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The military robots and unmanned vehicle market shares, strategies and forecasts in the world, from 2010-2016, Aarkstore Company
Lexington, Massachusetts (January 22, 2010) announced a new study in military ground robots and unmanned vehicles. The study of 2010 513 pages, 190 tables and figures. Markets Overall they are willing to achieve significant growth as a military ground robots and unmanned vehicles are used throughout the world. The growth stems from the nature Battle of the changes in all regions, while the globally integrated enterprise replaces the nationalist domination.
process automation defense robots military is the next wave of military evolution. As automation and complement the Internet network, facilitates communication around the world. The charter movement military to protect against terrorists and those who seek to maintain a safe environment, lifestyle, mobile and independent. Much of the military mission is moving to adopt a training mission of the police force, seeks to protect the civilian population throughout the world.
According to Susan Eustis, lead author the study, the ¡° s purchase of military robots depends on budgetary constraints. The use of military robots s is based on offering a robot that is less expensive to bring a soldier trained. That's the automation processes of appeal to the leaders of the army.
The Robots are automating military ground systems, allowing vital protection of soldiers and locals, creating the possibility of reduced fatalities. Mobile robotics operate independently the operator.
The innovation of all vendors are striking. No innovation is more important than another. A seller, BAE Systems has a size of robot ants useful for the recognition and development of robot networks. While the soldiers take up positions in the shelter behind a wall, they display a small team recognition. The initial deployment is willing to be very, very small reconnaissance team. Some jumps, the reconnaissance team furtive self disappears in Progress a suspect for several minutes, then remove all sent back to their external partners where appropriate.
What is good for an unmanned robotic vehicle ground is also good for a vehicle ummanned. Multiple technical, logistical, share policies and market forces has robotic Quantum singularity moving to the point where robots are useful for all branches of the military services. This phenomenon will have a major impact on how we manage the army and police private.
The use of remote control toys in Iraq started as improvised robots to check the pumps possible. Since then he has been a flurry of activity in the robotic explosive ordnance disposal (EOD) forward as they start early. Deliveries of smaller search engines and cheap are planned.
The emergence of a market for intelligent mobile robots for use in tight spaces and the fight against the city offers many opportunities. The units used in the public spaces and creating a better field of battle, more flexible, more efficient military.
The technology is used to power the robot types more disparate. Research Core robotics, and advances in robotic technology can be applied in a variety of form factors and robotic functionality robotics. Advances flow in and out of it. With each new cycle of innovation, a type of technological product that improves cross-pollination robotic platforms and opens up other avenues where intelligent mobile robots can be used to create new markets.
Robotics are more advanced training and tools available to create units. Military robots have evolved from units used in the field to manage different situations that arise. Robots save lives ..
Security Defense Systems with an emphasis on causality reduction during combat. This has resulted in investment in robotics technology is useful. robotics research is on the fast track for government spending. Congress passed a law making it an Army goal that by 2015, a © thirds of the vehicles on land combat operations are not monitored. The United States Navy and Marines have launched initiatives.
analysis of military land robot market forecast indicates that vendor strategy is to continue the development of new applications that leverage advanced technologies to the forefront. Robot solutions are achieved by exploiting the ability to innovate and bring products to market quickly. The military authorities seek to reduce purchasing costs through design and outsourcing. Vendor capabilities depend on the ability to commercialize the results of research to fund new research. Government funds research developments in their field robots.
Markets at $ 831 million in 2009 should reach 9.7 billion million in 2016.
Methodology Report
This report is the 428th in a series of research reports that provide the main market forecasts in communications, telecommunications, Internet, computer, software, telephone equipment, health equipment and energy. automated and significant growth potential are the priorities in the choice of topics. Project managers have direct responsibility for writing and preparing each report. They have significant experience preparing industry studies. The forecasts are based on basic research and the owners of databases.
Basic research is done talking with customers, distributors and companies. The survey data is not sufficient to make an accurate assessment of market size, it seems that the value of shipments and the average price to arrive at assessments market. Our experience in achieving a precision unparalleled in the industry. We are known for being able to develop Exact units and market projections. This is our specialty.
The analyst's process focuses on obtaining the economic numbers. This process involves reviewing the contracts of several different perspectives, including shipments from suppliers. The interview process is essential as well. We have a lot of granular analysis of individual items by the seller in the study and additives prepared after the study was published if appropriate.
Forecasts reflect analysis of market trends in the segment and the segments related. 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 is based on interviews and research information. Market share analysis includes conversations with key customers of products, leaders industry segment, marketing directors, distributors, as market participants, opinion leaders, and companies seeking to develop fee measurable market.
200 in-depth interviews are conducted for each report with a broad range of industry participants and leaders in the market segment. Down accurate forecasts of the market based on market economy and basic conditions. Using relations / O, diagrams and other methods to quantify data economic. Use analysts who meet stringent quality standards. Interviewing key industry participants, experts and end users is an element focus of the study. Our research includes access to large proprietary databases. Literature search includes analysis of trade journals, reports government and corporate literature.
The findings and conclusions of this report are based on information obtained from sources in the industry, including manufacturers, suppliers, partners, opinion leaders and users. Interview data was combined with information gathered through a detailed examination of the Internet and sources such as printed publications, trade associations, company literature and online databases. The projections in this report have been audited Analysis page and down to ensure there is a similarity in this context.
The base year for analysis and projection of 2009. With several years of 2009 and before, as a baseline, market projections were developed for 2010-2016. These projections are based on a combination of a consensus among the contacts opinion leaders interviewed, combined with an understanding of key market drivers and their impact on historical and analytical perspective. Analytical methods used to produce estimates based on market penetration analysis, market analysis and calculations like Delta to complete the analysis of the independent and dependent variables. All tests are selected descriptions of products and services exhibition.
This research includes a return referencde investment model that is part of a series that provides access to financial information systems planners supports analysis of all numbers that impact the management of a product launch or large and complex data centers. The methodology used in the models relating to a sophisticated technical analysis to understand the impact of workload on the processor power consumption and cost.
He referred to the parameters and independent research to develop hypotheses that reflects the intended use and actual costs of the system. The benchmarks reflect the contribution of these values in the models.
Variables and the circumstances referred to market studies and models of ROI are based on extensive experience in providing research organizations of large companies and data centers. models ROI listservs have different manufacturers, models of IBM System z and labor costs by category the world. This data was collected from databases created property search after the preparation of market studies that meet the software, energy, health telecommunicatons and equipment companies.
Content:
FLOOR SUMMARY ES-1 MILITARY ADMINISTRATIVE ROBOT
Ground Military Market Robot Driving Forces ES-1
Future Combat System (FCS) Program Transitions
Army Brigade Combat Team modernization ES-2
Robots operate independently ES-2
The military training market of five robots
Military Ground Robot Market Shares ES-6
BAE Systems Ant Size Robot ES-7
Military low robot market forecasts ES-8
1. DESCRIPTION OF CONTRACT market dynamics and 1-1 MILITARY ROBOTIC
1.1 provides robotic capabilities the fight against 1-1 teams
1.2 Scope 1-2 Military Robot
1.2.1 Military Applications Robotics 1-3
3.1 Army Office of the G-8 Future 6.1
1.3.1 Provide the capability of the equipment of the Army combat brigade of 1-8
1.3.2 Transition from the current market and
When the market 1-9 is
Different sizes of 1-10 1.3.3 HSM
1.4 Types 1-12 of military robots
1.4.1 Observation Robot Telerob explosives and explosive ordnance disposal 1-12
1.4.2 QinetiQ North America Talon ® robots
1-15 Mount Universal Disruptors
1.4.3 Next-generation General Dynamics
CROWS II Increases safety 1-17 of soldiers
1.4.4 Soldier Unmanned Ground Vehicle 1-18 iRobot
1.5 Enabling Technologies 1-19 HSM
1.5.1 Processing Sensor 1-20
1.5.2 Autonomy machine 1-21
Bandwidth 1.6 Military Robot 1-22
1.6.1 UGV Follow Me capability 1-22
1-23 1.6.2 Broadband
1.6.3 Battery 1-23
1.6.4 Combination of batteries is about
Conventional Diesel Edge 1-24
1.7 SUGV 1-25
1.7.1 Category medium-size UGV 1-25
1.7.2 HSM large 1-26
1.7.3 U.S. Army Ground Combat Vehicles 1-27
1.7.4 TARDEC 1.28
1.7.5 Tacom 1-29
2. Actions GROUND ROBOT military and Forecasts 2-1
2.1 Military Robot Market Driving Forces 2-1 floor
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 Military Robots Market forces driving 2-5
2.2 shares in the military market down 2-6 Robot
2.2.1 General Dynamics Robotic Systems 2-9
2.2.2 Northrop Grumman Andros REMOTEC 2-10
2.2.3 Northrop Grumman / 2-10 REMOTEC
2.2.4 Northrop Grumman Robots UK truck REMOTEC 12.02
2.2.5 iRobot Government and Industrial Robots 2-12
2.2.6 QinetiQ / Foster-Miller 2-15
2.2.7 QinetiQ / Foster-Miller TALON EOD robots 2-16
QinetiQ 2.2.8 NAVEODTECHDIV Fund
Foster-Miller Talon Robot 2-17
2.2.9 Foster-Miller TALON response and MEN 2-17
02/02/1910 Kongsberg System CrowsII 2-18 Military Robot
02/02/1911 BAE Systems Robot Ant Size 19.2
Fast car 2-20 Telerob 02/02/1912
02/02/1913 Boston Dynamics 2-21
Robot Technology Robot 2-21 02/02/1914
2.3 and high-ranking military, 2-23 Responder Robot Market
Ground Military Robots Market Forecasts 2.4 2-27
2.4.1 Midrange Market Forecasts 2-29 Military Robot
2.4.2 Top End Military Robots 2-33
2.4.3 Unmanned Vehicles range 2-35 half forecasts UVV market
2.4.4 high-end market forecasts of UAVs 2-38 UVV
2-40 2.4.5 SUGV
2.4.6 Military robots used in small networks 2-42
2.4.7 Remotely armed robots deployed in Iraq 2-45
2.4.8 Robots for defense and security cover 2-46
2.4.9 U.S. Army small land vehicles unmanned aerial (SUGV) 2-47
02/04/1910 projects for the Defense Advanced Research
Agency, or DARPA tactical teams 2-47
Range 2-48 04/02/1911
02/04/1912 key U.S. military robots surge success in Iraq 2-48
Analysis 2.5 Military Robot Regional Market 1920-1950
IRobot 2.5.1 Geographic Information 2-52
3. PRODUCT DESCRIPTION MILITARY ROBOTS 3-1
3-1 Robot 3.1
IRobot ® 3.1.1 PackBot ® 510 with EOD Kit 2.3
IRobot PackBot ® 3.1.2 ® 510 First Aid Kit 3-3
3.1.3 iRobot ® Warrior ™ 700 3.4
IRobot 3.1.4 ® PackBot ® 500 with RedOwl Sniper
5.3 Detection Kit
IRobot 3.1.5 ® PackBot ® 510 with 8.3 Fastac Kit
IRobot PackBot with Fido ® 3.1.6 ® 500 ® ICX
Explosive Detection Kit 3-8
IRobot ® 3.1.7 PackBot ® 510 with kit for the detection of hazardous materials 3-10
IRobot ® 3.1.8 SeaGlider 3-11
IRobot ® SeaGlider 3-11
IRobot ® 3.1.9 Ranger 3-12
iRobot ® Ranger 3-12
01/03/1910 iRobot Aware 2.0 Robot Intelligence Software 3-13
Northrop Grumman 3.2 3-14
3.2.1 Andros HD-1: Compact, lightweight platform 3-14
3.2.2 Data Links Northrop Grumman vehicles Communication / 3-17
3.2.3 Northrop Grumman F6A – versatile platform 3-17
3.2.4 Northrop Grumman Show vehicle data communication / 3-20
3.2.5 Northrop Grumman Mark V-A1 – Very
Versatile rugged terrain Program 03/20
3.2.6 Northrop Grumman V-A1 Features 3-22
3.2.7 Data Links Northrop Grumman vehicles Communication / 3-23
3.2.8 Northrop Grumman ANDROS Mini-II – Compact,
Capable Platform two Man-Portable 3.23
3.2.9 Northrop Grumman Mini Andros II Features 3-25
Northrop Grumman 2/3/1910 links data communication vehicles / 3-26
03/02/1911 Northrop Grumman Wolverine – exterior
3-26 All-Terrain Workhorse
02/03/1912 Northrop Grumman 3-28 Wolverine
03/02/1913 Northrop Grumman Data Link vehicles Communication / 3-29
3-30 3.3 General Dynamics
3.3.1 General Dynamics new generation CROWS II
Improve the security of the soldiers 3-31
Kongsberg 3.4 3-33
Kongsberg System 3.4.1 CrowsII 3-33 Military Robot
3.4.2 Addresses 3-34 Kongsberg Underwater Diving Raid
3.4.3 Norwegian Kongsberg mines Recognition Program of 3-34
3.5 BAE Systems 3-36
BAE Systems 3.5.1 Ant robot Size 3-36
3.5.2 BAE personal robots 3-38
3.5.3 BAE Systems UGV Grand 3-39
3.6 Lockheed Martin 3-39
3.6.1 Lockheed Martin Multifunction Utility /
Logistics and Vehicle Services (mule) 30-40
3.6.2 Lockheed Martin Manta Grand NUWC UUV 3-42
3.6.3 Lockheed Martin Manta Grand NUWC UUV
Offshore oil industry for 3-44
3.6.4 Lockheed Martin AN/WLD-1 distance
Mine clearance system (RMS) 3-44
QinetiQ North America 3.7 TALON ® robots 3-48
QinetiQ North America ® 3.7.1 Talon Robot
Universal mounting Disruptors 30-50
3.7.2 QinetiQ / Foster-Miller 3-52
3.7.3 Foster-Miller TALON military robot family 3-53
3.7.4 Foster-Miller again, two-way 3-54 Hailer
3.7.5 Foster-Miller TALON 3-54 Reply
EOD 3.7.6 Robot 3-56 Foster-Miller
3.7.7 Foster-Miller SWORDS Robot 3-58
Hazmat CBRNE Robots 3.7.8 Foster-Miller / 3-60
3.7.9 Foster-Miller TALON SWAT / MP 3-61
03.07.1910 Robot Maars 3-62 Foster-Miller
Foster-Miller Field 07/03/1911 Dragon Runner SUGV Convertible 3-64
Foster Miller TALON Engineer 03/07/1912 GEN IV 3-65
Foster Miller 07/03/1913 TAGS-CX 3-66 unmanned vehicle
07/03/1914 QinetiQ TAGS-CX 3-67 vehicles unmanned
03/07/1915 Combat Engineer Route Clearance Robot 3-70
Talon 03/07/1916 3-75 Robot ™ Maars
3-78 Telerob 3.8
3.8.1 Telerob – EOD / IED Team, EOD
The robots and vehicles 3-78
Teodor heavy explosives Telerob 3.8.2
Ordnance Disposal (EOD) Robot 3-80
3.8.3 EOD Robot Telemax high mobility Telerob 3-81
Telerob 3.8.4 EOD / IED Vehicle Service 3-81
Versa 3.9 / 3-86 Allen Vanguard
VANGUARD ® 3.9.1 Allen 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
3.10.1 Dynamic LittleDog Boston – Locomotion Legs
Robot learning 3-107
Boston Dynamics 3.10.2 PETM – Bigdog get a Big Brother 3-109
Boston Dynamics RHex 3.10.3 Coma field 3-110
RISE Boston 3.10.4 3-112 Climbing Robot dynamics
Robotic technology 3-115 3.11
3.11.1 memetics military RTI (propagation of information,
¨ C Information Impact persistence PIP) Project 3-116
RTI 3.11.2 Legs 3-116 Humanoid Robot
3.12 Fujitsu Service Robot (Enon) 3-118
3.13 SOS Gostai 3-119
Kairos 3.14 autonomi 3-121
3.15 Red Robotic Spray glider Scripps 3-122 UUV
3.15.1 Robotic Spray glider Scripps Network
The sensors, navigation and communications 3-123
Boeing 3.16 ¯ s long-term disadvantages AN/BLQ-11 mine
Recognition System (living marine resources), 3-129
3.17 Boeing Advanced Information Systems 3-133
3.18 Sonatech 3-135
BAE 3.19 Systems Underwater Systems 3-135
Jerry Baber 3-136 3.20 Armero
3.21 IVTT Intelligent Vehicles Program
Robot climb the walls 3-137
3.21.1 Accuracy Robotics Technology 3-139 urban Hopper
Robotics Robotic technology 3-139 3.21.2
4. 4-1 Robot military technology
4.1 Technology Enabling 4-1 Military Robot
4.2 Innovation Intel chips based on the evidence 4-3
4.2.1 Open Robot Control Software 4-5
4.2.2 Robot 4-6 key military technology
4-10 4.2.3 PC-Bots
Visual Simultaneous Localization and Mapping 4-10
4.3 Advanced Robot Technology navigation mobility
And the handling 4-11
4-11 4.3.1 Robot Intelligence Systems
4.3.2 in the real world and dynamic detection 4-12
Friendly interfaces 4.4 4-12
4.4.1 electromechanical robot design and fully integrated 4-13
4.5 robotics sector development an iterative process 4-14
4.5.1 next model based generation 4-15
4.5.2 modular robot structure and control 4-15
4.5.3 Lattice Architectures 4-16
4.5.4 Chain / Tree Architectures 4-16
4.5.5 Reconfiguration deterministic 4-16
4.5.6 The stochastic reconfiguration 4-17
4.5.7 Modular robotics 4.17
Intel 4.6 Military Robot Collaboration Growing 4-18
4.7 Configuring robots with Hitachi SuperH family 4-18
Hitachi MMU design and spatial logic 4-19
The use of robotics film Lithium ion thin 4-23
4.8 Network of robots and sensors 4-24
4.8.1 Sensor networks of the research agenda 4-25
4.8.2 4-26 light-sensitive
4.8.3 Acceleration of detection of 4.27
4.8.4 Chemical Sensor 04.27
4.9 Functions military technology Robot 4-27
Radio carbon nanotubes 4.10 of 4-28
4.11 Funded Programs 4-30 Military Robot
4.11.1 Future Combat System (FCS) Program
The transition to the modernization of Army Brigade 4-30 Combat
4.11.2 XM1216 Small Unmanned Ground Vehicle (SUGV) 4-32
4.11.3 Sub-Pillars 4-33 UUV
4.11.4 Passing underwater vehicles autonomous (Hauver) 4-36
4.11.5 The combination 4-36
4.11.6 ATSP is a vehicle for government contractors through 4-38
4.11.7 contraction quick, efficient vehicles 4-38
4.11.8 The technology facilitates the integration of the systems and charge 4-38
4.11.9 Access to all sectors of Northrop 4-39 Grumman
4.12 4-39 Robot Technology
4.12.1 Robot AWARE Robot Intelligence Systems 4-39
4.12.2 iRobot real world, the dynamic detection. 4-40
IRobot 4.12.3 4-40 friendly interface
4.12.4 iRobot tightly integrated electromechanical design. 4-41
Evolution Robotics Technology Solutions 4.13 4-42
Example 4-44 Evolution Robotics Applications
NASA robot exploration 4.14 4-45
NASA Spirit Rover 4-46 4.14.1
4.14.2 In the NASA Mars Exploration Rover Spirit 4-48
Example Abstract NASA's Spirit-In-Sol Sol 4-50
4-51 possible update 4.14.3
4.14.4 Summary of the potential of NASA-Sun-Sun 4-52
NASA Robot 4.14.5 Opportunity 4-54
4.15 remote control robot missions 4-55
4.15.1 navigation system takes pictures
Ground near 4-59
March 4.15.2 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 Position Control in the space of control moment gyros 4-63
5. 5-1 ROBOT MILITARY BUSINESS PROFILE
5.1 The dependence of America Inc. (Amrel) 5-1
5.1.1 Field Controls Robot should Amrel 2.5 Interoperability
5.1.2 Amrel compact, highly integrated
Mobility 2.5 Computing Solutions
5.2 BAE Systems 5-2
BAE Systems 5.2.1 Ant robot Size 5-3
5.5 Personal 5.2.2 BAE spam
5.2.3 BAE Systems UGV big 5-5
Boston Dynamics 5.5 5.3
Bobcat Doosan Infracore Company 5.4 / 5-6
General Dynamics 5.5 7.5
5.5.1 General Dynamics Combat Autonomous Mobility
System (CAMS) 5-7
5.5.2 General Dynamics U.S. $ 60 million
Force Operations Air Support Mission 5-8
9.5 Income 5.5.3 General Dynamics
5.5.4 Revenue from General Dynamics Business Group 5-10
5.5.5 General Dynamics Systems 5-13 Awards Fight
General Dynamics Land Systems 5.5.6 $ 24
Dollar contract to provide remote commanders
Operated Weapons 5.13
5.5.7 General Dynamics Canada ¯ s Government
LAV III Upgrade Program 14
5.5.8 General Dynamics U.S. commercial vehicle military 5-15
5-16 Gostai 5.6
16.5 7.5 Robot
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
IRobot 5.7.4 military programs 5-17
Revenue 5-19 5.7.5 iRobot
5.7.6 Geographic Information iRobot 5-25
5.7.7 The main customers of iRobot 5-25
5.7.8 Description iRobot 5-25
5.7.9 iRobot industry segment, geographic information
5-27 and the main customers
IRobot Home Robots 5-27 07/05/1910
IRobot 05/07/1911 Government and industrial 5-27
IRobot 05/07/1912 Geographic Information 5-32
07/05/1913 iRobot Home Robot Division of Taxation ships and units 5-33
07/05/1914 iRobot Government and Industrial 5-34
IRobot 05/07/1915 strategy 5-36
05/07/1916 iRobot Government and Industrial Products 5-38
IRobot Home Robots 5-42 05/07/1917
IRobot 07/05/1918 Government & Industrial Robots 5-42
07/05/1919 iRobot partners and the Strategic Alliance 5-43
05/07/1920 iRobot / Boeing Company 5-43
05/07/1921 iRobot / Advanced Scientific Concepts 5-43
05/07/1922 iRobot / TASER International, 5-44
Kongsberg 5.8 5-44
5.8.1 Scope largest Kongsberg CROWS II
Framework Agreement 5-45
5.8.2 Owner Kongsberg 5-45
5-46 5.8.3 Kongsberg manufacturing sites
5.8.4 Operating revenues Kongsberg 5-47
5.8.5 Kongsberg 5-47 employees
5.9 Lockheed Martin 5-48
5.9.1 Positioning Lockheed Martin Department of Defense 5-49
Northrop Grumman 5.10 5-53
5.10.1 Northrop Grumman Robots REMOTEC 5-54
5.11 Qinetiq / Foster-Miller 5-55
5.11.1 QinetiQ United Kingdom Ministry of Defense and U.S. Department of Defense will provide the target markets 5-56
5.11.2 QinetiQ 2005-2009 Revenue 5-58
5.11.3 5-61 QinetiQ North America
Revenue 5-64 5.11.4 QinetiQ
QinetiQ UK 5-66 5.11.5
5.11.6 North America QinetiQ 5-66
5.11.7 5-67 QinetiQ autonomy and robotics
5.11.8 Income from QinetiQ Group 5-68
5.11.9 Governance review QinetiQ Business 5-70
05/11/1910 QinetiQ income by the Customer 5-71
5-73 5/11/1911 QinetiQ North America
5.12 QinetiQ North America / 5-75 Foster-Miller
5.12.1 QinetiQ North America / Foster-Miller 5-77
QinetiQ 5.12.2 common robotic controller (CRC) 5-77
QinetiQ North America 5.12.3 class technology 5-78
American 5.12.4 QinetiQ North Technology Solutions Group 5-79
Robotic technology Inc. 5.13 5-79
RTI Energy 5.13.1 Autonomous Robot Battle (RATS) 5-80 Project
5.13.2 Transfer of RTI Intelligent Vehicle Technology (IVTT) Program 5-81
5.13.3 The Urban precision robotic technology Hopper 5-84
5.13.4 5-85 Robotics Technology Robot
5-85 Telerob 5.14
5.14.1 Telerob – EOD / Team IEDD
EOD Robots and Vehicles 5-86
Teodor heavy explosives 5.14.2
Ordnance Disposal (EOD) Robot 5-87
Telerob Telemax 5.14.3 NMS high mobility robot 5-88
5.14.4 Telerob EOD / IED vehicles 5-88 Service
¯ s Telerob 5.14.5 Electric Force-reflecting manipulators (FRM) 5-91
5.14.6 American Crane and Equipment Corp.
5-92 and partnership Telerob
5.15 Versa / Allen-Vanguard 5-93
5.15.1 suspended 5-94 Allen Vanguard Trade Securities
5.15.2 Allen Vanguard HAL ® EOD / ESDI /
Search Tasks 5-96 hook and line system
5.15.3 Versa / Equinox I 5-99 Allen Vanguard
5.15.4 Versa / Field Test Set Allen Vanguard 500-100
Allen-Vanguard 5.15.5 Income 500-100
VIA Technologies 5.16 5-103
5.16.1 Provider VIA Technologies integrated platform 5-104
5.16.2 leadership 5-104 VIA Technologies Market
VIA Technologies 5.16.3 Global Operations 5-105
VIA Technologies 5.16.4 market respond to the challenge 5-106
5.16.5 Via Technologies Fabless dynamic business model 5-107
5.17 Some manufacturers of military robots 5-107
5.18 Government agencies and other organizations
The use of military robots 5-111
5.18.1 Intelligent Transfer RTI Vehicle Technology (IVTT) 5-114 Program
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