Robot Meets
Robot Meets
Anyone know the singer's music video for a pair of sneakers?
A music video I saw the other day and I loved the song, but not took the artist. The video follows a pair of sneakers with the day of the person using them. The shoes play a pair of high heels and a biker boots kids, etc. She has another video of a small robot that works in a factory. Help with the song or artist?
Kenna – "Free Time" http://www.youtube.com/watch?v=ptBZsrGOX-4 second describes the song is "Hell Bent":)
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Tin Windup Robot Robby meets R-35 Masudaya CHROME $16.95 |
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Tin Windup Robot Robby meets R-35 Masudaya Black $15.95 |
The military robots and unmanned vehicles market shares, strategies and forecasts around the world, 2010 and 2016-Aarkstore Company
LEXINGTON, Massachusetts (January 22, 2010) announced that it has a new study on military ground robots and unmanned vehicles. The study of 2010 has 513 pages, 190 tables and figures. markets around the world are prepared to achieve significant growth as military ground robots and unmanned vehicles are used worldwide. The growth comes from nature Battle of the changes in all regions, while the globally integrated enterprise replaces the nationalist domination.
military robots automation process defense is the next wave of military evolution. As the automated systems and complement the Internet, communication is provided on a global level. The military card is moving to provide protection against terrorists and those trying to maintain a safe environment, lifestyle, mobile, independent. Much of the mission military is moving the adoption of a police force training mission, seeking the protection of civilians worldwide.
According to Susan Eustis, author of the study, the ¡° s purchase of military robots depends on budgetary constraints. The use of military robots s is based on offering a robot is less expensive to put in the field that a trained soldier. That automation of the process has been called the leaders of the military.
Robots are automating of military land systems, allowing vital protection of soldiers and people in the field, creating the possibility of reduced fatalities. Mobile robotics operate regardless of operator.
Innovation from all sellers is staggering. No innovation is more important than another. A seller, BAE Systems has a robot ant size useful for the recognition and network robots in development. While the soldiers take up positions behind a wall safe, which display a small reconnaissance team. The initial deployment is intended to be a very, very small reconnaissance team. Some jumps, some flight, the reconnaissance team autonomous stealth fades into a building suspected of several minutes, then relays the back to clear all external partners where appropriate.
What is good for an unmanned rover land is also good for a vehicle ummanned. Multiple technological, the share of logistics, politics and the forces market a quantum singularity that has brought mobile robotics to the point where robots are useful for all branches of the military services. This phenomenon to have a major impact on how companies manage the military and police.
The use of Remote Control toys in Iraq started as improvised robots to check possible roadside bombs. Since then there has been intense activity on the robotic explosive ordnance disposal (EOD) in front since the start early. Deliveries of smaller search engines and anticipated economic.
The emergence of a market for intelligent robots, mobile for use in the field and confined areas of the struggle of the city offers many opportunities. The units used in public spaces and on the battlefield to create a better, more flexible, military pay.
The technology is used to drive different types of robots. Core robotics research and advances in robotics technology can be applied in a variety of form factors and robotic functionality robotics. Power Advances in and out of it. With each new round of innovation, a type of technological cross pollination occurs that improves robotic platforms and opens up other avenues where intelligent mobile robots can be employed, creating new markets.
Robots are more advanced in their training and tools available to create units. The military robots have evolved from units used in the field to manage different situations that arise. Robots save lives ..
Defence security systems is an emphasis in the reduction of causation in combat. This has resulted in investment in robotics technology is useful. Robotic research is on the road Quick government spending. Congress passed a law making it an Army goal that by 2015, a © \-third of ground combat vehicles are operational unmanned. The U.S. Navy and Marines have similar initiatives.
analysis of military ground robot market forecast indicates that vendor strategy is to pursue the development of new applications that leverage the technology. Robot solutions are achieved by exploiting the ability to innovate, to take products to market quickly. The military authorities seek to reduce purchasing costs through design and outsourcing. Vendor capabilities depend on the ability commercialize the research results in order to fund the research. Research funded by the Government is developing a certain ability lower robot.
Markets at $ 831 million in 2009 are expected to reach 9.7 billion U.S. dollars in 2016.
Report Methodology
This is the 428th report in a series of primary market research reports that provide forecasts in communications, telecommunications, Internet, computer software, telephone equipment, health equipment and energy. Automated process and significant growth potential are the priorities in selecting a theme. Leaders project will take direct responsibility for writing and preparing each report. They have significant experience preparing industry studies. The forecasts are based on primary research and proprietary databases.
Primary research is carried out by talking to customers, distributors and companies. The survey data is insufficient to make an accurate assessment of market size, as seen in the value of shipments and the average price to make assessments market. Our track record in achieving accuracy is unmatched in the industry. We are known for being able to develop specific actions and market projections. This is our specialty.
The analysts process focuses on getting good numbers of market. This process involves analyzing the markets from several different perspectives, including shipping suppliers. The interview process is an essential aspect too. We have a lot of granular analysis of different items by the manufacturer in the study and additions prepared after the study was published in case it is appropriate.
Forecasts reflect analysis of market trends in the segment and related segments. Unit and dollar shipments are analyzed through consideration of dollar volume of each market participant in the segment. analysis of the installed base and analysis of the unit is based on interviews and information search. Market share analysis includes conversations with key customers of products, industry segment leaders, marketing directors, distributors, as market participants, opinion leaders, and companies seeking to develop measurable market share.
Over 200 in-depth interviews are conducted for each report with a wide range of key participants and industry leaders in market segment. Establishing accurate market forecasts based on economic and market conditions as a basis. use input-output, flow charts, and other economic methods to quantify data. Use in house analysts who meet stringent quality standards. Interviewing key industry participants, experts and end users is a central part of the study. Our research includes access to large proprietary databases. Literature search includes analysis trade publications, government reports and corporate literature.
Results and conclusions of this report are based on information from industry sources, including manufacturers, distributors, partners, opinion leaders and users. Interview data was combined with information obtained through an extensive review of Internet and print sources such as trade publications, trade associations, company information, and online databases. The projections contained in this report are revised from the analysis of top-down and bottom up to make sure there is consistency from that perspective.
Year basis for analysis and projection is 2009. In 2009, several years before that as a baseline, market projections were developed for 2010 until 2016. These projections are based on a combination of a consensus among opinion leaders interviewed contacts combined with an understanding of the key factors market and its impact from a historical and analytical perspective. The analytical methods used to generate the market estimates are based on analysis of penetration, comparable market analysis, and calculations of the delta to complement dependent and independent variables of analysis. All the analysis shows the selected descriptions products and services.
This research includes a model referencde return on investment that is part of a series that provides access to systems financial planning information that supports analysis of all the issues that impact the management of a product launch or large data centers complex. The methodology used in the models refers to a sophisticated analytical technique for understanding the impact of workload on the processor and the consumer cost.
We have studied the measure and independent research to develop hypotheses that reflect the expected actual use and cost of systems. Analysis Comparative reflect the input of these values in the models.
The variables and assumptions provided for in the market survey and return models are based on investment on extensive experience in providing research organizations of large enterprises and data centers. The models have ROI listservs from different manufacturers, models of IBM System z, and labor costs by category worldwide. This information has been developed from research data bases built property as a result of the preparation of market research studies that address the software, energy, health, telecommunicatons, and companies hardware.
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Table Content
MILITARY ON EARTH IS ROBOT-1 EXECUTIVE SUMMARY
Military Ground Robot Market Driving Forces ES-1
Future Combat System (FCS) Program Transitions
Army Combat Brigade Modernization ES-2
Robots operate independently ES-2
Market Driving Forces military robots 5
Ground Military Robot Market Shares ES-6
BAE Systems Ant Size ES-7 Robot
Military Ground Robot Market Forecasts ES-8
1. MILITARY ROBOTS MARKET DESCRIPTION AND MARKET DYNAMICS 1-1
1.1 the deployment of robotic capabilities Combat Teams 1-1
1.2 Scope 1-2 Military Robot
1.2.1 1-3 Military Robot Applications
1.3 Future Army Office of the G-8 1-6
1.3.1 Capacities Meet Army Combat Team Brigade 1-8
1.3.2 Transition between the current market and
When the market goes 1-9
Different sizes of UGVs 1.3.3 1-10
1.4 Types of military robots 1-12
1.4.1 Observation Robot Telerob EOD and 1.12
1.4.2 QinetiQ North America ® Talon Robots
Disrupters universal mounting 1-15
1.4.3 Next-generation General Dynamics
Increases CROWS II Soldiers of 1-17 security
1.4.4 Ground Soldier iRobot's unmanned 1-18
1.5 UGV 1-19 Enabling Technologies
1.5.1 Processing Sensor 1-20
1-21 Machine 1.5.2 Autonomy
1.6 Bandwidth 1-22 Military Robot
1.6.1 UGV Follow Me 1-22 Capacity
1.6.2 Communications Bandwidth 1-23
1.6.3 1-23 Battery Power
1.6.4 Combination of batteries linked to
A conventional diesel board 1-24
1.7 SUGVs 1-25
1.7.1 Size half UGV Category 1-25
1.7.2 Large UGV 1-26
1.7.3 U.S. Army Ground Combat Vehicle 1-27
1.7.4 TARDEC 1.28
1.7.5 Tacom 1-29
2. ASSESSED LAND MILITARY ROBOT AND FORECASTS 2-1
2.1 Military Robot Market Forces Driving Land 2-1
2.1.1 Future Combat System (FCS) Program Transitions
Army Brigade Combat Team modernization 2-2
2.1.2 Robots operate independently 2-2
2.1.3 Robotics Market Driving Forces 2-5 Military
Military land 2.2 6.2 Robot Market Shares
2.2.1 General Dynamics Robotic Systems 2-9
2.2.2 Northrop Grumman Andros Remotec 2-10
2.2.3 Northrop Grumman / Remotec 2-10
2.2.4 Northrop Grumman Remotec Robots UK Truck 2-12
2.2.5 iRobot Government and Robots industrial 2-12
2.2.6 QinetiQ / Foster-Miller 2-15
2.2.7 Qinetiq / Foster-Miller TALON EOD robots 2-16
2.2.8 QinetiQ NAVEODTECHDIV Funds
Foster-Miller Talon 2-17 Robots
2.2.9 Foster-Miller TALON EOD and 2-17 Reply
02/02/1910 Kongsberg CrowsII 2-18 Military Robot System
BAE Systems 02.02.1911 02.19 Size Robot Ant
Telerob 02/02/1912 2-20 Rapid Response Vehicles
02/02/1913 Boston Dynamics 2-21
Robot Technology Robot 2-21 02/02/1914
2.3 Military and First Aid Robot 2.23 Market Shares
2.4 Market Forecasts 2-27 Military Robot Land
2.4.1 Midrange Market Forecasts 2-29 Military Robot
2.4.2 End Higher Military Robots 2-33
2.4.3 midrange market forecasts unmanned 2-35 UVV
2.4.4 High End UVV unmanned 2-38 Market Forecasts
2.4.5 SUGVs 2-40
2.4.6 Small military robots used in networks 2-42
2.4.7 Robots armed with remote deployed in Iraq 2-45
2.4.8 Robots for Defense & Security 2-46 National
2.4.9 U.S. Army Small Unmanned Ground Vehicle (SUGV) 2-47
04.02.1910 Research Defense Advanced Projects
Agency, or DARPA Tactical Teams 2-47
2-48 Field Application 04/02/1911
USA 02/04/1912 military robots key to success in Iraq overload 2-48
2.5 Robot Military Analysis 2-50 regional market
2-52 2.5.1 iRobot Geographic Information
3. PRODUCT DESCRIPTION MILITARY ROBOTS 1.3
3-1 3.1 iRobot
3.1.1 iRobot PackBot ® ® 510 with EOD Kit 2.3
IRobot 3.1.2 ® PackBot ® 510 with First Aid Kit 3-3
IRobot ® 3.1.3 Warrior ™ 700 4.3
IRobot 3.1.4 ® PackBot ® 500 with RedOwl Sniper
3-5 Detection Kit
IRobot 3.1.5 ® PackBot ® 510 with 3-8 Fastac Kit
IRobot ® 3.1.6 ® PackBot ® 500 with Fido ICX
Explosive Detection Kit 3-8
IRobot 3.1.7 ® PackBot ® 510 with hazardous materials detection kit 3-10
IRobot ® 3.1.8 SeaGlider 3-11
iRobot ® SeaGlider 3-11
IRobot ® 3.1.9 Ranger 3-12
iRobot ® Ranger 3-12
IRobot Aware 2.0 01/03/1910 3-13 Robot Intelligence Software
Northrop Grumman 3.2 3-14
3.2.1 Andros HD-1: Platform compact, lightweight 3-14
Northrop Grumman 3.2.2 Vehicle Data / Links Communication 3-17
3.2.3 Northrop Grumman F6A – Versatile Platform 3-17
3.2.4 Northrop Grumman vehicle data and communication links 3-20
3.2.5 Northrop Grumman Mark V-A1 – Highly
Versatile, sturdy, all-terrain Platform 03/20
3.2.6 Northrop Grumman V-A1 Features 3-22
3.2.7 Northrop Grumman vehicle data and communication links 3-23
3.2.8 Mini-ANDROS II Grumman Northrop – Compact,
Capable Platform for two Man-Portable 3.23
Northrop Mini 3.2.9 3-25 Grumman Andros II Features
03/02/1910 Northrop Grumman Vehicle Data / Communication Links 3-26
03/02/1911 Northrop Grumman Wolverine – Outdoor,
3-26 All-Terrain Workhorse
03/02/1912 Northrop Grumman 3-28 Wolverine
03/02/1913 Northrop Grumman Vehicle Data and communication links 3-29
3-30 3.3 General Dynamics
3.3.1 General Dynamics next generation CROWS II
Improve the security of the soldiers 3-31
Kongsberg 3.4 3-33
Kongsberg CrowsII 3.4.1 Robot System Military 3-33
Kongsberg 3.4.2 Addresses 3-34 diver Raid
Norwegian Kongsberg Mines 3.4.3 Recognition Program 3-34
3.5 BAE Systems 3-36
3.5.1 BAE Systems Robot Ant Size 3-36
3.5.2 Personal Robots BAE 3-38
3.5.3 BAE Systems UGV large 3-39
3.6 Lockheed Martin 3-39
3.6.1 Lockheed multifunction Martin Utility /
Logistics and Equipment (mule) 30-40
3.6.2 Lockheed Martin NUWC UUV Great Manta 3-42
3.6.3 Lockheed Martin Great Manta NUWC UUV
For 3-44 Offshore Oil Industry
3.6.4 Lockheed Martin Remote AN/WLD-1
Minehunting System (RMS) 3-44
QinetiQ North America 3.7 TALON ® Robots 3-48
3.7.1 QinetiQ North America ® Talon Robots
Disrupters universal mounting 3-50
3.7.2 Qinetiq / Foster-Miller 3-52
3.7.3 Foster-Miller TALON Military Robot Family 3-53
3.7.4 New Foster-Miller: Two-Way Hailer 3-54
3.7.5 Foster-Miller TALON 3-54 Reply
Foster-Miller 3-56 3.7.6 EOD robots
3.7.7 Foster-Miller SWORDS Robots 3-58
3.7.8 Foster-Miller CBRNE / Hazmat Robots 3-60
3.7.9 Foster-Miller TALON SWAT / MP 3-61
03/07/1910 Maars Robot 3-62 Foster-Miller
Foster-Miller Dragon 07/03/1911 Field convertible SUGV 3-64 corridor
Foster Miller TALON 03/07/1912 GEN IV Engineer 3-65
07/03/1913 Foster Miller unmanned TAGS-CX 3-66
Vehicles 07/03/1914 QinetiQ unmanned TAGS-CX 3-67
03/07/1915 Combat Engineer Route Clearance Robot 3-70
03/07/1916 Maars Talon Robots ™ 3-75
3-78 Telerob 3.8
3.8.1 Telerob – EOD / IEDD Team, EOD
The robots and vehicles 3-78
3.8.2 Heavy Duty Telerob explosives Teodor
Ordnance Disposal (EOD) Robot 3-80
3.8.3 Telerob high mobility Telemax EOD Robot 3-81
Telerob 3.8.4 EOD / IEDD 3-81 vehicles
Vanguard Versa 3.9 / Allen 3-86
3.9.1 Allen Vanguard Vanguard ® ROV 3-88
3.9.2 Allen Vanguard Defender Robot / ROV 3-97
3.9.3 Allen Vanguard ROV-Track CBRNE 3-102
Boston Dynamics 3-106 3.10
Boston 3.10.1 LittleDog dynamics – Locomotion Legs
3-107 Robot Learning
Boston 3.10.2 dynamic PETM – Bigdog get a Big Brother 3-109
Boston 3.10.3 dynamic RHex 3-110 devours road
Boston 3.10.4 dynamic RiSE: Climbing Robot 3-112
Robotic technology 3-115 3.11
RTI Memetics 3.11.1 Military (Propagation Information,
Impact and persistence ¨ C Information PIP) Project 3-116
Humanoid Robots And Legs 3-116 3.11.2 RTI
3.12 Fujitsu Service Robot (Main) 3-118
3.13 SOS Gostai 3-119
Kairos 3.14 autonomi 3-121
3.15 Robotics red Scripps Spray glider UUV 3-122
3.15.1 Red Robotic Spray glider Scripps
The sensors, navigation and communications 3-123
Boeing 3.16 ¯ s long-term AN/BLQ-11 Minas
Recognition System (living marine resources) 3-129
3.17 Boeing Advanced Information Systems 3-133
3.18 Sonatech 3-135
3.19 BAE Systems Underwater Systems 3-135
Jerry Baber 3-136 3.20 Armero
3.21 IVTT Intelligent Car Program
Robot 3-137 hops on the walls
3.21.1 The precision robotic technology Hopper Urban 3-139
Robotics 3.21.2 Robot Technology 3-139
4. 4-1 ROBOT MILITARY TECHNOLOGY
4.1 Enabling Robot military technology 4-1
4.2 Intel Integrated Circuit of evidence-based innovation 4-3
4.2.1 Open robot control software 4-5
4.2.2 Robot key military technology 4-6
4-10 4.2.3 PC-Bots
Visual Simultaneous Localization and Mapping 4-10
4.3 Advanced Robot Technology: Navigation, mobility,
And the handling of 4-11
4.3.1 4-11 Robot Intelligence Systems
4.3.2 real world, dynamic 4-12 Perception
Friendly interfaces 4.4 4.12
4.4.1 tightly-integrated robot design Electromechanical 4-13
4.5 Based Mobile Robotics iterative development 4-14
4.5.1 Next Generation Products Leverage Model 4-15
4.5.2 Structure Modular Robot Control 4-15
4.5.3 Lattice Architectures 4-16
4.5.4 Chain / Tree Architectures 4-16
4-16 4.5.5 Deterministic Reconfiguration
4.5.6 The stochastic reconfiguration 4-17
4-17 4.5.7 Modular robotics
Intel 4.6 Military Robot 4-18 Cultivating Collaborations
Hitachi 4.7 configuration of the robots according to the family of SuperH 4-18
Hitachi Concept of MMU and Space Logic 4-19
The use of robotics for thin film Li-ion Lithium 4-23
4.8 Network robots and sensors 4-24
4.8.1 Sensor networks of the research Agenda 4-25
4.8.2 Light sensing 4-26
4-27 acceleration sensors 4.8.3
4-27 4.8.4 Chemical Detection
4.9 Functions 4-27 Military Robot Technology
Carbon Nanotube Radio 4-28 4.10
4.11 Funded Programs 4-30 Military Robot
4.11.1 Future Combat System (FCS) Program
Transitions to the Army's Brigade Combat Team modernization 4-30
4.11.2 XM1216 Small Unmanned Ground Vehicle (SUGV) 4-32
4.11.3 Sub-UUV Pilares 4-33
4.11.4 Passing autonomous underwater vehicles (HAUV) 4-36
Alliant 4-36 4.11.5
4.11.6 ATSP is a vehicle for all Government Contracting 4-38
4.11.7 quick, efficient procurement vehicle 4-38
4.11.8 facilitates insertion Proven Technology and Systems 4-38
4.11.9 Access to all Northrop Grumman sectors 4-39
Technology iRobot 4.12 4-39
4.12.1 iRobot AWARE Robot Intelligence Systems 4-39
4.12.2 iRobot Real World, dynamic detection. 4-40
4.12.3 iRobot easy to use interface 4-40
4.12.4 iRobot tightly-integrated electromechanical design. 4-41
4.13 evolution of robotic technology solutions 4-42
Evolution Robotics Sample Applications 4-44
NASA rovers 4.14 4-45
NASA robot Spirit 4-46 4.14.1
4.14.2 NASA Mars Exploration Rover Spirit 4-48
NASA Shows Sprit Sol-By-Sol Summary 4-50
Opportunity Update 4-51 4.14.3
4.14.4 Summary of NASA Opportunity Sol-By-Sun 4-52
NASA's Opportunity rover 4-54 4.14.5
4.15 Remotely Controlled Robot missions 4-55
4.15.1 Auto-Navigation System Takes Photos
Near field 4-59
4.15.2 Mars Rovers Spirit and Opportunity robotic 4-61
4.16 machine self-reproduction of 4-62
4.16.1 M-TRAN Modular Transformer 4-62
4.16.2 Attitude Control in Space Control Moment Gyros 4-63
5. 5-1 MILITARY ROBOT COMPANY PROFILES
5.1 The dependence of America Inc. (Amrel) 5-1
5.1.1 Field Controls Robot Amrel Record Interoperability 5-2
5.1.2 Amrel small, highly integrated
Mobility 2.5 Computing Solutions
5.2 BAE Systems 5-2
BAE Systems Ant 5.2.1 Size Robot 5-3
BAE 5-5 5.2.2 Personal Robots
5.2.3 BAE Systems UGV big 5-5
5.3 Dynamics Boston 5-5
Doosan Infracore 5.4 / Bobcat Company 5-6
General Dynamics 7.5 5.5
5.5.1 General Dynamics Combat Autonomous Mobility
System (CAMS) 5-7
5.5.2 General Dynamics $ 60 million by the U.S.
Air Force Operations Support Mission 5-8
5.5.3 General Income Dynamics 5-9
5.5.4 Group Dynamics Business General Revenue 5-10
5.5.5 Systems General Dynamics Combat 5-13 Awards
5.5.6 General Dynamics Land Systems $ 24
Million contract to supply remote controls
Operated Weapons 5-13
5.5.7 General Dynamics Government of Canada ¯ s
LAV III 14 Upgrade Program
5.5.8 General Dynamics U.S. Businesses Military Vehicle 5-15
5-16 Gostai 5.6
5-16 5.7 iRobot
5-17 5.7.1 iRobot Home Robots
5.7.2 iRobot Government and Industrial Robots 5-17
Location 5-17 5.7.3 iRobot
5.7.4 iRobot Military Programs 5-17
Revenue 5-19 5.7.5 iRobot
5.7.6 Geographic Information iRobot 5-25
5-25 5.7.7 iRobot major customers
Description 5-25 5.7.8 iRobot
5.7.9 iRobot segment of Industry, Geographic Information
Important customers and 5-27
07/05/1910 iRobot Home Robots 5-27
05/07/1911 iRobot Government and Industrial 5-27
IRobot 05/07/1912 Geographic Information 5-32
07/05/1913 iRobot Home Robot Division of Revenue and units shipped 5-33
07/05/1914 iRobot Government and Industrial Division 5-34
5-36 iRobot Strategy 05/07/1915
05/07/1916 iRobot Government and Industrial Products 5-38
05/07/1917 iRobot Home Robots 5-42
07/05/1918 iRobot Government and Industrial Robots 5-42
07/05/1919 iRobot 5-43 Partners and Strategic Alliances
05/07/1920 iRobot / Boeing Company 5-43
IRobot 05/07/1921 / Advanced Scientific Concepts 5-43
05/07/1922 iRobot / TASER International, 5-44
Kongsberg 5.8 5-44
5.8.1 Scope growing Kongsberg CROWS II
Framework Agreement 5-45
5.8.2 Ownership 5-45 Kongsberg
5.8.3 Kongsberg manufacturing sites 5-46
5.8.4 Income Kongsberg Operations 5-47
5.8.5 Kongsberg 5-47 employees
5.9 Lockheed Martin 5-48
5.9.1 Lockheed Martin Defense Department Positioning 5-49
Northrop Grumman 5.10 5-53
5.10.1 Northrop 5-54 Grumman Remotec Robots
5.11 Qinetiq / Foster-Miller 5-55
5.11.1 MOD QinetiQ UK and U.S. 5-56 Department of Defense will provide target markets
2005-2009 Revenue 5-58 5.11.2 QinetiQ
5.11.3 5-61 QinetiQ North America
QinetiQ Revenue 5-64 5.11.4
QinetiQ UK 5-66 5.11.5
5.11.6 America QinetiQ North 5-66
5.11.7 Autonomy and Robotics QinetiQ 5-67
5.11.8 QinetiQ Group revenue 5-68
5.11.9 Business QinetiQ governance review 5-70
Revenue per customer 05/11/1910 QinetiQ 5-71
QinetiQ North America 11/05/1911 5-73
5.12 North America QinetiQ / Foster-Miller 5-75
5.12.1 America QinetiQ North / 5-77 Foster-Miller
QinetiQ 5.12.2 common robotic controller (CRC) 5-77
5.12.3 QinetiQ North America Technology World Class 5-78
5.12.4 QinetiQ North America Technology Solutions Group 5-79
Robot Technology Inc. 5.13 5-79
RTI 5.13.1 Tactical Energetically Autonomous Robot (RATS) 5-80 Project
RTI 5.13.2 Intelligent Vehicle Technology Transfer (IVTT) Program 5-81
5.13.3 The precision robotic technology Urban Hopper 5-84
Robot Robot Technology 5-85 5.13.4
5-85 Telerob 5.14
5.14.1 Telerob – explosive ordnance disposal teams IEDD,
EOD robots and vehicles 5-86
5.14.2 Heavy Duty explosives Teodor
Ordnance Disposal (EOD) Robot 5-87
5.14.3 Telemax high mobility Telerob EOD Robot 5-88
5.14.4 Telerob EOD / utility vehicles IEDD 5-88
¯ s Telerob 5.14.5 Electric Force-Reflecting-manipulators (FRM) 5-91
American Crane 5.14.6 and Equipment Corp
and 5-92 Telerob Association
5.15 Versa / Allen-Vanguard 5-93
Allen Vanguard 5.15.1 Trade suspended on the Stock 5-94
5.15.2 Vanguard HAL Allen ® DOE / IEDD /
Search tasks hook and line system 5-96
5.15.3 Versa / Equinox I 5-99 Allen Vanguard
5.15.4 Versa / Test Allen Field in September Vanguardia 500-100
5.15.5 Revenue Allen-Vanguard 500-100
VIA Technologies 5.16 5-103
5.16.1 Platform Provider VIA Technologies complete 5-104
5.16.2 THROUGH market leadership 5-104 Technologies
VIA Technologies 5.16.3 Global Operations 5-105
VIA Technologies 5.16.4 market face the challenge 5-106
VIA Technologies 5.16.5 dynamic business model Fabless 5-107
Manufacturers selected 5.17 5-107 Military Robots
5.18 Government Agencies and Other Organizations
5-111 Use of military robots
RTI 5.18.1 Intelligent Transfer Vehicle Technology (IVTT) 5-114 Program
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