全球的第一應變人員用機械人市場：市場佔有率・策略・預測分析（2010-2016年）

本報告已在2012年05月23日停止出版。

更改為出版

First Responder, Border Patrol, Homeland Security, Law Enforcement, and Security Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2012 to 2018

出版日期 : 2012年05月

商品編碼: 241569

簡介

本報告書內容包括:全球的第一應變（初期應對）部門機器人市場的調查分析、產品種類（大型・中型・小型））・消費者（國土安全保障・法律實行・災害援助・消防）部門・各地區的市場規模實際業績・預測（∼2016年）、主要製造業者的市場佔有率、產品概要、相關技術、主要企業的介紹等、內容綱要摘記如下:

實施摘要

第1章 第一應變用機器人：市場概要・市場力學

• 第一應變
• 第一應變用機器人的國境警備
• 提供戰鬥部隊機器人的能力
• 軍事機器人的範圍
• 軍事機器人的形式
• UGV的實現技術
• 軍事機器人的地區
• SUGV

第2章 第一應對用機器人：市場佔有率・市場預測

• 第一應對・國土安全保障・法律執行用機器人的市場：成長因素
• 國土安全保障的法律執行和第一應對用陸上機器人：市場佔有率
• 國土安全保障的法律執行和第一應對用陸上機器人：市場預測
• 第一應對用機器人：反恐攻擊的對策
• 全球的第一應對用機器人的市場預測：各區分
• 針對反恐警察的動作：新的全球經濟中戰爭的替代品
• 軍事機器人的地區市場分析

第3章 第一應對及國土安全保障的機器人產品概要

• 第一應對：國家的警察組織和機器人的特殊機能
• iRobot
• Northrop Grumman
• General Dynamics
• Kongsberg
• BAE Systems
• Lockheed Martin
• QinetiQ North America TALONR robots
• Telerob
• Versa / Allen Vanguard
• Boston Dynamics
• Robotic Technology
• 富士通服務機器人、等

第4章 第一應對用機器人的技術

• 第一應對用機器人的實現技術
• 高度機器人技術：導航・行動力・操作
• 易於親近的介面
• 日立的SuperH家族的機器人結構
• 機器人・感應器網路
• 軍事用機器人技術的機能
• 奈米碳管收音機
• 軍事用機器人的資金支援計畫、等

第5章 第一應對用機器人相關企業介紹

圖表

目錄

Abstract

LEXINGTON, Massachusetts (January 22, 2010) - WinterGreen Research announces that it has a new study on first responder, law enforcement, and homeland security ground robots. The 2010 study has 460 pages, 165 tables and figures.

Worldwide markets are poised to achieve significant growth as the first responder and homeland security ground robots are used globally. Growth comes as the border patrols and law enforcement agencies use robots to achieve broader security in a less expensive manner, delivering the promise of automated process in yet another industry. First responder robots bring changes in every region while the globally integrated enterprise replaces nationalistic dominance, creating broader cooperative police actions that replace nationalistic wars. These police actions are aimed against the bad guys.

This cost is creating resistance among the agencies to spend such a large amount for what is seen as a device that gives little return in comparison to what a person can do all year. Costs of robots are expected to decrease rapidly in the next year, creating a much larger market than exists now. The current market at $203 million does provide a significant base for solid growth.

Vendors of homeland security and first responder robots have positioned to provide common framework through which federal, state, local, and tribal governments can address emergencies. US federal first responder agencies are negotiating agreements with state and local government law enforcement groups to share equipment. First responder robots cost $50,000 and up, the cost of a person for one year. Whereas a person can patrol and investigate, a first responder robot able to sniff for explosives is not justified in high quantity. .a few shared units go a long way in detecting explosives. - The challenge for vendors is to find applications where the robot is used 24x7 365 days per year. Then there is payback.

An exception is an airport and a border patrol crossing point where there is continuous need to sniff for explosives.

First responder and homeland security robots are useful as patrol units. Just as foot police and patrol cars look for dangerous situations, so also a first responder robot can patrol an area with cameras and chemical sensors.

First responder and homeland security robot automation of the defense process is the next wave of first responder and homeland security evolution. As automated systems and networking complement the Internet , communication is facilitated on a global basis. The first responder and homeland security charter is shifting to providing protection against terrorists and people seek to maintain a safe, mobile, independent lifestyle. Much of the first responder and homeland security mission is moving to adopt a police force training mission, seeking to achieve protection of civilian populations on a worldwide basis.

According to Susan Eustis, the lead author of the study, "the purchase of First responder and homeland security Robots s is dependent on budget constraints. The use of First responder and homeland security Robots s is based on providing a robot that is less expensive to put in the field than a trained soldier. That automation of process has appeal to those who run the first responder and homeland security.

Robots are automating first responder and homeland security ground systems, permitting vital protection of police officers and people in the field, creating the possibility of reduced fatalities in this profession. Mobile robotics operate independently of the operator.

The innovation coming from all the vendors is astounding. No one innovation is more significant than another. One vendor, BAE Systems has an ant size robot useful for reconnaissance and networking robots in development. As soldiers take up secure positions behind a wall, they deploy a small reconnaissance team. The initial deployment is poised to be a very, very small reconnaissance team. Some hopping, some flying, the stealthy autonomous reconnaissance squad vanishes into suspicious building for several minutes, then relays the all-clear back to its partners outside when that is the case.

Multiple technological, logistical, political and market forces share a quantum singularity that has brought mobile robotics to the point where robots are useful to every arm of the first responder and homeland security services. This is a phenomenon that will have a major impact on the way we run the first responder and homeland security and police.

Use of remote-control toys in Iraq started as improvised robots to check out possible roadside bombs. There has since been a flurry of activity on the robotic explosive ordnance disposal (EOD) front since that early beginning. Deliveries of smaller and cheaper Bots are anticipated.

The emergence of a market for intelligent, mobile robots for use in the field and the confined areas of city fighting presents many opportunities. Units used in public spaces and on the border create a better, more flexible, more cost efficient first responder and homeland security.

Technology is used to actuate the disparate robot types. Core robotics research and advances in robotic technology can be applied across a variety of robotic form factors and robotic functionality. Advances feed on and off of each other. With each new round of innovation, a type of technological cross pollination occurs that improves existing robotic platforms and opens up other avenues where intelligent mobile robots can be employed, effectively creating new markets.

Roboticists are more advanced in their training and in the tools available to create units. First responder and homeland security robots have evolved from units used in the field to manage different situations that arise. Robots save lives.

Robotic security systems have an emphasis on causality reduction during law enforcement activities. This has resulted in investment in robotics technology that useful. Robotic research is on the fast track for government spending.

First responder and homeland security ground robot market forecast analysis indicates that vendor strategy is to pursue developing new applications that leverage leading edge technology. Robot solutions are achieved by leveraging the ability to innovate, to bring products to market quickly. First responder and homeland security purchasing authorities seek to reduce costs through design and outsourcing.

Vendor capabilities depend on the ability to commercialize the results of research in order to fund further research. Government funded research is evolving some more ground robot capability.

Table of Contents

First Responder Robots Executive Summary

• First Responder Robot Executive Summary
• First Responder, Homeland Security, and Law Enforcement
• Robots Market Driving Forces
  • Homeland Security And Police Ground Robots
  • Robots Operate Independently
• Homeland Security Law Enforcement And First Responder
• Ground Robots Market Shares
• Homeland Security Law Enforcement And First Responder
• Ground Robots Market Forecasts

First Responder Robots Market Description And Market Dynamics

1. First Responder Robots Market Description and Market Dynamics

• 1.1 First Responders
  • 1.1.1 First Responder Need for Robots
• 1.2 First Responder Robot Border Patrol
  • 1.2.1 Border Patrol and Homeland Security
• 1.3 Delivering Robotic Capabilities to Combat Teams
• 1.4 Military Robot Scope
  • 1.4.1 Military Robot Applications
• 1.5 Army' s G8 Futures office
  • 1.5.1 Delivering Capabilities to the Army' s Brigade Combat Teams
  • 1.5.2 Transition Between The Current Market And Where The Market Is Going
  • 1.5.3 Different Sizes of UGVs
• 1.6 Types of Military Robots
  • 1.6.1 Telerob Explosive Observation Robot and Ordnance Disposal
  • 1.6.2 QinetiQ North America TalonR Robots Universal Disrupter Mount
  • 1.6.3 General Dynamics Next-Generation CROWS II Increases Soldiers Safety
  • 1.6.4 Soldier Unmanned Ground Vehicle from iRobot
• 1.7 UGV Enabling Technologies
  • 1.7.1 Sensor Processing
  • 1.7.2 Machine Autonomy
• 1.8 Military Robot Bandwidth
  • 1.8.1 UGV Follow-Me Capability
  • 1.8.2 Communications Bandwidth
  • 1.8.3 Battery Power
  • 1.8.4 Combination Of Batteries Linked To Onboard Conventional Diesel
• 1.9 SUGVs
  • 1.9.1 Mid-Size Category UGV
  • 1.9.2 Large UGV
  • 1.9.3 U.S. Army Ground Combat Vehicle
  • 1.9.4 TARDEC
  • 1.9.5 Tacom

First Responder Robots Market Shares And Market Forecasts

2. First Responder Robot Market Shares and Forecasts

• 2.1 First Responder, Homeland Security, and Law Enforcement Robots Market Driving Forces
  • 2.1.1 Homeland Security And Police Ground Robots
  • 2.1.2 Robots Operate Independently
• 2.2 Homeland Security Law Enforcement And First Responder Ground Robots Market Shares
• 2.3 Homeland Security Law Enforcement And First Responder Ground Robots Market Forecasts
  • 2.3.1 Small First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016
  • 2.3.2 Mid Size First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016
  • 2.3.3 Communications And Collaboration Support Convergence To Enable First Response
• 2.4 Building a Culture of Preparedness
  • 2.4.1 Military and First Responder Robot Market Forecasts
• 2.5 First Responder Robots Prevent And Disrupt Terrorist Attacks
  • 2.5.1 Robots Emerge As Part Of Critical Security and Emergency Response Infrastructure
  • 2.5.2 First Responder Robot Platforms, Cameras, Grippers, And Sensor Combinations
• 2.6 Worldwide First Responder Robot Market Forecasts, Segments
• 2.7 Police Actions Against Terrorists Replace Wars In The New Global Economy
  • 2.7.1 First Responder Large Vehicle Robots For Challenging Missions
  • 2.7.2 QinetiQ' s / Foster-Miller TalonR First Responder Robot
  • 2.7.3 Telerob Sensor Platform
  • 2.7.4 Small, Maneuverable First Responder Robots
  • 2.7.5 iRobot PackBot Scout
  • 2.7.6 iRobot PackBot Explorer
  • 2.7.7 QinetiQ North America' s Dragon Runner Robot Delivered to Mesa AZ SWAT Team
  • 2.7.8 Application Scope
  • 2.7.9 U.S. Military Robots Key to Iraq Surge Success
• 2.8 Military Robot Regional Market Analysis
  • 2.8.1 iRobot Geographic Information

First Responder Robots Product Description

3. First Responder and Homeland Security Robots Product Description

• 3.1 First Responder County Police Organization Robot Specialized Functions
  • 3.1.1 Northrop Grumman Andros Remotec
  • 3.1.2 QinetiQ Foster-Miller Thermal Camera Enhancement Kits (Teks) For TalonR Robots
  • 3.1.3 Foster-Miller TEK-1
  • 3.1.4 Foster-Miller TEK-2
  • 3.1.5 QinetiQ Foster-Miller Scraper
  • 3.1.6 QinetiQ Foster-Miller Blade
  • 3.1.7 TALONR Robots: TALON SWAT/MP
  • 3.1.8 Using TALON SWAT/MP on a County Deputy Call
  • 3.1.9 QinetiQ Foster-Miller Ski
  • 3.1.10 QinetiQ Foster-Miller TALON Partnership with Ahura Scientific Field- Deployed Analytical Instruments
  • 3.1.11 QinetiQ Foster-Miller TALONR Tailored to First Responders
• 3.2 iRobot
  • 3.2.1 iRobotR PackBotR 510 with EOD Kit
  • 3.2.2 iRobotR PackBotR 510 with First Responder Kit
  • 3.2.3 iRobotR Warrior"! 700
  • 3.2.4 iRobotR PackBotR 500 with RedOwl Sniper Detection Kit
  • 3.2.5 iRobotR PackBotR 510 with FasTac Kit
  • 3.2.6 iRobotR PackBotR 500 with ICx FidoR Explosives Detection Kit
  • 3.2.7 iRobotR PackBotR 510 with HAZMAT Detection Kit
  • 3.2.8 iRobotR SeaGlider iRobotR SeaGlider
  • 3.2.9 iRobotR Ranger iRobotR Ranger
  • 3.2.10 iRobot Aware 2.0 Robot Intelligence Software
• 3.3 Northrop Grumman
  • 3.3.1 Andros HD-1 : Compact, Lightweight Platform
  • 3.3.2 Northrop Grumman Vehicle Data / Communication Links
  • 3.3.3 Northrop Grumman F6A - Versatile Platform
  • 3.3.4 Northrop Grumman Vehicle Data / Communication Links
  • 3.3.5 Northrop Grumman Mark V-A1 - Highly Versatile, Robust, All-Terrain Platform 37
  • 3.3.6 Northrop Grumman V-A1 Features
  • 3.3.7 Northrop Grumman Vehicle Data / Communication Links
  • 3.3.8 Northrop Grumman Mini-ANDROS II - Compact, Capable, Two-Man- Portable Platform
  • 3.3.9 Northrop Grumman Mini Andros II Features
  • 3.3.10 Northrop Grumman Vehicle Data / Communication Links
  • 3.3.11 Northrop Grumman Wolverine - Outdoor, All-Terrain Workhorse
  • 3.3.12 Northrop Grumman Wolverine
  • 3.3.13 Northrop Grumman Vehicle Data / Communication Links
• 3.4 General Dynamics
  • 3.4.1 General Dynamics Next-Generation CROWS II Increases Soldiers Safety 48
• 3.5 Kongsberg
  • 3.5.1 Kongsberg CrowsII Military Robot System
  • 3.5.2 Kongsberg Addresses Underwater Diver Incursion
  • 3.5.3 Kongsberg Norwegian Mine Reconnaissance Program
• 3.6 BAE Systems
  • 3.6.1 BAE Systems Ant Size Robot
  • 3.6.2 BAE Personal Robots
  • 3.6.3 BAE Systems Large UGV
• 3.7 Lockheed Martin
  • 3.7.1 Lockheed Martin Multifunction Utility/Logistics and Equipment Vehicle (MULE)
  • 3.7.2 Lockheed Martin Large NUWC Manta UUV
  • 3.7.3 Lockheed Martin Large NUWC Manta UUV For The Offshore Oil Industry61
  • 3.7.4 Lockheed Martin AN/WLD-1 Remote Minehunting System (RMS)
• 3.8 QinetiQ North America TALONR Robots
  • 3.8.1 QinetiQ North America TalonR Robots Universal Disrupter Mount
  • 3.8.2 Qinetiq / Foster-Miller
  • 3.8.3 Foster-Miller TALON Family of Military Robots
  • 3.8.4 Foster-Miller New: Two-Way Hailer
  • 3.8.5 Foster-Miller TALON Responder
  • 3.8.6 Foster-Miller EOD Robots
  • 3.8.7 Foster-Miller SWORDS Robots
  • 3.8.8 Foster-Miller CBRNE/Hazmat Robots
  • 3.8.9 Foster-Miller TALON SWAT/MP
  • 3.8.10 Foster-Miller MAARS Robot
  • 3.8.11 Foster-Miller Dragon Runner Field Transformable SUGV
  • 3.8.12 Foster Miller TALON GEN IV Engineer
  • 3.8.13 Foster Miller TAGS-CX Unmanned Vehicle
  • 3.8.14 QinetiQ TAGS-CX Unmanned Vehicle
  • 3.8.15 Combat Engineer Route Clearance Robot
  • 3.8.16 Talon MAARS"! Robots
• 3.9 Telerob
  • 3.9.1 Telerob - EOD / IEDD Equipment, EOD Robots and Vehicles
  • 3.9.2 Telerob TEODor Heavy Duty ExplosiveOrdnance Disposal (EOD) Robot
  • 3.9.3 Telerob Telemax High-Mobility EOD Robot
  • 3.9.4 Telerob EOD / IEDD Service Vehicles
• 3.10 Versa / Allen Vanguard
  • 3.10.1 Allen Vanguard VANGUARDR ROV
  • 3.10.2 Allen Vanguard Defender Robot/ROV
  • 3.10.3 Allen Vanguard ROV-Track CBRNE
• 3.11 Boston Dynamics
  • 3.11.1 Boston Dynamic LittleDog - The Legged Locomotion Learning Robot
  • 3.11.2 Boston Dynamic PETMAN - BigDog gets a Big Brother
  • 3.11.3 Boston Dynamic RHex Devours Rough Terrain
  • 3.11.4 Boston Dynamic RiSE: Climbing Robot
• 3.12 Robotic Technology
  • 3.12.1 RTI Military Memetics (Information Propagation, Impact, and Persistence - Info PIP) Project
  • 3.12.2 RTI Humanoid And Legged Robots
• 3.13 Fujitsu Service Robot (enon)
• 3.14 Gostai SOS
• 3.15 Kairos Autonomi
• 3.16 Scripps Bluefin Robotics Spray glider UUV
  • 3.16.1 Scripps Bluefin Robotics Spray Glider Sensors, Navigation, and Communications
• 3.17 Boeing' s AN/BLQ-11 Long-term Mine Reconnaissance System (LMRS),
• 3.18 Boeing Advanced Information Systems
• 3.19 Sonatech
• 3.20 BAE Systems Underwater Systems
• 3.21 Gunsmith Jerry Baber
• 3.22 IVTT Program Intelligent Vehicle Robot Hops Over Walls
  • 3.22.1 Robotic Technology Precision Urban Hopper
  • 3.22.2 Robotic Technology Robot
• 3.23 First Responder Robots
  • 3.23.1 QinetiQ North America' s robotic controller kit

First Responder Robot Technology

4. First Responder Robot Technology

• 4.1 First Responder Robot Enabling Technology
• 4.2 Intel Integrated Circuit Evidence-Based Innovation
  • 4.2.1 Open Robotic Control Software
  • 4.2.2 Military Robot Key Technology
  • 4.2.3 PC-Bots Visual Simultaneous Localization & Mapping
• 4.3 Advanced Robot Technology: Navigation, Mobility, And Manipulation
  • 4.3.1 Robot Intelligence Systems
  • 4.3.2 Real-World, Dynamic Sensing
• 4.4 User-Friendly Interfaces
  • 4.4.1 Tightly-Integrated, Electromechanical Robot Design
• 4.5 Field Based Robotics Iterative Development
  • 4.5.1 Next-Generation Products Leverage Model
  • 4.5.2 Modular Robot Structure And Control
  • 4.5.3 Lattice Architectures
  • 4.5.4 Chain / Tree Architectures
  • 4.5.5 Deterministic Reconfiguration
  • 4.5.6 Stochastic Reconfiguration
  • 4.5.7 Modular Robotic Systems
• 4.6 Intel Military Robot Cultivating Collaborations
• 4.7 Hitachi Configuration Of Robots Using The SuperH Family Hitachi Concept of MMU And Logic Space Robotic Use of Thin Film Lithium-Ion Batteries
• 4.8 Network Of Robots And Sensors
  • 4.8.1 Sensor Networks Part Of Research Agenda
  • 4.8.2 Light Sensing
  • 4.8.3 Acceleration Sensing
  • 4.8.4 Chemical Sensing
• 4.9 Military Robot Technology Functions
• 4.10 Carbon Nanotube Radio
• 4.11 Military Robot Funded Programs
  • 4.11.1 Future Combat System (FCS) Program Transitions to Army Brigade Combat Team Modernization
  • 4.11.2 XM1216 Small Unmanned Ground Vehicle (SUGV)
  • 4.11.3 UUV Sub-Pillars
  • 4.11.4 Hovering Autonomous Underwater Vehicle (HAUV)
  • 4.11.5 Alliant
  • 4.11.6 ATSP is a Government-wide contracting vehicle
  • 4.11.7 Quick, efficient contracting vehicle
  • 4.11.8 Facilitates technology and insertion into fielded systems
  • 4.11.9 Access to all Northrop Grumman sectors
• 4.12 iRobot Technology
  • 4.12.1 iRobot AWARE Robot Intelligence Systems
  • 4.12.2 iRobot Real-World, Dynamic Sensing.
  • 4.12.3 iRobot User-Friendly Interface
  • 4.12.4 iRobot Tightly-Integrated Electromechanical Design.
• 4.13 Evolution Robotics Technology Solutions Evolution Robotics Example Applications
• 4.14 NASA Exploratory Robots
  • 4.14.1 NASA Spirit Robot
  • 4.14.2 NASA' s Mars Exploration Rover Spirit Sample NASA Sprit Sol-By-Sol Summary:
  • 4.14.3 Opportunity Update
  • 4.14.4 NASA Opportunity Sol-By-Sol Summary
  • 4.14.5 NASA Opportunity Robot
• 4.15 Remote Controlled Robot Missions
  • 4.15.1 Auto-Navigation System Takes Pictures Of The Nearby Terrain
  • 4.15.2 Mars Robotic Rovers Spirit And Opportunity
• 4.16 Self-Reproducing Machines
  • 4.16.1 M-TRAN Modular Transformer
  • 4.16.2 Attitude Control In Space By Control Moment Gyros

First Responder Robot Company Profiles

5. First Responder Robot Company Profiles

• 5.1 American Reliance Inc. (AMREL)
  • 5.1.1 Amrel Field Expedient Robot Controls Interoperability
  • 5.1.2 Amrel Small-Footprint, Highly Integrated, Rugged Mobile Computing Solutions
• 5.2 BAE Systems
  • 5.2.1 BAE Systems Ant Size Robot
  • 5.2.2 BAE Personal Robots
  • 5.2.3 BAE Systems Large UGV
• 5.3 Boston Dynamics
• 5.4 Doosan Infracore / Bobcat Company
• 5.5 General Dynamics
  • 5.5.1 General Dynamics Combat Autonomous Mobility System (CAMS)
  • 5.5.2 General Dynamics $60 Million Contract by U.S. Air Force for Mission Operations Support
  • 5.5.3 General Dynamics Revenue
  • 5.5.4 General Dynamics Business Group Revenue
  • 5.5.5 General Dynamics Combat Systems Awards
  • 5.5.6 General Dynamics Land Systems $24 million contract to supply Commanders Remote Operated Weapons
  • 5.5.7 General Dynamics Canadian Government' s LAV III Upgrade Program
  • 5.5.8 General Dynamics U.S. Military Vehicle Business
• 5.6 Gostai
• 5.7 iRobot
  • 5.7.1 iRobot Home Robots
  • 5.7.2 iRobot Government and Industrial Robots
  • 5.7.3 iRobot Locations
  • 5.7.4 iRobot Military Programs
  • 5.7.5 iRobot Revenue
  • 5.7.6 iRobot Geographic Information
  • 5.7.7 iRobot Significant Customers
  • 5.7.8 iRobot Description
  • 5.7.9 iRobot Industry Segment, Geographic Information and Significant Customers
  • 5.7.10 iRobot Home Robots
  • 5.7.11 iRobot Government and Industrial
  • 5.7.12 iRobot Geographic Information
  • 5.7.13 iRobot Home Robot Division Revenue And Units Shipped
  • 5.7.14 iRobot Government And Industrial Division
  • 5.7.15 iRobot Strategy
  • 5.7.16 iRobot Government and Industrial Products
  • 5.7.17 iRobot Home Robots
  • 5.7.18 iRobot Government & Industrial Robots
  • 5.7.19 iRobot Partners and Strategic Alliance
  • 5.7.20 iRobot / Boeing Company
  • 5.7.21 iRobot / Advanced Scientific Concepts
  • 5.7.22 iRobot / TASER International,
• 5.8 Kongsberg
  • 5.8.1 Increased Scope of Kongsberg CROWS II Framework Agreement
  • 5.8.2 Kongsberg Ownership
  • 5.8.3 Kongsberg Manufacturing locations
  • 5.8.4 Kongsberg Operations Revenue
  • 5.8.5 Kongsberg Employees
• 5.9 Lockheed Martin
  • 5.9.1 Lockheed Martin Defense Department Positioning
• 5.10 Northrop Grumman
  • 5.10.1 Northrop Grumman Remotec Robots
• 5.11 Qinetiq / Foster-Miller
  • 5.11.1 QinetiQ UK MOD and the US DoD provide target markets
  • 5.11.2 QinetiQ Revenue 2005-2009
  • 5.11.3 QinetiQ North America
  • 5.11.4 QinetiQ Revenue
  • 5.11.5 QinetiQ UK
  • 5.11.6 QinetiQ North America
  • 5.11.7 QinetiQ Autonomy and Robotics
  • 5.11.8 QinetiQ Group Revenues
  • 5.11.9 QinetiQ Business Review Governance
  • 5.11.10 QinetiQ Revenue By Customer
  • 5.11.11 QinetiQ North America
  • 5.12 QinetiQ North America / Foster-Miller
  • 5.12.1 QinetiQ North America / Foster-Miller
  • 5.12.2 QinetiQ Common Robotic Controller (CRC)
  • 5.12.3 QinetiQ North America World-Class Technology
  • 5.12.4 QinetiQ North America Technology Solutions Group
• 5.13 Robotic Technology Inc.
  • 5.13.1 RTI Energetically Autonomous Tactical Robot (EATR) Project
  • 5.13.2 RTI Intelligent Vehicle Technology Transfer (IVTT) Program
  • 5.13.3 Robotic Technology Precision Urban Hopper
  • 5.13.4 Robotic Technology Robot
• 5.14 Telerob
  • 5.14.1 Telerob - EOD / IEDD Equipment, EOD Robots and Vehicles
  • 5.14.2 TEODor Heavy Duty Explosive Ordnance Disposal (EOD) Robot
  • 5.14.3 Telerob Telemax High-Mobility EOD Robot
  • 5.14.4 Telerob EOD / IEDD service vehicles
  • 5.14.5 Telerob' s Electrical Force-Reflecting-Manipulators (FRMs)
  • 5.14.6 American Crane and Equipment Corp and Telerob Partnership
• 5.15 Thermo Fisher Scientific / Ahura Scientific
  • 5.15.1 Ahura Scientific
• 5.16 Versa / Allen-Vanguard
  • 5.16.1 Allen Vanguard Trading Suspended on Stock
  • 5.16.2 Allen Vanguard HALR EOD/IEDD/Search Tasks Hook and Line System
  • 5.16.3 Versa / Allen Vanguard Equinox I
  • 5.16.4 Versa / Allen Vanguard Field Test Set
  • 5.16.5 Allen-Vanguard Revenue
• 5.17 VIA Technologies
  • 5.17.1 VIA Technologies Complete Platform Provider
  • 5.17.2 VIA Technologies Market Leadership
  • 5.17.3 VIA Technologies Global Operations
  • 5.17.4 VIA Technologies Meeting the Market Challenge
  • 5.17.5 VIA Technologies Dynamic Fabless Business Model
• 5.18 Selected Manufacturers of Military Robots
• 5.19 Government Agencies and Other Organizations Using Military Robots
  • 5.19.1 RTI Intelligent Vehicle Technology Transfer (IVTT) Program

List of Tables and Figures

First Responder Robots Executive Summary

• Table ES-1 Homeland Security And Police Robots Market Driving Forces
• Figure ES-2 First Responder and Law Enforcement Robot Market Shares, Dollars, Worldwide, 2009
• Figure ES-3 Total First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016

First Responder Robots Market Description And Market Dynamics

• Table 1-1 Military Robot Applications
• Table 1-1 (Continued) Military Robot Applications
• Table 1-2 Military Armed Robotic Applications
• Table 1-3 What the Soldier Wants In Robotic Systems
• Figure 1-4 Telerob Explosive Observation Robot and Ordnance Disposal Unit
• Figure 1-5 Telerob Explosive Ordnance Disposal EOD System For Operation In Confined Areas
• Figure 1-6 QinetiQ North America TALONR Robots Universal Disruptor Mount (UDM)
• Figure 1-7 Next-Generation General Dynamics CROWS II
• Figure 1-8 Organization for Combating Terrorism: Technology Support Office

First Responder Robots Market Shares and Market Forecasts

• Table 2-1 Homeland Security And Police Robots Market Driving Forces
• Figure 2-2 First Responder and Law Enforcement Robot Market Shares, Dollars, Worldwide, 2009
• Table 2-3 First Responder and Law Enforcement Robot Market Shares, Dollars, Worldwide, 2009
• Figure 2-4 Total First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016
• Figure 2-5 Total First Responder Robot Market Forecasts, Units, Worldwide, 2010-2016
• Table 2-6 First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016
• Figure 2-7 Small First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016
• Figure 2-8 Small First Responder Robot Market Forecasts, Units, Worldwide, 2010-2016
• Figure 2-9 Mid Size First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016
• Figure 2-10 Mid Size First Responder Robot Market Forecasts, Units, Worldwide, 2010-2016
• Figure 2-11 Military and First Responder Robot Market Forecasts, Dollars, Worldwide, 2010-2016
• Table 2-12 Military, Homeland Security, Police, And First Responder Robots Market Forecasts, Dollars, Worldwide, 2010-2016
• Figure 2-13 Types of Events Triggering Need For First Responder Robots
• Table 2-14 First Responder Robot Market Segments, Worldwide, 2009
• Table 2-15 First Responder Robot Market Segments, Worldwide, 2016
• Table 2-16 First Responder Robot Market Forecasts, Worldwide, 2010-2016
• Figure 2-17 U.S. Military Robot for "Surge"
• Figure 2-18 Military Ground Robot Regional Market Segments, 2009
• Table 2-19 Military Robot Regional Market Segments, 2009

First Responder Robots Product Description

• Figure 3-1 iRobotR PackBotR 510 with EOD Kit
• Figure 3-2 iRobotR PackBotR 510 with First Responder Kit
• Figure 3-3 iRobotR Warrior"! 700
• Figure 3-4 iRobotR PackBotR 510 with FasTac Kit
• Figure 3-5 iRobotR PackBotR 500 with Mapping Kit
• Figure 3-6 iRobotR PackBotR 510 with Engineer Kit
• Figure 3-7 iRobotR PackBotR 510 with FasTac Kit
• Figure 3-8 iRobotR PackBotR 500 with ICx FidoR Explosives Detection Kit
• Figure 3-9 iRobotR PackBotR 510 with HAZMAT Detection Kit
• Figure 3-10 iRobotR SeaGlider
• Figure 3-11 iRobotR Ranger
• Figure 3-12 Northrop Grumman Remotec HD-1
• Table 3-13 Northrop Grumman HD-1 Features
• Figure 3-14 Northrop Grumman F6A - Versatile Platform
• Table 3-15 Northrop Grumman F6A Features
• Figure 3-16 Northrop Grumman Mark V-A1 - Highly Versatile, Robust, All-Terrain Platform
• Table 3-17 Northrop Grumman V-A1 Features
• Table 3-18 Northrop Grumman Vehicle Data / Communication Links
• Figure 3-19 Northrop Grumman Mini-ANDROS II
• Table 3-20 Northrop Grumman Mini Andros II Features
• Table 3-21 Northrop Grumman Vehicle Data / Communication Articulating Tracks Links
• Figure 3-22 Northrop Grumman Wolverine - Outdoor, All-Terrain Workhorse
• Table 3-23 Northrop Grumman Wolverine Features
• Table 3-24 Data Links For Operator Control Of The ANDROS Vehicle IN Marshes, Swamps And Snow
• Figure 3-25 Next-Generation General Dynamics CROWS II
• Figure 3-26 Kongsberg HUGIN 1000 Autonomous Under Water Vehicle - AUV
• Figure 3-27 BAE Military Robot in Development
• Figure 3-28 Lockheed Martin Multifunction Utility/Logistics and Equipment Vehicle (MULE)
• Table 3-29 Lockheed Martin MULE models: Armed Robotic Vehicle - Assault (Light), Transport and Countermine.
• Figure 3-30 Lockheed Martin Large NUWC Manta UUV
• Figure 3-31 Lockheed Martin AN/WLD-1 Remote Minehunting System (RMS)
• Table 3-32 QinetiQ North America TalonR Robots Universal Disrupter Mount Close-up
• Figure 3-33 Foster-Miller Talon Responder
• Figure 3-34 Foster-Miller EOD Robots
• Figure 3-35 Foster-Miller Swords Robots
• Figure 3-36 Foster-Miller CBRNE/Hazmat Robots
• Figure 3-37 Foster-Miller TALON SWAT/MP
• Figure 3-38 Foster-Miller MAARS Robot
• Figure 3-39 Foster-Miller Dragon Runner Field Transformable SUGV
• Figure 3-40 Foster Miller TALON GEN IV Engineer
• Figure 3-41 Foster Miller TAGS-CX Unmanned Vehicle
• Table 3-42 TAGS-CX Unmanned Vehicle Payloads
• Figure 3-43 QinetiQ Talon TAGS-CX Unmanned Vehicle
• Figure 3-44 QinetiQ Talon Combat Engineer Route Clearance Robot Unmanned Vehicle
• Figure 3-45 QinetiQ Talon TAGS-CX Unmanned Vehicle
• Figure 3-46 QinetiQ Generation IV Talon Robot Inspecting Vehicle QinetiQ Generation IV Talon Robot Inspecting Vehicle
• Figure 3-47 QinetiQ Generation IV Talon Robot
• Figure 3-48 MAARS Talon Robot
• Figure 3-49 QiinetiQ Foster-Miller Talon Military Robot
• Figure 3-50 QiinetiQ Foster-Miller Talon Military Robot Modular CBRNE
• Table 3-51 Telerob' s Key Business Areas
• Figure 3-52 Telerob Heavy-Duty EOD Robot Product
• Figure 3-53 Telerob TeleMAX Small Bomb Disposal EOD Heavy-Duty Robots
• Figure 3-54 Telerob teleMAX
• Figure 3-55 Telerob Bomb Disposal Vehicles
• Figure 3-56 Telerob Bomb Disposal Vehicle Interior
• Table 3-57 Allen Vanguard Equipment Applications
• Figure 3-58 Allen Vanguard VANGUARDR ROV
• Table 3-59 Allen VanguardR ROV Key Features
• Table 3-59 (Continued) Allen VanguardR ROV Key Features
• Table 3-60 Allen Vanguard VANGUARDR ROV Command Console Key Features
• Table 3-61 Vanguard Rov Physical Characteristics:
• Figure 3-62 Allen Vanguard Defender Robot/ROV
• Table 3-63 Allen-Vanguard Defender Standard Equipment
• Table 3-64 Allen Vanguard Defender Technical Data: Allen Vanguard DefenderTechnical Data:
• Figure 3-65 Allen Vanguard ROV-Track CBRNE
• Table 3-66 Allen Vanguard ROV-Track CBRNE
• Table 3-67 ROV-Track CBRNE Remote Response System Features
• Figure 3-68 Boston Dynamic BigDog - Advanced Rough-Terrain Robot
• Figure 3-69 Boston Dynamic LittleDog - The Legged Locomotion Learning Robot
• Figure 3-70 Boston Dynamic PETMAN - BigDog gets a Big Brother
• Figure 3-71 Boston Dynamic RHex Devours Rough Terrain
• Figure 3-72 Boston Dynamic RiSE: Climbing Robot
• Figure 3-73 Boston Dynamic SquishBot - Advanced Chemistry Robot that Inches, Climbs and Deforms
• Figure 3-74 Gostai SOS
• Figure 3-75 Scripps Bluefin Robotics Spray Glider
• Table 3-76 Spray Swimming Robot
• Table 3-77 Spray Swimming Robot Navigation Positioning
• Table 3-78 Spray Swimming Robot Navigation Applications
• Figure 3-79 BPAUV vehicle from Bluefin Robotics
• Figure 3-80 Bluefin Robotics 9-inch-diameter Bluefin 9 UUV
• Figure 3-81 Boeing AN/BLQ-11 Long-Term Mine Reconnaissance System (LMRS),
• Figure 3-82 Robotic Technology Military Robot Hops Over Walls
• Table 3-83 QinetiQ Foster-Miller TALONR First Responder Features
• Figure 3-84 QinetiQ Foster-Miller First Responder Robot
• Figure 3-85 QinetiQ North America' s Robotic Controller Kit

First Responder Robots Technology

• Table 4-1 Military Robotics Enabling Technology
• Table 4-2 Military Robots Development Challenges
• Table 4-3 Military Robot Integrated Circuit-Based Innovation Functions
• Table 4-3 (Continued) Military Robot Integrated Circuit-Based Innovation Functions
• Table 4-4 Military Robot Key Technology
• Table 4-5 Robot Communications Key Technology
• Table 4-6 Military Robot Key Navigation Technologies
• Table 4-7 Human-Robot Interaction
• Table 4-8 Visual Simultaneous Localization & Mapping Functions Relevant to Robotics
• Figure 4-9 Hitachi Modular Robot Configuration
• Table 4-10 Military Robot Key Product Technology Factors Military Robot Key Product Technology Factors
• Table 4-11 Military Robot Technology Functions Military Robot Technology Functions
• Table 4-12 Missions (UUV "Sub-Pillars") In Priority Order
• Figure 4-13 UUVMP Vision
• Table 4-14 Alliant Features:
• Table 4-14 (Continued) Alliant Features:
• Figure 4-15 Evolution Robotics Technology Solutions
• Figure 4-16 Evolution Robotics Object Recognition
• Table 4-17 Evolution Robotics Applications
• Figure 4-18 Sprit Robot On Mars.
• Figure 4-19 Spirit' s Winter Panorama
• Figure 4-20 Opportunity Maneuvers Around Steeper Slopes in "Victoria Crater"
• Table 4-21 (Continued) Remote Controlled Robot Missions Technologies of Broad Benefit
• Table 4-21 (Continued) Remote Controlled Robot Missions Technologies of Broad Benefit

First Responder Robots Company Profiles

• Figure 5-1 BAE Military Robot in Development
• Table 5-2 iRobot Robots Dangerous Tasks Performed
• Figure 5-3 iRobot Home Robots vs, Military and First Responder Robots
• Table 5-4 Kongsberg Military Robot Market Segments
• Figure 5-5 Lockheed Martin F35B In-Flight STOVL Operations
• Figure 5-6 Lockheed Martin Linking Legacy Radio Waveforms Into AMF JTRS
• Figure 5-7 Lockheed Martin C-139 J Cargo Plane
• Figure 5-8 Lockheed Martin Next Generation Identification Systems
• Figure 5-9 Lockheed Martin Linking Legacy Radio Waveforms to AMF JTRS
• Table 5-10 QinetiQ North America Technology Solutions Group Capabilities
• Table 5-11 QinetiQ 2009 Positioning
• Table 5-12 QinetiQ Highlights During 2009:
• Figure 5-13 QinetiQ North America Revenue
• Table 5-14 QinetiQ North America
• Table 5-15 US Target Market Overview
• Table 5-16 QinetiQ Detection System Functions
• Table 5-17 Foster-Miller Technical And Business Capabilities
• Table 5-18 IVTT Program Supporting Departments
• Figure 5-19 Robotic Technology Military Robot Hops Over Walls
• Table 5-20 Telerob' s Key Business Areas
• Figure 5-21 Telerob Heavy-Duty EOD Robot Product
• Figure 5-22 Telerob Army Technology Products
• Figure 5-23 Versa / Allen Vanguard Hook and Line Applications
• Table 5-24 IVTT program supporting Departments

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