| Worldwide markets are poised to achieve significant | | | | 3.3.2 Northrop Grumman Vehicle Data / |
| growth as the first responder and homeland security | | | | Communication Links 34 |
| ground robots are used globally. Growth comes as the | | | | 3.3.3 Northrop Grumman F6A - Versatile Platform 34 |
| border patrols and law enforcement agencies use | | | | 3.3.4 Northrop Grumman Vehicle Data / |
| robots to achieve broader security in a less expensive | | | | Communication Links 37 |
| manner, delivering the promise of automated process | | | | 3.3.5 Northrop Grumman Mark V-A1 - Highly Versatile, |
| in yet another industry. First responder robots bring | | | | Robust, All-Terrain Platform 37 |
| changes in every region while the globally integrated | | | | 3.3.6 Northrop Grumman V-A1 Features 39 |
| enterprise replaces nationalistic dominance, creating | | | | 3.3.7 Northrop Grumman Vehicle Data / |
| broader cooperative police actions that replace | | | | Communication Links 40 |
| nationalistic wars. These police actions are aimed | | | | 3.3.8 Northrop Grumman Mini-ANDROS II - Compact, |
| against the bad guys. | | | | Capable, Two-Man-Portable Platform 40 |
| This cost is creating resistance among the agencies to | | | | 3.3.9 Northrop Grumman Mini Andros II Features 42 |
| spend such a large amount for what is seen as a | | | | 3.3.10 Northrop Grumman Vehicle Data / |
| device that gives little return in comparison to what a | | | | Communication Links 43 |
| person can do all year. Costs of robots are expected | | | | 3.3.11 Northrop Grumman Wolverine - Outdoor, |
| to decrease rapidly in the next year, creating a much | | | | All-Terrain Workhorse 43 |
| larger market than exists now. The current market at | | | | 3.3.12 Northrop Grumman Wolverine 45 |
| $203 million does provide a significant base for solid | | | | 3.3.13 Northrop Grumman Vehicle Data / |
| growth. | | | | Communication Links 46 |
| Vendors of homeland security and first responder | | | | 3.4 General Dynamics 47 |
| robots have positioned to provide a common | | | | 3.4.1 General Dynamics Next-Generation CROWS II |
| framework through which federal, state, local, and tribal | | | | Increases Soldiers Safety 48 |
| governments can address emergencies. US federal | | | | 3.5 Kongsberg 50 |
| first responder agencies are negotiating agreements | | | | 3.5.1 Kongsberg CrowsII Military Robot System 50 |
| with state and local government law enforcement | | | | 3.5.2 Kongsberg Addresses Underwater Diver |
| groups to share equipment. First responder robots cost | | | | Incursion 51 |
| $50,000 and up, the cost of a person for one year. | | | | 3.5.3 Kongsberg Norwegian Mine Reconnaissance |
| Whereas a person can patrol and investigate, a first | | | | Program 52 |
| responder robot able to sniff for explosives is not | | | | 3.6 BAE Systems 53 |
| justified in high quantity. .a few shared units go a long | | | | 3.6.1 BAE Systems Ant Size Robot 54 |
| way in detecting explosives. | | | | 3.6.2 BAE Personal Robots 56 |
| The challenge for vendors is to find applications where | | | | 3.6.3 BAE Systems Large UGV 56 |
| the robot is used 24x7 365 days per year. Then there | | | | 3.7 Lockheed Martin 56 |
| is payback. An exception is an airport and a border | | | | 3.7.1 Lockheed Martin Multifunction Utility/Logistics and |
| patrol crossing point where there is continuous need to | | | | Equipment Vehicle (MULE) 57 |
| sniff for explosives. | | | | 3.7.2 Lockheed Martin Large NUWC Manta UUV 59 |
| First responder and homeland security robots are | | | | 3.7.3 Lockheed Martin Large NUWC Manta UUV For |
| useful as patrol units. Just as foot police and patrol | | | | The Offshore Oil Industry 61 |
| cars look for dangerous situations, so also a first | | | | 3.7.4 Lockheed Martin AN/WLD-1 Remote Minehunting |
| responder robot can patrol an area with cameras and | | | | System (RMS) 61 |
| chemical sensors. First responder and homeland | | | | 3.8 QinetiQ North America TALON® Robots 65 |
| security robot automation of the defense process is | | | | 3.8.1 QinetiQ North America Talon® Robots Universal |
| the next wave of first responder and homeland | | | | Disrupter Mount 67 |
| security evolution. As automated systems and | | | | 3.8.2 Qinetiq / Foster-Miller 69 |
| networking complement the Internet , communication is | | | | 3.8.3 Foster-Miller TALON Family of Military Robots 70 |
| facilitated on a global basis. The first responder and | | | | 3.8.4 Foster-Miller New: Two-Way Hailer 71 |
| homeland security charter is shifting to providing | | | | 3.8.5 Foster-Miller TALON Responder 71 |
| protection against terrorists and people seek to | | | | 3.8.6 Foster-Miller EOD Robots 73 |
| maintain a safe, mobile, independent lifestyle. Much of | | | | 3.8.7 Foster-Miller SWORDS Robots 75 |
| the first responder and homeland security mission is | | | | 3.8.8 Foster-Miller CBRNE/Hazmat Robots 77 |
| moving to adopt a police force training mission, seeking | | | | 3.8.9 Foster-Miller TALON SWAT/MP 78 |
| to achieve protection of civilian populations on a | | | | 3.8.10 Foster-Miller MAARS Robot 79 |
| worldwide basis. | | | | 3.8.11 Foster-Miller Dragon Runner Field Transformable |
| According to Susan Eustis, the lead author of the | | | | SUGV 81 |
| study, "the purchase of First responder and homeland | | | | 3.8.12 Foster Miller TALON GEN IV Engineer 82 |
| security Robots s is dependent on budget constraints. | | | | 3.8.13 Foster Miller TAGS-CX Unmanned Vehicle 83 |
| The use of First responder and homeland security | | | | 3.8.14 QinetiQ TAGS-CX Unmanned Vehicle 84 |
| Robots s is based on providing a robot that is less | | | | 3.8.15 Combat Engineer Route Clearance Robot 87 |
| expensive to put in the field than a trained soldier. That | | | | 3.8.16 Talon MAARS™ Robots 92 |
| automation of process has appeal to those who run | | | | 3.9 Telerob 95 |
| the first responder and homeland security. | | | | 3.9.1 Telerob - EOD / IEDD Equipment, EOD Robots |
| Robots are automating first responder and homeland | | | | and Vehicles 95 |
| security ground systems, permitting vital protection of | | | | 3.9.2 Telerob TEODor Heavy Duty Explosive |
| police officers and people in the field, creating the | | | | Ordnance Disposal (EOD) Robot 97 |
| possibility of reduced fatalities in this profession. Mobile | | | | 3.9.3 Telerob Telemax High-Mobility EOD Robot 3-98 |
| robotics operate independently of the operator. | | | | 3.9.4 Telerob EOD / IEDD Service Vehicles 3-98 |
| The innovation coming from all the vendors is | | | | 3.10 Versa / Allen Vanguard 3-103 |
| astounding. No one innovation is more significant than | | | | 3.10.1 Allen Vanguard VANGUARD® ROV 3-105 |
| another. One vendor, BAE Systems has an ant size | | | | 3.10.2 Allen Vanguard Defender Robot/ROV 3-113 |
| robot useful for reconnaissance and networking robots | | | | 3.10.3 Allen Vanguard ROV-Track CBRNE 3-118 |
| in development. As soldiers take up secure positions | | | | 3.11 Boston Dynamics 3-121 |
| behind a wall, they deploy a small reconnaissance | | | | 3.11.1 Boston Dynamic LittleDog - The Legged |
| team. The initial deployment is poised to be a very, | | | | Locomotion Learning Robot 3-122 |
| very small reconnaissance team. Some hopping, some | | | | 3.11.2 Boston Dynamic PETMAN - BigDog gets a Big |
| flying, the stealthy autonomous reconnaissance squad | | | | Brother 3-124 |
| vanishes into a suspicious building for several minutes, | | | | 3.11.3 Boston Dynamic RHex Devours Rough Terrain |
| then relays the all-clear back to its partners outside | | | | 3-126 |
| when that is the case. | | | | 3.11.4 Boston Dynamic RiSE: Climbing Robot 3-128 |
| Use of remote-control toys in Iraq started as | | | | 3.12 Robotic Technology 3-130 |
| improvised robots to check out possible roadside | | | | 3.12.1 RTI Military Memetics (Information Propagation, |
| bombs. There has since been a flurry of activity on the | | | | Impact, and Persistence ¨C Info PIP) Project 3-131 |
| robotic explosive ordnance disposal (EOD) front since | | | | 3.12.2 RTI Humanoid And Legged Robots 3-132 |
| that early beginning. Deliveries of smaller and cheaper | | | | 3.13 Fujitsu Service Robot (enon) 3-133 |
| Bots are anticipated. | | | | 3.14 Gostai SOS 3-134 |
| The emergence of a market for intelligent, mobile | | | | 3.15 Kairos Autonomi 3-136 |
| robots for use in the field and the confined areas of | | | | 3.16 Scripps Bluefin Robotics Spray glider UUV 3-137 |
| city fighting presents many opportunities. Units used in | | | | 3.16.1 Scripps Bluefin Robotics Spray Glider Sensors, |
| public spaces and on the border create a better, more | | | | Navigation, and Communications 3-138 |
| flexible, more cost efficient first responder and | | | | 3.17 Boeing¡¯s AN/BLQ-11 Long-term Mine |
| homeland security. | | | | Reconnaissance System (LMRS), 3-144 |
| Technology is used to actuate the disparate robot | | | | 3.18 Boeing Advanced Information Systems 3-148 |
| types. Core robotics research and advances in robotic | | | | 3.19 Sonatech 3-150 |
| technology can be applied across a variety of robotic | | | | 3.20 BAE Systems Underwater Systems 3-150 |
| form factors and robotic functionality. Advances feed | | | | 3.21 Gunsmith Jerry Baber 3-151 |
| on and off of each other. With each new round of | | | | 3.22 IVTT Program Intelligent Vehicle Robot Hops |
| innovation, a type of technological cross pollination | | | | Over Walls 3-152 |
| occurs that improves existing robotic platforms and | | | | 3.22.1 Robotic Technology Precision Urban Hopper |
| opens up other avenues where intelligent mobile robots | | | | 3-154 |
| can be employed, effectively creating new markets. | | | | 3.22.2 Robotic Technology Robot 3-154 |
| Roboticists are more advanced in their training and in | | | | 3.23 First Responder Robots 3-155 |
| the tools available to create units. First responder and | | | | 3.23.1 QinetiQ North America¡¯s robotic controller |
| homeland security robots have evolved from units | | | | kit 3-156 |
| used in the field to manage different situations that | | | | 4. FIRST RESPONDER ROBOT TECHNOLOGY 4-1 |
| arise. Robots save lives.. | | | | 4.1 First Responder Robot Enabling Technology 4-1 |
| Robotic security systems have an emphasis on | | | | 4.2 Intel Integrated Circuit Evidence-Based Innovation |
| causality reduction during law enforcement activities. | | | | 4-3 |
| This has resulted in investment in robotics technology | | | | 4.2.1 Open Robotic Control Software 4-5 |
| that is useful. Robotic research is on the fast track for | | | | 4.2.2 Military Robot Key Technology 4-6 |
| government spending. First responder and homeland | | | | 4.2.3 PC-Bots 4-10 |
| security ground robot market forecast analysis | | | | Visual Simultaneous Localization & Mapping 4-10 |
| indicates that vendor strategy is to pursue developing | | | | 4.3 Advanced Robot Technology: Navigation, |
| new applications that leverage leading edge | | | | Mobility, And Manipulation 4-11 |
| technology. Robot solutions are achieved by leveraging | | | | 4.3.1 Robot Intelligence Systems 4-11 |
| the ability to innovate, to bring products to market | | | | 4.3.2 Real-World, Dynamic Sensing 4-12 |
| quickly. First responder and homeland security | | | | 4.4 User-Friendly Interfaces 4-12 |
| purchasing authorities seek to reduce costs through | | | | 4.4.1 Tightly-Integrated, Electromechanical Robot Design |
| design and outsourcing. Vendor capabilities depend on | | | | 4-13 |
| the ability to commercialize the results of research in | | | | 4.5 Field Based Robotics Iterative Development 4-14 |
| order to fund further research. Government funded | | | | 4.5.1 Next-Generation Products Leverage Model 4-15 |
| research is evolving some more ground robot | | | | 4.5.2 Modular Robot Structure And Control 4-15 |
| capability. | | | | 4.5.3 Lattice Architectures 4-16 |
| Markets at $203.1 million in 2009 are anticipated to | | | | 4.5.4 Chain / Tree Architectures 4-16 |
| reach $3.7 billion by 2016. | | | | 4.5.5 Deterministic Reconfiguration 4-16 |
| Report Methodology | | | | 4.5.6 Stochastic Reconfiguration 4-17 |
| This is the 435th report in a series of primary market | | | | 4.5.7 Modular Robotic Systems 4-17 |
| research reports that provide forecasts in | | | | 4.6 Intel Military Robot Cultivating Collaborations 4-18 |
| communications, telecommunications, the Internet, | | | | 4.7 Hitachi Configuration Of Robots Using The SuperH |
| computer, software, telephone equipment, health | | | | Family 4-18 |
| equipment, and energy. Automated process and | | | | Hitachi Concept of MMU And Logic Space 4-19 |
| significant growth potential are a priorities in topic | | | | Robotic Use of Thin Film Lithium-Ion Batteries 4-23 |
| selection. The project leaders take direct responsibility | | | | 4.8 Network Of Robots And Sensors 4-24 |
| for writing and preparing each report. They have | | | | 4.8.1 Sensor Networks Part Of Research Agenda |
| significant experience preparing industry studies. | | | | 4-25 |
| Forecasts are based on primary research and | | | | 4.8.2 Light Sensing 4-26 |
| proprietary data bases. | | | | 4.8.3 Acceleration Sensing 4-27 |
| The primary research is conducted by talking to | | | | 4.8.4 Chemical Sensing 4-27 |
| customers, distributors and companies. The survey | | | | 4.9 Military Robot Technology Functions 4-27 |
| data is not enough to make accurate assessment of | | | | 4.10 Carbon Nanotube Radio 4-28 |
| market size, so It looks at the value of shipments and | | | | 4.11 Military Robot Funded Programs 4-30 |
| the average price to achievem market assessments. | | | | 4.11.1 Future Combat System (FCS) Program |
| Our track record in achieving accuracy is unsurpassed | | | | Transitionsto Army Brigade Combat Team |
| in the industry. We are known for being able to | | | | Modernization 4-30 |
| develop accurate market shares and projections. This | | | | 4.11.2 XM1216 Small Unmanned Ground Vehicle |
| is our specialty. | | | | (SUGV) 4-32 |
| The analyst process is concentrated on getting good | | | | 4.11.3 UUV Sub-Pillars 4-33 |
| market numbers. This process involves looking at the | | | | 4.11.4 Hovering Autonomous Underwater Vehicle |
| markets from several different perspectives, including | | | | (HAUV) 4-36 |
| vendor shipments. The interview process is an | | | | 4.11.5 Alliant 4-36 |
| essential aspect as well. We do have a lot of granular | | | | 4.11.6 ATSP is a Government-wide contracting vehicle |
| analysis of the different shipments by vendor in the | | | | 4-38 |
| study and addenda prepared after the study was | | | | 4.11.7 Quick, efficient contracting vehicle 4-38 |
| published if that is appropriate. | | | | 4.11.8 Facilitates technology and insertion into fielded |
| Forecasts reflect analysis of the market trends in the | | | | systems 4-38 |
| segment and related segments. Unit and dollar | | | | 4.11.9 Access to all Northrop Grumman sectors 4-39 |
| shipments are analyzed through consideration of dollar | | | | 4.12 iRobot Technology 4-39 |
| volume of each market participant in the segment. | | | | 4.12.1 iRobot AWARE Robot Intelligence Systems 4-39 |
| Installed base analysis and unit analysis is based on | | | | 4.12.2 iRobot Real-World, Dynamic Sensing. 4-40 |
| interviews and an information search. Market share | | | | 4.12.3 iRobot User-Friendly Interface 4-40 |
| analysis includes conversations with key customers of | | | | 4.12.4 iRobot Tightly-Integrated Electromechanical |
| products, industry segment leaders, marketing directors, | | | | Design. 4-41 |
| distributors, leading market participants, opinion leaders, | | | | 4.13 Evolution Robotics Technology Solutions 4-42 |
| and companies seeking to develop measurable market | | | | Evolution Robotics Example Applications 4-44 |
| share. | | | | 4.14 NASA Exploratory Robots 4-45 |
| Table of Contents : | | | | 4.14.1 NASA Spirit Robot 4-46 |
| FIRST RESPONDER ROBOT EXECUTIVE | | | | 4.14.2 NASA's Mars Exploration Rover Spirit 4-48 |
| SUMMARY ES-1 | | | | Sample NASA Sprit Sol-By-Sol Summary: 4-50 |
| First Responder, Homeland Security, and Law | | | | 4.14.3 Opportunity Update 4-51 |
| Enforcement | | | | 4.14.4 NASA Opportunity Sol-By-Sol Summary 4-52 |
| Robots Market Driving Forces ES-1 | | | | 4.14.5 NASA Opportunity Robot 4-54 |
| Homeland Security And Police Ground Robots ES-2 | | | | 4.15 Remote Controlled Robot Missions 4-55 |
| Robots Operate Independently ES-2 | | | | 4.15.1 Auto-Navigation System Takes Pictures Of |
| Homeland Security Law Enforcement And First | | | | The Nearby Terrain 4-59 |
| Responder | | | | 4.15.2 Mars Robotic Rovers Spirit And Opportunity 4-61 |
| Ground Robots Market Shares ES-5 | | | | 4.16 Self-Reproducing Machines 4-62 |
| Homeland Security Law Enforcement And First | | | | 4.16.1 M-TRAN Modular Transformer 4-62 |
| Responder | | | | 4.16.2 Attitude Control In Space By Control Moment |
| Ground Robots Market Forecasts ES-6 | | | | Gyros 4-63 |
| 1. FIRST RESPONDER ROBOTS MARKET | | | | 5. FIRST RESPONDER ROBOT COMPANY |
| DESCRIPTION AND | | | | PROFILES 5-1 |
| MARKET DYNAMICS 1-1 | | | | 5.1 American Reliance Inc. (AMREL) 5-1 |
| 1.1 First Responders 1-1 | | | | 5.1.1 Amrel Field Expedient Robot Controls |
| 1.1.1 First Responder Need for Robots 1-2 | | | | Interoperability 5-2 |
| 1.2 First Responder Robot Border Patrol 1-3 | | | | 5.1.2 Amrel Small-Footprint, Highly Integrated, |
| 1.2.1 Border Patrol and Homeland Security 1-5 | | | | Rugged Mobile Computing Solutions 5-2 |
| 1.3 Delivering Robotic Capabilities to Combat Teams | | | | 5.2 BAE Systems 5-2 |
| 1-6 | | | | 5.2.1 BAE Systems Ant Size Robot 5-3 |
| 1.4 Military Robot Scope 1-7 | | | | 5.2.2 BAE Personal Robots 5-5 |
| 1.4.1 Military Robot Applications 1-8 | | | | 5.2.3 BAE Systems Large UGV 5-5 |
| 1.5 Army's G8 Futures office 1-11 | | | | 5.3 Boston Dynamics 5-5 |
| 1.5.1 Delivering Capabilities to the Army's Brigade | | | | 5.4 Doosan Infracore / Bobcat Company 5-6 |
| Combat Teams 1-13 | | | | 5.5 General Dynamics 5-7 |
| 1.5.2 Transition Between The Current Market | | | | 5.5.1 General Dynamics Combat Autonomous |
| And Where The Market Is Going 1-14 | | | | Mobility System (CAMS) 5-7 |
| 1.5.3 Different Sizes of UGVs 1-15 | | | | 5.5.2 General Dynamics $60 Million Contract by U.S. |
| 1.6 Types of Military Robots 1-17 | | | | Air Force for Mission Operations Support 5-8 |
| 1.6.1 Telerob Explosive Observation Robot and | | | | 5.5.3 General Dynamics Revenue 5-9 |
| Ordnance Disposal 1-17 | | | | 5.5.4 General Dynamics Business Group Revenue 5-10 |
| 1.6.2 QinetiQ North America Talon® Robots | | | | 5.5.5 General Dynamics Combat Systems Awards |
| Universal Disrupter Mount 1-20 | | | | 5-13 |
| 1.6.3 General Dynamics Next-Generation | | | | 5.5.6 General Dynamics Land Systems $24 |
| CROWS II Increases Soldiers Safety 1-22 | | | | millioncontract to supply Commanders Remote |
| 1.6.4 Soldier Unmanned Ground Vehicle from iRobot | | | | Operated Weapons 5-13 |
| 1-23 | | | | 5.5.7 General Dynamics Canadian Government¡¯s |
| 1.7 UGV Enabling Technologies 1-24 | | | | LAV III Upgrade Program 5-14 |
| 1.7.1 Sensor Processing 1-25 | | | | 5.5.8 General Dynamics U.S. Military Vehicle Business |
| 1.7.2 Machine Autonomy 1-26 | | | | 5-15 |
| 1.8 Military Robot Bandwidth 1-27 | | | | 5.6 Gostai 5-16 |
| 1.8.1 UGV Follow-Me Capability 1-27 | | | | 5.7 iRobot 5-16 |
| 1.8.2 Communications Bandwidth 1-28 | | | | 5.7.1 iRobot Home Robots 5-17 |
| 1.8.3 Battery Power 1-28 | | | | 5.7.2 iRobot Government and Industrial Robots 5-17 |
| 1.8.4 Combination Of Batteries Linked To | | | | 5.7.3 iRobot Locations 5-17 |
| Onboard Conventional Diesel 1-29 | | | | 5.7.4 iRobot Military Programs 5-17 |
| 1.9 SUGVs 1-30 | | | | 5.7.5 iRobot Revenue 5-19 |
| 1.9.1 Mid-Size Category UGV 1-30 | | | | 5.7.6 iRobot Geographic Information 5-25 |
| 1.9.2 Large UGV 1-31 | | | | 5.7.7 iRobot Significant Customers 5-25 |
| 1.9.3 U.S. Army Ground Combat Vehicle 1-32 | | | | 5.7.8 iRobot Description 5-25 |
| 1.9.4 TARDEC 1-33 | | | | 5.7.9 iRobot Industry Segment, Geographic Information |
| 1.9.5 Tacom 1-34 | | | | and Significant Customers 5-27 |
| 2. FIRST RESPONDER ROBOT MARKET SHARES | | | | 5.7.10 iRobot Home Robots 5-27 |
| AND FORECASTS 2-1 | | | | 5.7.11 iRobot Government and Industrial 5-27 |
| 2.1 First Responder, Homeland Security, and Law | | | | 5.7.12 iRobot Geographic Information 5-32 |
| Enforcement | | | | 5.7.13 iRobot Home Robot Division Revenue And Units |
| Robots Market Driving Forces 2-1 | | | | Shipped 5-33 |
| 2.1.1 Homeland Security And Police Ground Robots 2-2 | | | | 5.7.14 iRobot Government And Industrial Division 5-34 |
| 2.1.2 Robots Operate Independently 2-2 | | | | 5.7.15 iRobot Strategy 5-36 |
| 2.2 Homeland Security Law Enforcement And First | | | | 5.7.16 iRobot Government and Industrial Products 5-38 |
| Responder | | | | 5.7.17 iRobot Home Robots 5-42 |
| Ground Robots Market Shares 2-6 | | | | 5.7.18 iRobot Government & Industrial Robots 5-42 |
| 2.3 Homeland Security Law Enforcement And First | | | | 5.7.19 iRobot Partners and Strategic Alliance 5-43 |
| Responder | | | | 5.7.20 iRobot / Boeing Company 5-43 |
| Ground Robots Market Forecasts 2-8 | | | | 5.7.21 iRobot / Advanced Scientific Concepts 5-43 |
| 2.3.1 Small First Responder Robot Market Forecasts, | | | | 5.7.22 iRobot / TASER International, 5-44 |
| Dollars, Worldwide, 2010-2016 2-11 | | | | 5.8 Kongsberg 5-44 |
| 2.3.2 Mid Size First Responder Robot Market | | | | 5.8.1 Increased Scope of Kongsberg CROWS II |
| Forecasts, | | | | Framework Agreement 5-45 |
| Dollars, Worldwide, 2010-2016 2-13 | | | | 5.8.2 Kongsberg Ownership 5-45 |
| 2.3.3 Communications And Collaboration | | | | 5.8.3 Kongsberg Manufacturing locations 5-46 |
| Support Convergence To Enable First Response 2-14 | | | | 5.8.4 Kongsberg Operations Revenue 5-47 |
| 2.4 Building a Culture of Preparedness 2-16 | | | | 5.8.5 Kongsberg Employees 5-47 |
| 2.4.1 Military and First Responder Robot Market | | | | 5.9 Lockheed Martin 5-48 |
| Forecasts 2-17 | | | | 5.9.1 Lockheed Martin Defense Department Positioning |
| 2.5 First Responder Robots Prevent And Disrupt | | | | 5-49 |
| Terrorist Attacks 2-22 | | | | 5.10 Northrop Grumman 5-53 |
| 2.5.1 Robots Emerge As Part Of Critical Security and | | | | 5.10.1 Northrop Grumman Remotec Robots 5-54 |
| Emergency Response Infrastructure 2-23 | | | | 5.11 Qinetiq / Foster-Miller 5-55 |
| 2.5.2 First Responder Robot Platforms, Cameras, | | | | 5.11.1 QinetiQ UK MOD and the US DoD provide target |
| Grippers, | | | | markets 5-56 |
| And Sensor Combinations 2-24 | | | | 5.11.2 QinetiQ Revenue 2005-2009 5-58 |
| 2.6 Worldwide First Responder Robot Market | | | | 5.11.3 QinetiQ North America 5-61 |
| Forecasts, Segments 2-27 | | | | 5.11.4 QinetiQ Revenue 5-64 |
| 2.7 Police Actions Against Terrorists Replace Wars In | | | | 5.11.5 QinetiQ UK 5-66 |
| The New Global Economy 2-30 | | | | 5.11.6 QinetiQ North America 5-66 |
| 2.7.1 First Responder Large Vehicle Robots For | | | | 5.11.7 QinetiQ Autonomy and Robotics 5-67 |
| Challenging Missions 2-31 | | | | 5.11.8 QinetiQ Group Revenues 5-68 |
| 2.7.2 QinetiQ¡¯s / Foster-Miller Talon® First | | | | 5.11.9 QinetiQ Business Review Governance 5-70 |
| Responder Robot 2-32 | | | | 5.11.10 QinetiQ Revenue By Customer 5-71 |
| 2.7.3 Telerob Sensor Platform 2-32 | | | | 5.11.11 QinetiQ North America 5-73 |
| 2.7.4 Small, Maneuverable First Responder Robots | | | | 5.12 QinetiQ North America / Foster-Miller 5-75 |
| 2-33 | | | | 5.12.1 QinetiQ North America / Foster-Miller 5-77 |
| 2.7.5 iRobot PackBot Scout 2-34 | | | | 5.12.2 QinetiQ Common Robotic Controller (CRC) 5-77 |
| 2.7.6 iRobot PackBot Explorer 2-34 | | | | 5.12.3 QinetiQ North America World-Class Technology |
| 2.7.7 QinetiQ North America¡¯s Dragon Runner | | | | 5-78 |
| Robot | | | | 5.12.4 QinetiQ North America Technology Solutions |
| Delivered to Mesa AZ SWAT Team 2-36 | | | | Group 5-79 |
| 2.7.8 Application Scope 2-37 | | | | 5.13 Robotic Technology Inc. 5-79 |
| 2.7.9 U.S. Military Robots Key to Iraq Surge Success | | | | 5.13.1 RTI Energetically Autonomous Tactical |
| 2-37 | | | | Robot (EATR) Project 5-80 |
| 2.8 Military Robot Regional Market Analysis 2-39 | | | | 5.13.2 RTI Intelligent Vehicle Technology |
| 2.8.1 iRobot Geographic Information 2-41 | | | | Transfer (IVTT) Program 5-81 |
| 3. FIRST RESPONDER AND HOMELAND | | | | 5.13.3 Robotic Technology Precision Urban Hopper |
| SECURITY ROBOTS PRODUCT DESCRIPTION 1 | | | | 5-84 |
| 3.1 First Responder County Police Organization Robot | | | | 5.13.4 Robotic Technology Robot 5-85 |
| Specialized Functions 1 | | | | 5.14 Telerob 5-85 |
| 3.1.1 Northrop Grumman Andros Remotec 1 | | | | 5.14.1 Telerob - EOD / IEDD Equipment, EOD |
| 3.1.2 QinetiQ Foster-Miller Thermal Camera | | | | Robots and Vehicles 5-86 |
| Enhancement Kits (Teks) For Talon® Robots 3 | | | | 5.14.2 TEODor Heavy Duty Explosive Ordnance |
| 3.1.3 Foster-Miller TEK-1 3 | | | | Disposal (EOD) Robot 5-87 |
| 3.1.4 Foster-Miller TEK-2 4 | | | | 5.14.3 Telerob Telemax High-Mobility EOD Robot 5-88 |
| 3.1.5 QinetiQ Foster-Miller Scraper 5 | | | | 5.14.4 Telerob EOD / IEDD service vehicles 5-88 |
| 3.1.6 QinetiQ Foster-Miller Blade 6 | | | | 5.14.5 Telerob¡¯s Electrical |
| 3.1.7 TALON® Robots: TALON SWAT/MP 7 | | | | Force-Reflecting-Manipulators (FRMs) 5-91 |
| 3.1.8 Using TALON SWAT/MP on a County Deputy | | | | 5.14.6 American Crane and Equipment Corp and |
| Call 8 | | | | Telerob Partnership 5-92 |
| 3.1.9 QinetiQ Foster-Miller Ski 10 | | | | 5.15 Thermo Fisher Scientific / Ahura Scientific 5-93 |
| 3.1.10 QinetiQ Foster-Miller TALON Partnership with | | | | 5.15.1 Ahura Scientific 5-94 |
| Ahura Scientific | | | | 5.16 Versa / Allen-Vanguard 5-95 |
| Field-Deployed Analytical Instruments 11 | | | | 5.16.1 Allen Vanguard Trading Suspended on Stock |
| 3.1.11 QinetiQ Foster-Miller TALON® Tailored to First | | | | 5-96 |
| Responders 13 | | | | 5.16.2 Allen Vanguard HAL® EOD/IEDD/Search |
| 3.2 iRobot 18 | | | | Tasks Hook and Line System 5-97 |
| 3.2.1 iRobot® PackBot® 510 with EOD Kit 19 | | | | 5.16.3 Versa / Allen Vanguard Equinox I 5-100 |
| 3.2.2 iRobot® PackBot® 510 with First Responder | | | | 5.16.4 Versa / Allen Vanguard Field Test Set 5-101 |
| Kit 20 | | | | 5.16.5 Allen-Vanguard Revenue 5-102 |
| 3.2.3 iRobot® Warrior™ 700 21 | | | | 5.17 VIA Technologies 5-104 |
| 3.2.4 iRobot® PackBot® 500 with RedOwl Sniper | | | | 5.17.1 VIA Technologies Complete Platform Provider |
| Detection Kit 22 | | | | 5-105 |
| 3.2.5 iRobot® PackBot® 510 with FasTac Kit 25 | | | | 5.17.2 VIA Technologies Market Leadership 5-105 |
| 3.2.6 iRobot® PackBot® 500 with ICx Fido® | | | | 5.17.3 VIA Technologies Global Operations 5-106 |
| Explosives Detection Kit 25 | | | | 5.17.4 VIA Technologies Meeting the Market Challenge |
| 3.2.7 iRobot® PackBot® 510 with HAZMAT | | | | 5-107 |
| Detection Kit 27 | | | | 5.17.5 VIA Technologies Dynamic Fabless Business |
| 3.2.8 iRobot® SeaGlider 28 | | | | Model 5-108 |
| 3.2.9 iRobot® Ranger 29 | | | | 5.18 Selected Manufacturers of Military Robots 5-108 |
| 3.2.10 iRobot Aware 2.0 Robot Intelligence Software | | | | 5.19 Government Agencies and Other |
| 30 | | | | Organizations Using Military Robots 5-112 |
| 3.3 Northrop Grumman 31 | | | | 5.19. |
| 3.3.1 Andros HD-1 : Compact, Lightweight Platform 31 | | | | |