephyr Airframes UAV Systems Specifications:
  • Table 3-142 The Proxy Autonomous Control Suite (PACS™) Principal Subsystem Elements:
  • Table 3-143Proxy SkyRaider Benefits:
  • Table 3-144 Proxy Aviation UAV capabilities
  • Figure 3-145 Chinese Jet-Powered WJ600 Chinese jet-powered WJ600
  • Figure 3-146 Chinese UAS
  • Table 3-147 Chinese V750 Helicopter Drone
  • Table 3-148 Air Show China 2010 J10 Chinese Fighter Jets
  • Figure 3-149 Northrop Grumman Bat 3 UAV
  • Table 3-150 Northrop Grumman.Bat 3 Features
  • Figure 3-151 Northrop Grumman Super Bat with Piccolo II Autopilot and TASE Gimbal
  • Figure 3-152 Northrop Grumman Super Bat with Piccolo II Autopilot and TASE Gimbal Features
  • Table 3-153 Northrop Grumman MLB Super-Bat Specifications
  • Figure 3-154 Northrop Grumman Bat Unmanned Aircraft System
  • Figure 3-155 Northrop Grumman Firebird
  • Figure 3-156 Northrop Grumman M324 UAS
  • Figure 3-157 Northrop Grumman Bat Unmanned Aircraft System
  • Figure 3-158 Northrop Grumman Global Hawk (U.S. Air Force)
  • Figure 3-159 Northrop Grumman MQ-8B Fire Scout
  • Table 3-160 Northrop Grumman MQ-8B Fire Scout System Requirements:
  • Figure 3-161 Northrop Grumman MQ-8B Fire Scout System Needs:
  • Table 3-162 Northrop Grumman Global Hawk Specifications:
  • Table 3-163 Northrop Grumman X-47B UCAS
  • Figure 3-164 Northrop Grumman Fire-X
  • Table 3-165 Schiebel Camcopter Target Markets:
  • Figure 3-166 Airborne Parrot Drone
  • Figure 3-167 Airborne Parrot AR.Drone 2.0
  • Figure 3-168 Google Design Called A Tail Sitter, A Hybrid Of A Plane And A Helicopter
  • Figure 3-169 Project Loon Balloons Float In The Stratosphere
  • Figure 3-170 Google Loon Balloon
  • Figure 3-171 Google Titan Aerospace
  • Figure 3-172 Planet Lab CubeSats As Model for Outernet Beamed Via Satellite
  • Figure 3-173 Lockheed Martin Ground Control System
  • Table 3-174 Lockheed Martin Expeditionary Ground Control System Features
  • Figure 3-175 Lockheed Martin Integrated Sensor Is Structure (ISIS)
  • Table 3-176 Lockheed Martin Integrated Sensor Is Structure (ISIS) Capabilities
  • Table 3-177 Lockheed Martin Integrated Sensor Is Structure (ISIS) Key Features
  • Table 3-178 Lockheed Martin K-MAX Unmanned Helicopter Functions
  • Figure 3-179 Lockheed Martin K-MAX Unmanned Helicopter
  • Figure 3-180 Lockheed Martin ARES
  • Figure 3-181 Lockheed Martin Desert Hawk III
  • Figure 3-182 Lockheed Martin Fury
  • Table 3-183 Lockheed Martin Fury Features
  • Figure 3-184 Lockheed Martin Expeditionary Ground Control System
  • Table 3-185 Expeditionary Ground Control System Modules:
  • Figure 3-186 Lockheed Martin Remote Minehunting System
  • Figure 3-187
  • Figure 3-188 Lockheed Martin Persistent Threat Detection System
  • Figure 3-189 Lockheed Martin Stalker UAS
  • Table 3-190 Lockheed Martin Stalker Droppable Payload Features
  • Table 3-191 Stalker eXtended Endurance (Stalker XE) Features
  • Figure 3-192 TRNDlabs SKEYE Nano Drone
  • Table 3-193 TRNDlabs SKEYE Nano Drone Features
  • Figure 3-194 Prox Dynamics PD-100 Black Hornet PRS
  • Table 3-195 Prox Dynamics PD-100 Black Hornet PRS Features
  • Table 3-196 Prox Dynamics PD-100 Black Hornet Missions
  • Table 3-197 Prox Dynamics PD-100 Black Hornet Benefits Prox Dynamics AS Mini Protective Drone
  • Figure 3-198 Denel Dynamics Seeker 400 UAS
  • Table 3-199 Denel Dynamics Seeker 400 UAS Features
  • Table 3-200 Denel Dynamics Seeker 400 UAS Multi-mission, Multi-role ISR System Components:
  • Table 3-201 Denel Dynamics Seeker 400 UAS Multi-Mission, Multi-Role ISR System Features
  • Table 3-202 Denel Dynamics Seeker 400 UAS UAS Multi-mission, Multi-role ISR System System Features
  • Figure 3-203 Denel Dynamics Hungwe UAS
  • Table 3-204 Denel Dynamics Hungwe UAS Functions
  • Figure 3-205 Denel Dynamics Skua
  • Table 3-206 Denel Dynamics Skua High-speed Target Drone Features
  • Figure 3-207 Israel Aerospace Industries Heron
  • Table 3-208 Israel Aerospace Industries Heron Features And Capabilities:
  • Figure 3-209 Israel Aerospace Industries Super Heron
  • Table 3-210 Israel Aerospace Industries Super Heron Main Features:
  • Figure 3-211 Israel Aerospace Industries Hunter
  • Table 3-212 Israel Aerospace Industries Hunter System Features And Capabilities:
  • Figure 3-213 Israel Aerospace Industries Ranger
  • Table 3-214 Israel Aerospace Industries / RUAG Ranger System Main Features And Capabilities:
  • Figure 3-215 Israel Aerospace Industries Searcher MKIII
  • Table 3-216 Israel Aerospace Industries Searcher MKIII Multiple Operational Configurations
  • Figure 3-217 Israel Aerospace Industries Panther Fixed Wing VTOL UAS
  • Table 3-218 Israel Aerospace Industries Panther Features
  • Table 3-219 Israel Aerospace Industries Panther Fixed Wing VTOL UAS Main Capabilities
  • Table 3-220 The Israel Aerospace Industries Panther Typical Missions
  • Figure 3-221 Israel Aerospace Industries Mini Panther Fixed Wing VTOL Mini UAS
  • Table 3-222 Israel Aerospace Industries Mini Panther Fixed Wing VTOL Mini UAS Features and Capabilities
  • Table 3-223 Israel Aerospace Industries Mini Panther Fixed Wing VTOL Typical Missions 3.35 Safran
  • Table 3-224 Safran Drone Positioning
  • Table 3-225 Safran Drone Missions
  • Figure 3-226 Safran Tactical Drone Systems
  • Figure 3-227 Honeywell T-Hawk Military Mini Drone
  • Figure 3-228 Honeywell Engines in General Atomics MQ-9 Reaper
  • Table 3-229 AscTec Drone Efficiency: Professional Line
  • Table 3-230 Ascending Technologies. Professional UAV Efficiency Benefits
  • Table 3-231 Ascending Technologies. UAV / UAS / Drones
  • Figure 3-232 AscTec UAV 360° Aerial Imaging & Panorama Experience
  • Figure 3-233 Danish Aviation Systems Drones
  • Figure 3-234 eXom Danish Aviation System Mapping and Inspection Drone
  • Figure 4-1 Typical Hobby Commercial Drone
  • Table 4-2 US FAA Suggestions for Drone Pilot Training
  • Table 4-3 Drone Standards
  • Table 4-4 Drone Certification Standards
  • Figure 4-5 UAS Automatic Surveillance Sense and Avoid Evolution
  • Figure 4-6 UAS Airspace Control LD-CAP Conceptual Architecture
  • Table 4-7 UAS Automatic Surveillance Sense LD-CAP Experimental Environment
  • Figure 4-8 UAS Sense and Avoid: See and Avoid Requirement Aspects
  • Table 4-9 UAS Avionics Approach
  • Table 4-10 Military Drone Technology Key Requirements
  • Figure 4-11 US Military DISA Drone Architecture
  • Figure 4-12 Drone Operational Architecture
  • Figure 4-13 Northrop Grumman.BAT UAV Features
  • Figure 4-14 Vehicle Tracking And Antenna Positioning System That Utilizes Unique GPS
  • Figure 4-15 Aurora Autonomy & Flight Control
  • Table 4-16 Aurora Development Capabilities
  • Table 4-17 Aurora / NASA Development Of Automated Landing Systems
  • Table 4-18 Aurora / NASA Development Automated Landing System
  • Table 4-19 Aurora / NASA Autopilot Development Issues
  • Table 4-20 Aurora / NASA Flare Planner Development
  • Table 4-21 Roles And Capabilities, Provided By Manned Platforms, With UASs by 2030
  • Figure 4-22 Size, Role, and Platform of Unmanned Aircraft
  • Table 4-23 Aircraft Prime Contractor Missions
  • Table 4-24 L-3 Communications LinkTEK Key Communication Features
  • Figure 4-25 linkTEK™ IDS
  • Table 4-26 FlightTEK Controls
  • Figure 4-28 Danish Aviation Systems Drones
  • Figure 4-29 Large Project Management
  • Figure 4-30 Draganflyer Remote Supervision and Investigation of Equipment
  • Figure 4-31 Draganflyer Pipeline / Hydro-Transmission Line Inspection
  • Figure 4-32 Draganflyer Remote Supervision and Investigation of Agricultural Fields and Crops
  • Figure 4-33 Draganflyer Advanced RC Flight Research
  • Figure 4-34 Draganflyer Remote Aerial Archeology
  • Figure 4-35 Draganflyer Remote Environmental Assessment
  • Figure 4-36 Draganflyer Fun
  • Figure 4-37 Advanced Flight Entertainment
  • Table 4-38 Draganflyer RC Helicopter Aerial Photography and Videography Platform
  • Figure 4-39 John Paul Jones US Navy Ship
  • Figure 4-40 Early US Navy Ship
  • Figure 4-41 Early US Barbary Wars Show How to Fight Terrorism
  • Table 5-1 ASnTech Mobile Or Fixed Assets Benefits
  • Table 5-2 ASnTech Mobile Or Fixed Assets Target User Markets
  • Table 5-3 ASnTech Mobile Or Fixed Assets Users
  • Table 5-4 Aurora Flight Core Values:
  • Table 5-5 BAE Systems Standards
  • Figure 5-6 BAE Systems Revenue in Defense Market
  • Table 5-7 Boeing Commercial Airplane Profile
  • Table 5-8 Boeing Commercial Airplane Installed Base Profile
  • Figure 5-9 Cyphy Drone FLyer
  • Table 5-10 Cyphy Pocket Flyer Key Benefits
  • Table 5-11 Cyphy Pocket Flyer Specifications
  • Figure 5-12 Cyphy Spooling MicroFilament
  • Table 5-13 Delair-Tech's Features
  • Table 5-14 Delair-Tech Customer References
  • Figure 5-15 DJI Phantom
  • Figure 5-16 Draganflyer Design
  • Figure 5-17 Draganflyer X6
  • Table 5-18 DRS Technologies Defense Technology Leading Market Positions
  • Table 5-19 General Atomics Aeronautical Systems MQ-9 Accelerated Extended Range Aircraft
  • Figure 5-20 General Atomics Reaper
  • Figure 5-21 Boston Dynamic LS3
  • Figure 5-22 Boston Dynamic CHEETAH
  • Figure 5-23 Boston Dynamic Atlas
  • Figure 5-24 Boston Dynamic BigDog
  • Figure 5-25 Boston Dynamics LittleDog -
  • Table 5-25 Google Autonomous Vehicles Technology
  • Figure 5-26 GoPro Cameras
  • Figure 5-27 Honeywell T-Hawk Military Mini Drone
  • Table 5-28 HUVD Drone Services Industries Targeted
  • Table 5-29 Integrated Dynamics UAV/RPV Project Supply Source
  • Table 5-30 Integrated Dynamics UAV/RPV Project Accessories
  • Table 5-31 Israel Aerospace Industries IAI / Malat Main Areas Of Activity
  • Figure 5-32 Israel Aerospace Industries Malat Division
  • Table 5-33 3: Positioning
  • Table 5-34 Laird / Cattron Group International Customers:
  • Figure 5-35 Lockheed Martin Segment Positioning
  • Table 5-36 Lockheed Martin's operating units
  • Figure 5-37 Lockheed Martin Aeronautics Segment Positioning
  • Figure 5-38 Lockheed Martin Aeronautics Segment Portfolio
  • Figure 5-39 Lockheed Martin Aeronautics C130 Worldwide Airlift
  • Figure 5-40 Lockheed Martin Aeronautics Falcon Fighter
  • Figure 5-41 Lockheed Martin Electronic Systems Portfolio
  • Table 5-42 Northrop Grumman Partner Of Choice
  • Figure 5-43 Northrop Grumman Systems Segments
  • Figure 5-44 Northrop Grumman Portfolio
  • Figure 5-45 Parrot Consumer Drone
  • Table 5-46 Proxy Technologies Deone Potential Uses
  • Figure 5-47 RUAG Aerospace Business Aviation
  • Figure 5-48 RUAG Aerospace Military Aviation
  • Table 5-49 Safran Morpho Profile
  • Table 5-50 Safron Morpho Technology Position In The Security Chain
  • Table 5-51 Safran Types of Threat Detection
  • Table 5-52 Safran Threat Detection Technologies
  • Figure 5-53 Safran Systems Deployed In The Field
  • Table 5-54 Safron Morpho Identification Division
  • Table 5-55 Safron Morpho e-Documents Divisions
  • Table 5-56 Safron Morpho Detection and Divisions
  • Figure 5-57 Japanese Security Company To Offer Private Security Drones
  • Table 5-58 Textron First Quarter 2015 Segment Results
  • Table 5-59 Textron Brands
  • Figure 5-60 Xaircraft X
  • Figure 5-61 Xaircraft X Camera
  • Figure 5-62 UC Davis Using Yahama Helicopter Drones For Crop Dusting
  • Figure 5-63 Yamaha Crop Dusting Initiatives
  • Figure 5-64 Wing Loong Drone
  • Figure 5-65 Sony Autonomous VTOL (vertical take-off and landing) Drone Unmanned Aircraft
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