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市場調査レポート

世界の軍事用陸上ロボット市場:市場シェア・各種戦略・市場予測

Military Ground Robot Mobile Platform Systems of Engagement Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019

発行 WinterGreen Research, Inc. 商品コード 231283
出版日 ページ情報 英文 600 Pages
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世界の軍事用陸上ロボット市場:市場シェア・各種戦略・市場予測 Military Ground Robot Mobile Platform Systems of Engagement Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019
出版日: 2013年05月22日 ページ情報: 英文 600 Pages
概要

世界の軍事用陸上ロボットの市場は、2013年に45億米ドル、2019年には120億ドルの規模へと成長すると予測されています。

当レポートでは、世界の軍事用陸上ロボット市場の現状と見通しについて調査分析し、軍事用ロボット市場の主要動向・市場影響因子の分析、主要製品の概要、技術および技術開発の動向、ロボット出荷台数および出荷額の予測、製造業者の市場シェア、企業間の各種契約の動向、主要企業のプロファイルなどをまとめ、概略下記の構成でお届けいたします。

エグゼクティブサマリー

第1章 軍事用ロボットの市場概要・市場力学

  • 戦闘チームに攻撃・防衛能力を与えるロボット
  • 米国陸軍の近代化
  • 軍事用ロボットの範囲
  • 陸軍のG8 Futuresオフィス
  • 軍事用ロボットのタイプ
  • UGV実現技術
  • 軍事用ロボットの周波数帯域
  • SUGV
  • 軍事用ロボットの定義

第2章 軍事用陸上ロボットシステムの市場シェア・市場予測

  • 軍事用陸上ロボットの市場シェア・市場予測
  • 軍事用陸上ロボットの市場シェア
  • 軍事用陸上ロボットの市場予測
  • 軍事用ロボットの政府予算情報
  • 軍事用ロボット価格
  • 軍事用ロボットの地域分析
  • 軍事用陸上ロボットのインストールベース・出荷高の予測

第3章 軍事用ロボットシステムの製品概要

  • iRobot
  • Northrop Grumman
  • General Dynamics Robotic Systems
  • Kongsberg
  • BAE Systems
  • QinetiQ
  • Telerob
  • Allen Vanguard
  • Boston Dynamics
  • Kairos Autonami
  • Mesa Robotics
  • Lockheed Martin
  • Thales Group
  • G-NIUS UGS
  • ICOR Technology
  • Pedsco
  • Robosoft
  • ECA Robotics
  • Elbit Systems
  • Recon Robotics
  • Carnegie Mellon University

第4章 軍事用ロボット技術

  • 軍事用ロボット技術の実現因子
  • MRAP ATV:要件とライバル
  • 軍事用ロボットの実現技術
  • Intel ICのエビデンスに基づくイノベーション
  • 最先端ロボット技術:ナビゲーション・モビリティ・マニピュレーション
  • ユーザーフレンドリーなインターフェース
  • フィールドベースのロボティクスの反復型の開発
  • Intel:軍事用ロボット関連の提携
  • 日立:SuperHファミリーを利用したロボットのコンフィギュレーション
  • ロボットおよびセンサーのネットワーク
  • 軍事用ロボット技術機能
  • カーボンナノチューブラジオ
  • 軍事用ロボットの資金供給プログラム
  • iRobot技術
  • Evolution Robotics:技術ソリューション
  • UGVのクラス

第5章 軍事用ロボット関連事業者のプロファイル

  • Allen Vanguard
  • BAE Systems
  • Boston Dynamics
  • ECA Robotics
  • Elbit Systems
  • G-NIUS
  • General Dynamics
  • ICOR Technology
  • iRobot
  • Kairos Autonami
  • Kongsberg
  • Lockheed Martin
  • Mesa Associates
  • Northrop Grumman
  • Pearson Engineering
  • QinetiQ
  • Recon Robotics
  • Robosoft
  • boteX
  • TechnoRobot
  • Telerob
  • Thales Group
  • Vecna Technologies
  • 主な軍事ロボット企業

第6章 軍事用ロボットの各種契約など

図表

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目次
Product Code: SH25540949

Military ground robot market growth comes from the device marketing experts inventing a new role as technology poised to be effective at the forefront of fighting terrorism. Markets at $4.5 billion in 2013 reach $12.0 billion by 2019. Growth is based on the adoption of automated process by military organizations worldwide.This automated process implemented as a combination of software for innovation and robotic platforms is not the traditional military system.

They are systems of engagement that have arms and sensors, tracks and wheels, motors and solid state batteries. These systems of engagement support leveraging smart phones and mobile platforms. The aim is to achieve a broader, more intelligent military presence in every area of the globe.

In the last decade, the U.S. military poured money into unmanned ground systems to help protect troops against improvised explosive devices. There is the issue that the Defense Department needs to repurpose all those robots once the war in Afghanistan comes to a close. The wider market for military ground robots will develop as a mechanism to fight terrorism in response to the bombings in Boston and elsewhere. Bombing of civilians is a very serious matter and needs to be addressed with mobile platforms that prevent terrorist acts.

While the Army's committed to unmanned ground systems, appears to be slowing, this commitment is anticipated to heat up again quickly. The investment priorities are anticipated to change as the Defense Department realizes that investments in ground robots are needed to fight terrorism everywhere.

Just as troops leave Afghanistan, so also the robots that worked alongside them leave. The difference is that the robots are finding new uses as mobile security platforms that protect against the loss of human life The Army plans to upgrade 2,700 of its existing military robot systems for use in training or further deployments.

Another 2,469 will be divested and given to Defense Department partners or other government agencies. The U.S. military's spending on UGVs appears as though it might decrease according to the words coming out of the defense department, but as Congress assesses the damage from the Boston bombing, it will become apparent that there is only one choice for fighting terrorists efficiently and that is through the use of military ground robotic platforms that function as mobile systems of engagement.

Military ground robot market shares and market forecast analysis considers that military ground robots have a vast new market based on their ability to protect human life in the event of terrorist attack. This was proved virtually in the recent Boston terrorist attack when one of the Watertown police officers pulled the emergency brake on a police vehicle and rolled it up next to the terrorists in the stolen SUV Mercedes. Without actually being in the car, the local police officers were able to spook both terrorists by making them think they were being directly flanked.

The terrorists thought the vehicle really had police offices in it and shot toward it and detonated bombs in the rogue vehicle. The virtual robot vehicle did its job of protecting the lives of the Watertown police officers and of catching the bad guys.

Both terrorists were captured using robots, the robot car (actually a real car that was pushed into a bad situation as a robot would be, thus simulating a robot) and the robots that were used in the boat where the other terrorist was hiding to inspect the situation had a direct role in capturing the terrorists. Thus the Boston bombing illustrates a whole new use for military robots in terrorist situations.

In this manner, robot vehicles are sure to be used to fight terrorism going forward. It should be noted that though all the resources of the federal government and state government were directed toward solving the crime, that it was the very local group of police, the Watertown police department who did much of the work.

It was the local Watertown police department members who were engaged in a firefight with terrorists and who had to think on their feet to capture the bad guys and do it without getting killed themselves or endangering other civilians.

It is to the credit of the local police department that they were able to do this and it is noteworthy that they did use military robots in the endeavor and the police vehicle that doubled as a military robot presages more use of military style robots by local police departments.

The defense industry is entering a new era. Military robotics are poised to play a significant role in achieving change in security delivery. With battlefield engagements winding down, terrorism has emerged as a constant and current threat. The recent terrorist bombings in Boston and other cities worldwide illustrate that threat. Military robots are the best practice technology for dealing with terrorists in many cases.

Table of Contents

MILITARY GROUND ROBOT SYSTEMS OF ENGAGEMENT EXECUTIVE SUMMARY

  • Military Ground Robots Market Shares and Market Forecasts
    • Defense Industry Is Entering A New Era
    • Military Ground Robot Market Driving Forces
  • Military Ground Robots Market Shares
    • QinetQ TALON
    • Allen Vanguard Armadillo Micro UGV
  • Military Ground Robot Market Forecasts

1. MILITARY ROBOTS MARKET DESCRIPTION AND MARKET DYNAMICS

  • 1.1. Robots Delivering Offensive and Defensive Capabilities to Combat Teams
    • 1.1.1. Military Robots
    • 1.1.2. Army Agile Process
    • 1.1.3. Robots Used in War
  • 1.2. US Army Modernization 2012
    • 1.2.1. Military Robot Autonomy or Control
    • 1.2.2. M3 is a DARPA Robotics Program Agile methods Rapidly Deliver Business Process And Application Change
  • 1.3. Military Robot Scope
    • 1.3.1. Military Robot Applications
  • 1.4. Army's G8 Futures office
    • 1.4.1. Delivering Capabilities to the Army's Brigade Combat Teams
    • 1.4.2. Transition Between The Current Market And Where The Market Is Going
    • 1.4.3. Different Sizes of UGVs
  • 1.5. Types of Military Robots
    • 1.5.1. Explosive Observation Robot and Ordnance Disposal
    • 1.5.2. QinetiQ North America Talon® Robots Universal Disrupter Mount
    • 1.5.3. General Dynamics Next-Generation
    • 1.5.4. Soldier Unmanned Ground Vehicle from iRobot
  • 1.6. UGV Enabling Technologies
    • 1.6.1. Sensor Processing
    • 1.6.2. Machine Autonomy
  • 1.7. Military Robot Bandwidth
    • 1.7.1. UGV Follow-Me Capability
    • 1.7.2. Communications Bandwidth
    • 1.7.3. Battery Power
    • 1.7.4. Combination Of Batteries Linked To Onboard Conventional Diesel
  • 1.8. SUGVs
    • 1.8.1. Mid-Size Category UGV
    • 1.8.2. Large UGV
    • 1.8.3. U.S. Army Ground Combat Vehicle
    • 1.8.4. TARDEC
    • 1.8.5. RS JPO Organization
  • 1.9. Definition Of Military Robots:

2. MILITARY GROUND ROBOT SYSTEMS OF ENGAGEMENT MARKET SHARES AND FORECASTS

  • 2.1. Military Ground Robots Market Shares and Market Forecasts
    • 2.1.1. Defense Industry Is Entering A New Era
    • 2.1.2. Military Ground Robot Market Driving Forces
  • 2.2. Military Ground Robots Market Shares
    • 2.2.1. Selected Leading Military Robots
    • 2.2.2. Northrop Grumman
    • 2.2.3. Northrop Grumman Cutlass
    • 2.2.4. Northrop Grumman Mini-ANDROS II
    • 2.2.5. Northrop Grumman Mini Andros II Features
    • 2.2.6. Northrop Grumman ANDROS
    • 2.2.7. Northrop Grumman Remotec Andros Robots
    • 2.2.8. Northrop Grumman Caliber® T5 is a small EOD and SWAT robot.
    • 2.2.9. Northrop Grumman Caliber Robot
    • 2.2.10. Northrop Grumman Remotec Andros
    • 2.2.11. Northrop Grumman / Remotec
    • 2.2.12. Northrop Grumman Remotec UK Wheelbarrow Robots
    • 2.2.13. General Dynamics Robotic Systems
    • 2.2.14. General Dynamics Mobile Detection
    • 2.2.15. iRobot Packbot
    • 2.2.16. iRobot
    • 2.2.17. Kongsberg
    • 2.2.18. QinetQ
    • 2.2.19. QinetQ TALON
    • 2.2.20. BAE Systems Electronic Bugs Developed for Military Use
    • 2.2.21. Allen Vanguard Armadillo Micro UGV
    • 2.2.22. ReconRobotics
  • 2.3. Military Ground Robot Market Forecasts
    • 2.3.1. Small Military Robot Forecasts
    • 2.3.2. Mid Size Military Ground Robot Market Forecasts
    • 2.3.3. Larger Military Robot Forecasts
    • 2.3.4. Discussion of Various Size Military Robot Market Strengths and Challenges
    • 2.3.5. Trends in the Auto Industry that Will Be Present in the Military Robot Industry 2-41
    • 2.3.6. Unmanned Ground Systems Roadmap
    • 2.3.7. Robots Represent Modernization of Military
    • 2.3.8. Army Modernization
    • 2.3.9. Army Brigade Combat Team Modernization
    • 2.3.10. New World Order Built On The Globally Integrated Enterprise
    • 2.3.11. Military Ground Robot Markets
    • 2.3.12. Mission Specific Military Robot Unmanned Systems by Weight Class
    • 2.3.13. Robotics Categories Established By The U.S. Department of Defense's Joint Robotics Program
  • 2.4. Military Robot Government Budget Information
    • 2.4.1. FCS Unmanned Ground Vehicles
    • 2.4.2. Unmanned Ground Vehicles Government Test
    • 2.4.3. Unmanned Ground Vehicles Production Delivery
  • 2.5. Military Robot Prices
    • 2.5.1. QinetQ Talon
    • 2.5.2. iRobot Pacbot
    • 2.5.3. Recon Scout® Throwbot
    • 2.5.4. RoboteX Avatar® Home & Office Robot
    • 2.5.5. Military Robots Light
    • 2.5.6. Tactical, Micro-Robot Systems
    • 2.5.7. Small Unmanned Ground Vehicle (SUGV),
  • 2.6. Military Robot Regional Analysis
  • 2.7. Military Ground Robot Installed Base and Shipments Market Forecasts

3. MILITARY ROBOT SYSTEMS OF ENGAGEMENT PRODUCT DESCRIPTION

  • 3.1. iRobot
    • 3.1.1. iRobot® 510 PackBot® for EOD Technicians
    • 3.1.2. iRobot® PackBot® 510 for Infantry Troops
    • 3.1.3. iRobot® PackBot® 510 for Combat Engineers
    • 3.1.4. iRobot 710 Warrior™
    • 3.1.5. iRobot® 110 FirstLook®
    • 3.1.6. iRobot® SUGV
    • 3.1.7. iRobot® 1KA Seaglider™
  • 3.2. Northrop Grumman
    • 3.2.1. Northrop Grumman CUTLASS
    • 3.2.2. Northrop Grumman Mini-ANDROS II
    • 3.2.3. Northrop Grumman Mini Andros II Features
    • 3.2.4. Northrop Grumman ANDROS Hazmat
  • 3.3. General Dynamics Robotic Systems
    • 3.3.1. General Dynamics Mobile Detection Assessment and Response System (MDARS)
    • 3.3.2. General Dynamics Tactical Autonomous Combat - Chassis (TAC - C)
  • 3.4. Kongsberg
    • 3.4.1. Kongsberg Protector Remote Weapon Station
    • 3.4.2. Kongsberg CORTEX
  • 3.5. BAE Systems
    • 3.5.1. BAE Systems Electronic Bugs Developed for Military Use
    • 3.5.2. BAE Systems Land Vehicles Given a Brain of their Own
  • 3.6. QinetQ
    • 3.6.1. QinetiQ TALON Product Line Expansion
    • 3.6.2. QinetQ TALON
    • 3.6.3. QinetQ MAARS
    • 3.6.4. QinetQ Raider I Engineer
    • 3.6.5. QinetQ Raider I Engineer Mission
    • 3.6.6. QinetQ Raider II
    • 3.6.7. QinetQ Spartacus
    • 3.6.8. QinetQ U.S. Army REF Minotaur
    • 3.6.9. QinetQ Tactical Robot Controller
    • 3.6.10. QinetQ Dragon Runner 10
    • 3.6.11. QinetQ Dragon Runner 20
  • 3.7. Telerob
    • 3.7.1. Telerob - EOD / IEDD Equipment, EOD Robots and Vehicles
    • 3.7.2. Telerob Heavy Duty Explosive Ordnance Disposal (EOD) Robot
    • 3.7.3. Telerob Telemax High-Mobility EOD Robot
    • 3.7.4. Telerob EOD / IEDD Service Vehicles
  • 3.8. Allen Vanguard
    • 3.8.1. Allen Vanguard Beetle Nano UGV
    • 3.8.2. Allen Vanguard Armadillo Micro UGV
    • 3.8.3. Allen Vanguard Scorpion Small UGV
    • 3.8.4. Allen Vanguard Digital Vanguard ROV
    • 3.8.5. Allen Vanguard Defender ROV
  • 3.9. Boston Dynamics
    • 3.9.1. Boston Dynamics LS3 - Legged Squad Support Systems
    • 3.9.2. Boston Dynamics CHEETAH - Fastest Legged Robot
    • 3.9.3. Boston Dynamics Atlas - The Agile Anthropomorphic Robot
    • 3.9.4. Boston Dynamics BigDog
    • 3.9.5. Boston Dynamics LittleDog - The Legged Locomotion Learning Robot
    • 3.9.6. Boston Dynamics PETMAN - BigDog Gets a Big Brother
    • 3.9.7. Boston Dynamics RHex Devours Rough Terrain
    • 3.9.8. Boston Dynamics RiSE: Vertically Climbing Robot
  • 3.10. Kairos Autonami
    • 3.10.1. Kairos Autonami Pronto4 Agnostic Autonomy System for Existing Vehicles or Vessels
    • 3.10.2. Kairos Autonami Pronto4 Benefits
    • 3.10.3. Kairos Autonami Pronto4™ Sub-Systems
    • 3.10.4. Kairos Autonami ProntoMimic Software Suite Functions
  • 3.11. Mesa Robotics
    • 3.11.1. Mesa MATILDA II
    • 3.11.2. Mesa ACER
  • 3.12. Lockheed Martin SMSS
    • 3.12.1. Lockheed Martin Squad Mission Support System SMSS User-Proven Autonomy
    • 3.12.2. Lockheed Martin Squad Mission Support System Unmanned Capabilities
    • 3.12.3. Lockheed Martin Squad Mission Support System Unmanned Capabilities
  • 3.13. Thales Group Mini UAV and UGVs
    • 3.13.1. Thales Group Customers
  • 3.14. G-NIUS UGS
    • 3.14.1. G-NIUS Avantguard MK I
    • 3.14.2. G-NIUS Avantguard MK II
    • 3.14.3. G-NIUS Guardium MK I
    • 3.14.4. G-NIUS Guardium MK II
    • 3.14.5. G-NIUS Guardium MK III
  • 3.15. ICOR Technology MK3 Caliber
    • 3.15.1. Icor CALIBER® T5
    • 3.15.2. Icor Mini-CALIBER®
    • 3.15.3. Icor MICRO-CALIBER® Rapid Response
  • 3.16. Pedsco Remote Mobile Investigator (RMI)
    • 3.16.1. Pedsco RMI-9WT
    • 3.16.2. Pedsco RMI-9XD
    • 3.16.3. Pedsco RMI-10F
  • 3.17. Robosoft robuROC
  • 3.18. ECA Robotics CAMELEON EOD
    • 3.18.1. ECA Robotics CAMELEON CRBN
    • 3.18.2. ECA Robotics COBRA MK2
    • 3.18.3. ECA Robotics MAMBA
    • 3.18.4. ECA Robotics TSR 202
  • 3.19. Elbit Systems Land Systems
    • 3.19.1. Elbit Systems Autonomous Systems
  • 3.20. Recon Robotics Recon Scout IR
    • 3.20.1. Recon Robotics Recon Scout XL
    • 3.20.2. Recon Robotics Throwbot XT
    • 3.20.3. Recon Robotics Searchstick
  • 3.21. Carnegie Mellon University Crusher
    • 3.21.1. Carnegie Mellon University TUGV

4. MILITARY ROBOT TECHNOLOGY

  • 4.1. Military Robot Technology Enablers
    • 4.1.1. Military Robot Logistics
  • 4.2. MRAP ATV: Requirements and Contenders
  • 4.3. Military Robot Enabling Technology
  • 4.4. Intel Integrated Circuit Evidence-Based Innovation
    • 4.4.1. Open Robotic Control Software
    • 4.4.2. Military Robot Key Technology
    • 4.4.3. PC-Bots Visual Simultaneous Localization & Mapping
  • 4.5. Advanced Robot Technology: Navigation, Mobility, And Manipulation
    • 4.5.1. Robot Intelligence Systems
    • 4.5.2. Real-World, Dynamic Sensing
  • 4.6. User-Friendly Interfaces
    • 4.6.1. Tightly-Integrated, Electromechanical Robot Design
  • 4.7. Field Based Robotics Iterative Development
    • 4.7.1. Next-Generation Products Leverage Model
    • 4.7.2. Modular Robot Structure And Control
    • 4.7.3. Lattice Architectures
    • 4.7.4. Chain / Tree Architectures
    • 4.7.5. Deterministic Reconfiguration
    • 4.7.6. Stochastic Reconfiguration
    • 4.7.7. Modular Robotic Systems
  • 4.8. Intel Military Robot Cultivating Collaborations
  • 4.9. Hitachi Configuration Of Robots Using The SuperH Family
    • 4.9.1. Hitachi Concept of MMU And Logic Space
    • 4.9.2. Robotic Use of Solid State Thin Film Lithium-Ion Batteries
  • 4.10. Network Of Robots And Sensors
    • 4.10.1. Sensor Networks Part Of Research Agenda
    • 4.10.2. Light Sensing
    • 4.10.3. Acceleration Sensing
    • 4.10.4. Chemical Sensing
  • 4.11. Military Robot Technology Functions
  • 4.12. Carbon Nanotube Radio
  • 4.13. Military Robot Funded Programs
    • 4.13.1. Army Brigade Combat Team Modernization
    • 4.13.2. XM1216 Small Unmanned Ground Vehicle (SUGV)
    • 4.13.3. UUV Sub-Pillars
    • 4.13.4. Hovering Autonomous Underwater Vehicle (HAUV)
    • 4.13.5. Alliant
    • 4.13.6. ATSP is a Government-wide contracting vehicle
    • 4.13.7. Quick, efficient contracting vehicle
    • 4.13.8. Facilitates technology and insertion into fielded systems
    • 4.13.9. Access to all Northrop Grumman sectors
  • 4.14. iRobot Technology
    • 4.14.1. iRobot AWARE Robot Intelligence Systems
    • 4.14.2. iRobot Real-World, Dynamic Sensing.
    • 4.14.3. iRobot User-Friendly Interface
    • 4.14.4. iRobot Tightly-Integrated Electromechanical Design.
  • 4.15. Evolution Robotics Technology Solutions Evolution Robotics Example Applications
  • 4.16. Classes of Unmanned Ground Vehicles (UGVs)
    • 4.16.1. Armed Robotic Vehicle (ARV)
    • 4.16.2. US BCT Unmanned Ground Vehicle Funding
    • 4.16.3. Funding Military Robots in US for 2011
    • 4.16.4. US Army's BCT Modernization Program Funding
    • 4.16.5. Efforts to Mitigate The Improvised Explosive Device Threat To Dismounted Operations
    • 4.16.6. US Joint Improvised Explosive Device Defeat Organization
    • 4.16.7. Route Mapping
    • 4.16.8. Man-Packable SUGV
    • 4.16.9. Demilitarized Zone Between South and North Korea
    • 4.16.10. Chinese Military Robots
    • 4.16.11. Western Europe
    • 4.16.12. China & the Russian Federation
    • 4.16.13. Middle East
    • 4.16.14. India & Japan
    • 4.16.15. Australia & Canada

5. MILITARY ROBOTS COMPANY DESCRIPTION

  • 5.1. Allen Vanguard
    • 5.1.1. Allen Vanguard Rapid Development
  • 5.2. BAE Systems
  • 5.3. Boston Dynamics
  • 5.4. ECA Robotics
  • 5.5. Elbit Systems
    • 5.5.1. Elbit Systems Principal Market Environment
  • 5.6. G-NIUS
  • 5.7. General Dynamics
    • 5.7.1. Sequester Mechanism
    • 5.7.2. General Dynamics Revenue
    • 5.7.3. General Dynamics Robotic Systems
    • 5.7.4. General Dynamics Robotic Systems (GDRS) Vision
    • 5.7.5. General Dynamics Robotic Systems (GDRS) Manufacturing
    • 5.7.6. General Dynamics Autonomous Land And Air Vehicle Development
  • 5.8. ICOR Technology
  • 5.9. iRobot
    • 5.9.1. iRobot Home Robots:
    • 5.9.2. iRobot Defense and Security: Protecting Those in Harm's Way
    • 5.9.3. iRobot Role In The Robot Industry
    • 5.9.4. iRobot SPARK (Starter Programs for the Advancement of Robotics Knowledge)
    • 5.9.5. iRobot Revenue
    • 5.9.6. iRobot Acquires Evolution Robotics, Inc.
    • 5.9.7. iRobot / Evolution Robotics
  • 5.10. Kairos Autonami
    • 5.10.1. Kairos Autonomi Autonomy ROI
    • 5.10.2. Kairos Autonomi Upgrades Robot Conversion Kit
  • 5.11. Kongsberg
    • 5.11.1. Kongsberg Defence Systems Revenue
  • 5.12. Lockheed Martin
    • 5.12.1. Lockheed Martin Symphony Improvised Explosive Device Jammer Systems
    • 5.12.2. Lockheed Martin Aeronautics Revenue
    • 5.12.3. Lockheed Martin Electronic Systems
    • 5.12.4. Lockheed Martin
  • 5.13. Mesa Robotics
    • 5.13.1. Systems Development Division of Mesa Associates
    • 5.13.2. Mesa Robotics Affordable Robotic Solutions
    • 5.13.3. Mesa Robotics Revenue
  • 5.14. Northrop Grumman
    • 5.14.1. Northrop Grumman Revenue
    • 5.14.2. Northrop Grumman Remotec
    • 5.14.3. Northrop Grumman Leading Global Security Company
    • 5.14.4. Northrop Grumman Supplies Marine Navigation Equipment
    • 5.14.5. Northrop Grumman Recognized by UK Ministry of Defense for Role in Supporting Sentry AWACS Aircraft During Military Operations in Libya
    • 5.14.6. Northrop Grumman Corporation subsidiary Remotec Inc. upgrade the U.S. Air Force fleet of Andros HD-1
    • 5.14.7. Northrop Grumman NAV CANADA Supplier
  • 5.15. Pearson Engineering
  • 5.16. Pedsco
  • 5.17. QinetiQ
    • 5.17.1. QinetQ Comprised Of Experts
    • 5.17.2. QinetiQ North America TALON Detects Deadly IEDs And Saves Lives
    • 5.17.3. QinetiQ World-Leading Products:
    • 5.17.4. QinetiQ Innovation
    • 5.17.5. QinetiQ North America
    • 5.17.6. QinetiQ Revenue
    • 5.17.7. QinetiQ Vision
    • 5.17.8. QinetiQ Mission
    • 5.17.9. QinetiQ / Foster Miller
    • 5.17.10. QinetiQ / Foster Miller Financial Position
    • 5.17.11. QinetiQ North America Order for 100 Dragon Runner 10Micro Robots:
    • 5.17.12. QinetiQ / Automatika
    • 5.17.13. QinetiQ Customer Base 5.18 Re2, Inc
    • 5.18.1. Re Leading Developer
    • 5.18.2. Re2 Forerunner High Speed Inspection Robot
    • 5.18.3. Re2 ForeRunner RDV
    • 5.18.4. Re2 HST - High-Speed Teleoperation
  • 5.19. ReconRobotics
    • 5.19.1. ReconRobotics Tactical, Micro-Robot Systems
  • 5.20. Robosoft
  • 5.21. RoboteX
    • 5.21.1. RoboteX Avatar® Home & Office, A Personal Security Robot
    • 5.21.2. RoboteX Portable Reconnaissance
    • 5.21.3. RoboteX Avatar I Spec List:
    • 5.21.4. RoboteX Avatar I Use Cases:
  • 5.22. TechnoRobot
  • 5.23. Telerob
    • 5.23.1. Telerob
  • 5.24. Thales Group
    • 5.1.1. Thales Core Businesses
    • 5.1.2. Thales: - A Global Player
    • 5.1.3. Thales Revenue
    • 5.1.4. Thales Key Technology Domains
    • 5.1.5. Thales Open Research
    • 5.1.6. Thales Stance on Environment
    • 5.1.7. Thales Processes
    • 5.1.8. Thales Product Design
    • 5.1.9. Thales Site Management
    • 5.1.10. Thales Alenia Space Integration Of Service Module For The Fourth ATV
    • 5.1.11. Thales Sonar ‘Excels' In Anti-Submarine Warfare Exercise
    • 5.24.1. Thales Group Ground Alerter 10
    • 5.24.2. Thales Group Ground Master 400 (GM 400)
    • 5.24.3. Thales Group Ground Smarter 1000
    • 5.24.4. Thales Group
  • 5.25. Vecna Technologies
    • 5.25.1. Vecna Telemedicine
  • 5.26. Selected Military Robot Companies
    • 5.26.1. Selected Robot Companies

6. MILITARY ROBOT CONTRACTS

  • 6.1.1. SPAWAR
    • 6.1.2. Navy Explosive Ordnance Disposal
    • 6.1.3. Future Combat Systems Program Cuts
    • 6.1.4. U.S. Army Small Unmanned Ground Vehicle (SUGV)
  • 6.2. GCV Created Due To Termination Of The Future C ombat Systems And Its Former Manned Ground Vehicles
    • 6.2.1. Army To End Robotic Vehicle, Aircraft Efforts
    • 6.2.2. MULE Termination
    • 6.2.3. Armed Robotic Vehicle Assault (Light) Continuation
    • 6.2.4. Robotic Systems Chartered by JPO
    • 6.2.5. U.S. Army Small Unmanned Ground Vehicle
  • 6.3. Selected US 2012 Military Budget for Robotics
    • 6.3.1. Defense Advanced Research Projects Agency, DARPA Tactical Teams
  • 6.4. US Military Budget 2012
    • 6.4.1. Report on Deployment of Assets and Personnel to Libya
  • 6.5. Customers For Government Robotic Products, And Research And Development Contracts:
    • 6.5.1. General Dynamics Land Systems $24 Million Contract To Supply Commanders Remote Operated Weapons
    • 6.5.2. Kongsberg and General Dynamics co-producing CROWS and CROWS II
    • 6.5.3. General Dynamics Awarded $24 Million to Provide Remote Weapon Systems That Protect Tank Commanders
    • 6.5.4. Kongsberg
    • 6.5.5. Vulcan Unmanned Maritime Vehicle (UMV) And Unmanned Ground Vehicle (UGV) Programs
    • 6.5.6. DARPA End-To-End Unmanned Vehicle System Solution
    • 6.5.7. Unmanned Vehicles UMV and UGV Submarkets
    • 6.5.8. Allen-Vanguard Spares For Symphony Electronic Counter Measures (ECM) Program
  • 6.6. Military / Government and University Agencies
  • 6.7. Military Robots Contracts
    • 6.7.1. Talon
    • 6.7.2. American Reliance Solution Found for Battlefield Robot Control Problem
    • 6.7.3. QinetiQ NA Ships First-Responder Robots to Navy
    • 6.7.4. iRobot Wins $60M Army Contract to Develop Warrior Robot
    • 6.7.5. iRobot Wins $286 Million U.S. Army Contract
    • 6.7.6. Counter Radio-Controlled Improvised Explosive Device Electronic Warfare Spiral 3 systems ("CREW3"
    • 6.7.7. U.S. Army Has Agreed To Buy Up To 7,500 Electronic Bomb Jammer Systems From Its Partner Lockheed Martin Allen-Vanguard
    • 6.7.8. Jan. 31, 2008 Allen-Vanguard Confirms U.S. Department of Defense Intent To Establish an IDIQ Contract For Up to 7,500 Symphony IED Countermeasure Systems
    • 6.7.9. iRobot
    • 6.7.10. iRobot Order for Six Seagliders™ from the niversity of Western Australia
    • 6.7.11. iRobot Corp. (Nasdaq: IRBT) Order Totaling $16.8 million from the U.S. Army Program Executive Office for Simulation, Training, and Instrumentation (PEO STRI)
    • 6.7.12. General Dynamics Combat Autonomous Mobility System (CAMS)
    • 6.7.13. Robotic Technology Robot

List of Tables and Figures

Military Robot Systems of Engagement Executive Summary

  • Table ES-1: Military Robotics Market Factors
  • Table ES-2: Military Robot Functions
  • Table ES-3: Military Robots Market Driving Forces
  • Figure ES-4: Military Ground Robot Market Shares, Dollars, Worldwide, 2012
  • Figure ES-5: QinetQ TALON
  • Figure ES-6: Military Ground Robot Market Forecasts, Shipments, Dollars, Worldwide, 2013-2019

Military Robot Systems of Engagement Market Description and Market Dynamics

  • Figure 1-1: US Unmanned Vehicle Ground Domain Performance
  • Table 1-2: US Military Modernization Equipment Priorities, 2012
  • Figure 1-3: Cultural and Military Structural Issues
  • Figure 1-4: Shift From Manned Combatant Role to Unmanned Autonomous Systems
  • Figure 1-5: Army Agile Process
  • Figure 1-6: US Army Modernization 2012
  • Figure 1-6: US Army and Navy Budget Requests
  • Table 1-7: US Army Reforming Defense Acquisition US Army Reducing Ground Forces by 2016
  • Table 1-8: US Army Reducing Ground Forces by 2016
  • Table 1-9: Military Robot Applications
  • Table 1-9 (Continued): Military Robot Applications
  • Table 1-10: Military Armed Robotic Applications
  • Table 1-11: What the Soldier Wants In Robotic Systems
  • Figure 1-12: Telerob Explosive Observation Robot and Ordnance Disposal Unit
  • Figure 1-13: Telerob Explosive Ordnance Disposal EOD System For Operation In Confined Areas
  • Figure 1-14: QinetiQ North America TALON® Robots Universal Disruptor Mount (UDM)
  • Figure 1-15: Next-Generation General Dynamics
  • Figure 1-16: US Army UGV Roadmap RS-JPO Structure
  • Table 1-17: Definition of Military Robots:

Military Robot Systems of Engagement Market Shares and Market Forecasts

  • Table 2-1: Military Robotics Market Factors
  • Table 2-2: Military Robot Functions
  • Table 2-3: Military Robots Market Driving Forces
  • Figure 2-4: Military Ground Robot Market Shares, Dollars, Worldwide, 2012
  • Table 2-5: Military Ground Robot Market Shares, Dollars, Worldwide, 2012
  • Figure 2-6: Northrop Grumman Mini-ANDROS II
  • Table 2-7: Northrop Grumman Mini Andros II Features
  • Figure 2-8: Northrop Grumman Remotec HD-1
  • Figure 2-9: General Dynamics TAC-C Robot
  • Figure 2-10: Next-Generation General Dynamics Robots
  • Table 2-11: General Dynamics Near Autonomous Unmanned Systems (NAUS) - Advanced Technology Objective (NAUS-ATO)
  • Table 2-12: iRobot 510 PackBot for EOD Conventional Ordnance and SWAT Missions
  • Figure 2-13: QinetQ TALON
  • Figure 2-14: BAE Systems Electronic Bugs
  • Figure 2-15: Military Ground Robot Market Forecasts, Shipments, Dollars, Worldwide, 2013-2019
  • Table 2-16: Military Ground Robot Market Forecasts, Shipments, Dollars, Worldwide, 2013-2019
  • Table 2-17: Mini and Small Military Ground Robot Market Forecasts Units and Dollars, Worldwide, 2013-2019
  • Figure 2-18: Mid Size Military Ground Robot Market Forecasts Units and Dollars, Worldwide, 2013-2019
  • Table 2-19: Larger Military Ground Robot Market Forecasts Units and Dollars, Worldwide, 2013-2019
  • Table 2-20: Unmanned Ground Systems Roadmap
  • Figure 2-21: US Army Modernization Positioning
  • Figure 2-22: Super Soaker vs. R.C. Glider
  • Figure 2-23: Mission Specific Military Robot Unmanned Systems by Weight Class
  • Figure 2-24: Unmanned Ground Systems US Army Priority Roadmap
  • Figure 2-24a: Unmanned Ground Systems US Army Appropriations Budget Activity Through 2016
  • Figure 2-25: Unmanned Ground Systems US Army Appropriations SUGV Budget Activity Timeline 2013
  • Table 2-26: Military Robots Light
  • Table 2-27: Military Robots Medium Large
  • Table 2-28: Military Unmanned Ground Vehicles Heavy
  • Table 2-29: Military Unmanned Ground Vehicles Large
  • Figure 2-30: Mission Specific Military Unmanned Ground Vehicles by Weight Class
  • Table 2-31: Military Robots Definitions of Systems By US Army UGV Roadmap
  • Figure 2-32: Military Ground Robots In Inventory: US
  • Figure 2-33: Military Ground Robots to Purchase: US
  • Figure 2-34: US Military Services Savings Categories
  • Figure 2-35: Military Robot US Liaison Officers
  • Table 2-36: Tiers of US Army UGVs
  • Figure 2-37: US Robot Systems Associated with Force Application
  • Table 2-38: Use of Robots for Protection
  • Table 2-39: US Army Robot Systems Associated with Protection
  • Table 2-40: Named Unmanned Systems Associated with Force Support and Command and Control
  • Table 2-41: Named Unmanned Systems Associated with Force Support
  • Figure 2-42: Robots Associated with Net Centric Systems
  • Figure 2-43: Robot Systems Associated with Battle Space Awareness
  • Figure 2-44: Robot Systems Associated with Battle Space Awareness
  • Figure 2-45: Military Ground Robot Regional Market Segments, Dollars, 2012
  • Table 2-46: Military Ground Robot Regional Market Segments, 2012
  • Table 2-47: Military Ground Robot Installed Base and Shipments Market Forecasts, Units, Worldwide, 2013-2019

Military Robot Systems of Engagement Product Description

  • Figure 3-1: iRobot 510PackBot for EOD Technicians
  • Table 3-2: iRobot 510 PackBot for EOD Conventional Ordnance and SWAT Missions
  • Figure 3-3: iRobot® PackBot® 510 for Infantry Troops
  • Figure 3-4: iRobot® PackBot® 510 for Combat Engineers
  • Table 3-5: iRobot 510 PackBot for Combat Engineers Tasks
  • Figure 3-6: iRobot® 710 Warrior™
  • Table 3-7: iRobot® 710 Warrior™ Uses
  • Figure 3-8: iRobot® 110 FirstLook®
  • Figure 3-9: iRobot® 110 Small, Light And Throwable FirstLook® Uses
  • Figure 3-10: iRobot® SUGV
  • Figure 3-11: iRobot® SUGV Uses
  • Figure 3-12: iRobot® 1KA Seaglider™
  • Figure 3-13: iRobot® 1KA Seaglider ® Uses
  • Figure 3-14: Northrop Grumman Mini-ANDROS II
  • Table 3-15: Northrop Grumman Mini Andros II Features
  • Figure 3-16: Northrop Grumman Mini Andros II
  • Figure 3-17: Northrop Grumman ANDROS Hazmat
  • Figure 3-18: Northrop Grumman Andros In the Military Street
  • Figure 3-19: Northrop Grumman Andros In the Military Field
  • Table 3-20: General Dynamics GDRS Functions Needed To Perform A Variety Of Military, Government And Civilian Missions
  • Table 3-21: General Dynamics Autonomous Systems Implementation Functions
  • Table 3-22: General Dynamics Military Robots Functions
  • Table 3-23: General Dynamics Military Robot Positioning
  • Table 3-24: General Dynamics Military Warfighter Support
  • Table 3-25: General Dynamics MDARS Features:
  • Figure 3-26: Kongsberg Protector Remote Weapon Station
  • Figure 3-27: Kongsberg CORTEX
  • Figure 3-28: BAE Systems Electronic Bugs
  • Figure 3-29: BAE Systems Remote Military Land Vehicles
  • Table 3-30: QinetiQ TALON Product Line Specific Task Expansion
  • Figure 3-31: QinetQ TALON
  • Table 3-32: QinetiQ North America's TALON® Family Of Robots Features
  • Table 3-33: QinetiQ North America's TALON® Family Of Robots Target Markets
  • Table 3-34: QinetiQ North America's TALON® Family Of Robots Mission Positioning
  • Table 3-35: QinetiQ TALON Product Line
  • Table 3-36: QinetiQ TALON Expertise in Action
  • Figure 3-37: QinetQ Modular Advanced Armed Robotic System
  • Figure 3-38: QinetQ Raider I Engineer
  • Table 3-39: QinetQ Raider I Engineer Mission
  • Figure 3-40: QinetQ Raider II
  • Figure 3-41: QinetiQ IED Defeat/Combat Engineer Vehicle
  • Table 3-42: QinetiQ Spartacus Diesel-Powered Loader Mission
  • Figure 3-43: QinetQ U.S. Army REF Minotaur
  • Table 3-44: QinetiQ North America's Tactical Robot Controller (TRC) Features
  • Table 3-45: Telerob's Key Product Areas
  • Figure 3-46: Telerob Heavy-Duty EOD Robot Product
  • Figure 3-47: Telerob TeleMAX Small Bomb Disposal EOD Heavy-Duty Robots
  • Figure 3-48: Telerob teleMAX
  • Figure 3-49: Telerob Bomb Disposal Vehicles
  • Figure 3-50: Telerob Bomb Disposal Vehicle Interior
  • Figure 3-51: Allen Vanguard Beetle Nano UGV
  • Table 3-52: Allen Vanguard Beetle Nano UGV Features
  • Figure 3-53: Allen Vanguard Armadillo Micro UGV
  • Table 3-54: Allen Vanguard Armadillo Micro UGV Features
  • Figure 3-55: Allen Vanguard Scorpion Small UGV
  • Table 3-56: Allen Vanguard Scorpion Small UGV Functions
  • Figure 3-57: Allen Vanguard Digital Vanguard ROV
  • Table 3-58: Allen Vanguard Digital Vanguard Controller Functions
  • Table 3-59: Allen Vanguard Digital Vanguard Controller Features
  • Figure 3-60: Allen Vanguard Defender ROV
  • Table 3-61: Allen Vanguard Defender ROV Functions
  • Figure 3-62: Boston Dynamic LS3
  • Figure 3-63: Boston Dynamic CHEETAH
  • Figure 3-64: Boston Dynamic Atlas
  • Figure 3-65: Boston Dynamic BigDog
  • Figure 3-66: Boston Dynamics LittleDog
  • Figure 3-67: Boston Dynamics PETMAN
  • Figure 3-68: Boston Dynamics RHex
  • Figure 3-69: Boston Dynamics RiSE: Vertically Climbing Robot
  • Figure 3-70: Boston Dynamics SquishBot
  • Figure 3-71: Kairos Pronto4 Agnostic Autonomy System for Existing Vehicles or Vessels
  • Figure 3-72: Kairos Autonami Pronto4 zSOlution For Truck
  • Table 3-73: Kairos Autonami Software Features:
  • Figure 3-74: Mesa Robotics MATILDA II
  • Table 3-75: Mesa Robotics MATILDA II Functions
  • Figure 3-76: Mesa ACER
  • Table 3-77: Mesa Robotics ACER Functions
  • Figure 3-78: Lockheed Martin SMSS
  • Table 3-79: Lockheed Martin Squad Mission Support System SMSS Uses
  • Table 3-80: Thales Group Mini UAV and UGVs Main characteristics
  • Table 3-81: G-NIUS Unmanned Ground Systems (UGS) LTD Technology
  • Table 3-82: G-NIUS Unmanned Ground Systems (UGS) LTD Appositions
  • Figure 3-83: G-NIUS Avantguard MK II
  • Table 3-84: G-NIUS Guardium MK I
  • Figure 3-85: G-NIUS Guardium MK II
  • Figure 3-86: G-NIUS Guardium MK III
  • Table 3-87: G-NIUS Guardium MK III Capabilities
  • Table 3-88: G-NIUS Guardium MK III Advanced Technology
  • Figure 3-89: ICOR Technology MK3 Caliber
  • Figure 3-90: Icor CALIBER® T5
  • Figure 3-91: Icor Mini-CALIBER®
  • Figure 3-92: Icor MICRO-CALIBER® Rapid Response
  • Figure 3-93: Pedsco RMI-9WT
  • Table 3-94: Pedsco RMI-9WT FEATURES:
  • Figure 3-95: Pedsco RMI-9XD
  • Table 3-96: Pedsco RMI-9XD Features:
  • Figure 3-97: Pedsco RMI-10F
  • Table 3-98: Pedsco RMI-10F FEATURES:
  • Figure 3-99: Robosoft robuROC
  • Figure 3-100: ECA Robotics CAMELEON EOD
  • Table 3-101: ECA Robotics CAMELEON EOD Mission Types
  • Figure 3-102: ECA Robotics CAMELEON CRBN
  • Figure 3-103: ECA Robotics COBRA MK2
  • Figure 3-104: ECA Robotics COBRA Missions
  • Figure 3-105: ECA Robotics EOD MAMBA Vehicle
  • Table 3-106: ECA Robotics EOD MAMBA Functions
  • Figure 3-107: ECA Robotics TSR 202
  • Figure 3-108: Recon Robotics Recon Scout IR
  • Figure 3-109: Recon Robotics Recon Scout XL
  • Figure 3-110: Recon Robotics Throwbot XT
  • Figure 3-111: Carnegie Mellon University Crusher
  • Table 3-112: Carnegie Mellon University TUGV

Military Robot Systems of Engagement Technology

  • Figure 4-1: Military Robot Technology Enablers
  • Table 4-2: Military Robot Technology Characteristics
  • Figure 4-3: Military Ground Robot Technology Enablers
  • Table 4-4: US Army Military Robot Logistics Positioning
  • Figure 4-5: Robot Systems Associated with Force Application Description
  • Figure 4-6: Robotic Performance Characteristics
  • Table 4-7: Military Robotics Enabling Technology
  • Table 4-8: Military Robots Development Challenges
  • Table 4-9: Military Robot Integrated Circuit-Based Innovation Functions
  • Table 4-10: Military Robot Key Technology
  • Table 4-11: Robot Communications Key Technology
  • Table 4-12: Military Robot Key Navigation Technologies
  • Table 4-13: Human-Robot Interaction
  • Table 4-14: Visual Simultaneous Localization & Mapping Functions Relevant to Robotics
  • Figure 4-15: Hitachi Modular Robot Configuration
  • Table 4-16: Military Robot Key Product Technology Factors
  • Table 4-16 (Continued): Military Robot Key Product Technology Factors
  • Table 4-17: Military Robot Technology Functions
  • Table 4-17 (Continued): Military Robot Technology Functions
  • Table 4-18: Missions (UUV “Sub-Pillars”) In Priority Order
  • Figure 4-19: UUVMP Vision
  • Table 4-20: Alliant Features:
  • Table 4-20 (Continued): Alliant Features:
  • Figure 4-21: Evolution Robotics Technology Solutions
  • Figure 4-22: Evolution Robotics Object Recognition
  • Table 4-23: Evolution Robotics Applications

Military Robot Systems of Engagement Company Profiles

  • Figure 5-1: Allen Vanguard Threat Intelligence
  • Table 5-2: Allen-Vanguard R&D Team Mandate:
  • Table 5-3: : Allen-Vanguard Scientific And Engineering Topics Researched and Developed
  • Table 5-4: Allen-Vanguard R&D Fundamental Research
  • Table 5-5: Allen-Vanguard R&D Engineers And Scientists Comprehensive Research
  • Table 5-6: BAE Systems Standards
  • Figure 5-7: BAE Systems Revenue in Defense Market
  • Table 5-8: ECA Robotics Range Of Products
  • Table 5-9: Elbit Systems Activities:
  • Table 5-11: G-NIUS Unmanned Ground Systems (UGS) Solutions
  • Figure 5-12: Lockheed Martin Segment Positioning
  • Table 5-13: Lockheed Martin's operating units
  • Figure 5-14: Lockheed Martin Aeronautics Segment Positioning
  • Figure 5-15: Lockheed Martin Aeronautics Segment Portfolio
  • Figure 5-16: Lockheed Martin Aeronautics C130 Worldwide Airlift
  • Figure 5-17: Lockheed Martin Aeronautics Falcon Fighter
  • Figure 5-18: Lockheed Martin Electronic Systems Portfolio
  • Table 5-20: Mesa Robotics Technical Experience
  • Table 5-21: Northrop Grumman Partner Of Choice
  • Figure 5-22: Northrop Grumman Systems Segments
  • Figure 5-23: Northrop Grumman Portfolio
  • Table 5-24: QinetiQ Vision
  • Figure 5-25: QinetiQ Dragon Runner Urban Operations Rugged Ultra-Compact, Lightweight And Portable Reconnaissance Robot
  • Table 5-26: QinetiQ Customer Base
  • Figure 5-27: Re Core Technologies
  • Figure 5-28: Re Unmanned Ground Vehicles
  • Figure 5-29: Re Forerunner Key Features
  • Figure 5-30: Re2 Open Architecture for Robots
  • Figure 5-31: Robosoft Unmanned Ground robots, For Security, Transport, Cleaning, Healthcare And Research
  • Figure 5-32: Robotex Avatar I Tactical Robot Unmanned Ground Robots
  • Figure 5-33: Robotex Unmanned Ground Robots
  • Figure 5-34: Robotex Avatar II Tactical Robot
  • Table 5-35: RoboteX Portable Reconnaissance Controls
  • Table 5-36: RoboteX Avatar I Use Cases:
  • Figure 5-37: Technorobot
  • Figure 5-38: Technorobot Collaborations
  • Table 5-39: Thales Key Technology Domains
  • Figure 5-40: Thales Measurable Environmental Targets
  • Figure 5-41: Thales Group GROUND Master 400
  • Table 5-42: Thales Group GROUND Master 400 Key Features:
  • Table 5-43: Thales Group Ground Smarter 1000 Key Features:
  • Figure 5-44: Thales Critical Decision Chain
  • Figure 5-45: Vecna Hospital Delivery Bot
  • Figure 5-46: Vecna Robotics: HG2
  • Table 5-47: Vecna Technologies hydraulic end effector Specifications
  • Figure 5-48: Vecna Telemedicine

Military Robot Contracts

  • Table 6-1: Military Robot Research and Development Projects
  • Figure 6-2: iRobot Government Agencies Served
  • Figure 6-3: Lockheed Martin Multifunction Utility Logistics Equipment UGV -- MULE
  • Figure 6-4: JPO Robotic Systems
  • Figure 6-5: Army Modernization Aims
  • Table 6-6: Unmanned Vehicles UMV and UGV Submarkets
  • Table 6-7: Unmanned Ground Vehicles (UGVs) Leading Technologies And Subsystems
  • Table 6-8: UUV Programmes
  • Table 6-9: Military / Government and University Agencies
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