The Emerging UMV and UGV Markets 2009-2019

The Emerging UMV and UGV Markets 2009-2019

Publication date: 22-7-109
Number of pages in report: 208

Pricing:


Our latest defence report - The Emerging UMV and UGV Markets 2009-2019 - examines one of the defence industry’s most promising emerging markets. Our market study reviews leading unmanned maritime vehicle (UMV) and unmanned ground vehicle (UGV) programmes. Total governmental spending on research, development and procurement of UMV and UGV systems combined should reach $504 million worldwide in 2009. Do you want to know how high revenues will go next decade? We examine commercial prospects for providers of these unmanned vehicle systems and technologies, and analyse the requirements driving this market worldwide. This report discusses the UMV and UGV markets analytically, explaining their characteristics and potentials from 2009 onwards, with comprehensive market forecasting at global and national level.

In The Emerging UMV and UGV Markets 2009-2019 we analyse how a multitude of factors are driving increased research, development, procurement and deployment of unmanned vehicle systems. In recent years, the threat of improvised explosive devices (IEDs) in Iraq has been a major impetus for investment in robots capable of explosive ordinance disposal (EOD).

The success of unmanned aerial vehicles (UAVs) in military operations is also leading to unmanned vehicle technologies spilling over into UMV and UGV systems. This report also reveals why many defence contractors are diversifying into all types of unmanned vehicle systems. This report explains and answers many other vital questions on this rapidly-growing market area.

Unmanned vehicles are also inherently less costly to develop and procure than manned vehicles, thus making them attractive sub-markets during economically uncertain times when overall defence budgets are being frozen or even reduced. Therefore, the increasing investment applied to unmanned vehicle systems has made the market one of the few recession-resistant sub-sectors of the defence industry. We expect the unmanned vehicle systems market to flourish from 2009 onwards, with high rewards for successful companies. Our forecast period, 2009-2019, reveals an overall rise in unmanned vehicle systems spending, as new programmes are launched, or come to fruition.

Which unmanned vehicle systems sub-markets have the greatest value and will experience the highest growth? How much will individual countries spend on unmanned vehicle systems over the next decade? How are unmanned vehicle systems manufacturers adapting to meet the evolving demands of military operations? This report will provide you with the information that you need to understand current trends and future market possibilities.

In The Emerging UMV and UGV Markets 2009-2019, we examine the following unmanned vehicles submarkets:

• Unmanned maritime vehicles (UMVs)
• Unmanned underwater vehicles (UUVs)
• Autonomous underwater vehicles (AUVs)
• Unmanned surface vehicles (USVs)
• Unmanned ground vehicles (UGVs)
• Small unmanned ground vehicles (SUGVs)
• Unmanned ground combat vehicles (UGCVs)
• Remotely-operated vehicles (ROVs).

We also examine the leading technologies and subsystems being deployed in unmanned maritime vehicles (UMVs) and unmanned ground vehicles (UGVs).

• Electro-optical / infrared sensors (EO/IR)
• Autonomous navigation systems
• GPS navigation systems
• Teleoperation / remote control
• Energy storage / future battery design
• Fuel cells
• Neuro-control systems.

Comprehensive analysis of the global UMV and UGV market

The Emerging UMV and UGV Markets 2009-2019 examines this important sector critically. We supply a comprehensive review of programmes and products via analysis of policy documents, news reports, industry publications, market analysis and consultations with experts. There are over 85 tables and figures and 200+ pages. This report provides detailed sales forecasts, a SWOT analysis, pipeline developments and analyses of commercial drivers and restraints. Also, there are several original interviews with industry experts included. You will not find these analyses anywhere else.

Why you should buy The Emerging UMV and UGV Markets 2009-2019

The main benefits from your purchasing this report:

• You will gain an understanding of the current unmanned maritime vehicle (UMV) and unmanned ground vehicle (UGV) markets and how they will develop, with detailed market forecasts from 2009 to 2019
• You will receive global sales forecasts plus national forecasts for the 10 leading markets for each of the UUV, USV and UGV sub-markets from 2009 to 2019
• You will gain insight into each of the main sub-markets for UMVs and UGVs, including market drivers and restraints
• You will gain insight into major government UUV, USV and UGV programmes being undertaken in leading markets
• You will gain knowledge of who the leading players are within that market
• You will gain understanding of how new technologies will affect the market
• You will receive analyses of strengths, weaknesses, opportunities and threats for the UMV and UGV sector from 2009 onwards
• You will discover three original interviews, with expert views from a leading UGV and UUV manufacturer, an explosives ordinance disposal (EOD) robot ROV manufacturer and a USV specialist manufacturer.

Major defence contractors are involved in developing and producing unmanned vehicle systems. Increasingly, those defence contractors are diversifying into the unmanned vehicles sector as a recession-resistant alternative to other defence activities. At the same time, newer and smaller companies have emerged with innovative technologies that make the unmanned vehicle systems market even more dynamic.


Table of Contents
1. Executive Summary
1.1 Unmanned Vehicle Systems (UVS) Overview
1.2 Unmanned Underwater Vehicles (UUV)
1.3 Unmanned Surface Vehicles (USV)
1.4 Unmanned Ground Vehicles (UGV)
1.5 The Future of Unmanned Vehicle Systems (UVS)
2. Introduction
2.1 The Benefits of This Report
2.2 Methods
3. Unmanned Underwater Vehicles (UUV)
3.1 Unmanned Underwater Vehicles (UUV) Market Forecasts
3.1.1 Global Unmanned Underwater Vehicles (UUV) Market
3.1.2 US Unmanned Underwater Vehicles (UUV) Market
3.1.3 Russian Unmanned Underwater Vehicles (UUV) Market
3.1.4 UK Unmanned Underwater Vehicles (UUV) Market
3.1.5 Australian Unmanned Underwater Vehicles (UUV) Market
3.1.6 New Zealand Unmanned Underwater Vehicles (UUV) Market
3.1.7 Finnish Unmanned Underwater Vehicles (UUV) Market
3.1.8 Danish Unmanned Underwater Vehicles (UUV) Market
3.1.9 French Unmanned Underwater Vehicles (UUV) Market
3.1.10 German Unmanned Underwater Vehicles (UUV) Market
3.1.11 Norwegian Unmanned Underwater Vehicles (UUV) Market
3.1.12 ROW Unmanned Underwater Vehicles (UUV) Market
3.2 Unmanned Underwater Vehicles (UUV) Market Analysis
3.3 Commercial Sector Unmanned Underwater Vehicles (UUV) Market
3.3.1 Oil and Gas Industry Unmanned Underwater Vehicles (UUV)
3.3.2 Environmental Research Unmanned Underwater Vehicles (UUV)
3.4 Military Unmanned Underwater Vehicles (UUV)
3.5 Unmanned Submarines
3.6 Tethered Remotely Operated Vehicles (ROV)
3.7 Autonomous Underwater Vehicles (AUV)
3.8 US Navy Unmanned Undersea Vehicle Plan
3.9 UUV Design Issues
3.9.1 Biometric Designs
3.9.2 Navigation
3.9.3 Adaptive Neuro-Control
3.9.4 Subsea Intervention
3.9.5 Underwater Gliders
3.10 UUV Programmes
3.10.1 Long-Term Mine Reconnaissance System (LMRS)
3.10.2 Mission Reconfigurable UUV (MRUUV)
3.10.3 Future Concepts - MANTA
3.10.4 Semi-Autonomous Hydrographic Reconnaissance Vehicle (SAHRV)
3.10.5 CETUS
3.11 Other Propulsion Systems
3.12 Autonomous Ocean Sampling Network (AOSN)
3.13 Technical Challenges
3.13.1 Energy Storage
3.13.2 Future Battery Design
3.13.3 SLMP Technology
3.13.4 Fuel Cells
3.13.5 Autonomous Control
3.13.6 Communications
4. Unmanned Surface Vehicles (USV)
4.1 Unmanned Surface Vehicles (USV) Market Forecasts
4.1.1 Global Unmanned Surface Vehicles (USV) Market
4.1.2 US Unmanned Surface Vehicles (USV) Market
4.1.3 UK Unmanned Surface Vehicles (USV) Market
4.1.4 Israeli Unmanned Surface Vehicles (USV) Market
4.1.5 Nigerian Unmanned Surface Vehicles (USV) Market
4.1.6 Singaporean Unmanned Surface Vehicles (USV) Market
4.1.7 German Unmanned Surface Vehicles (USV) Market
4.1.8 French Unmanned Surface Vehicles (USV) Market
4.1.9 Italian Unmanned Surface Vehicles (USV) Market
4.1.10 ROW Unmanned Surface Vehicles (USV) Market
4.2 Unmanned Surface Vehicles (USV) Market Analysis
4.2.1 US Navy
4.2.2 Surface Targets
4.2.3 Intelligence, Reconnaissance and Surveillance (ISR)
4.2.4 Retrofit USV Technology
4.2.5 Remote Minehunting System (RMS)
4.2.6 Future Developments
4.2.7 Technical Challenges
4.2.8 Spartan Scout USV
5. Unmanned Ground Vehicles (UGV)
5.1 Unmanned Ground Vehicles (UGV) Market Forecasts
5.1.1 Global Unmanned Ground Vehicles (UGV) Market
5.1.2 US Unmanned Ground Vehicles (UGV) Market
5.1.3 Israeli Unmanned Ground Vehicles (UGV) Market
5.1.4 UK Unmanned Ground Vehicles (UGV) Market
5.1.5 German Unmanned Ground Vehicles (UGV) Market
5.1.6 Australian Unmanned Ground Vehicles (UGV) Market
5.1.7 South Korean Unmanned Ground Vehicles (UGV) Market
5.1.8 French Unmanned Ground Vehicles (UGV) Market
5.1.9 Canadian Unmanned Ground Vehicles (UGV) Market
5.1.10 ROW Unmanned Ground Vehicles (UGV) Market
5.2 Unmanned Ground Vehicles (UGV) Market Analysis
5.3 Teleoperated Unmanned Ground Vehicles (UGV)
5.4 Autonomous Unmanned Ground Vehicles (UGV)
5.5 Electro-Optical / Infrared Sensors (EO/IR)
5.6 Manoeuvrability
5.7 Non-EOD Robots
5.8 Unmanned Ground Combat Vehicles (UGCV)
5.9 Crusher Project
5.10 Hybrid UGV/UAV
5.11 Subsystems
5.12 Technical Problems
5.13 US Army Future Combat System (FCS)
5.14 Small Unmanned Ground Vehicle (SUGV)
5.15 Unmanned Snakes
5.16 Power Systems
5.17 Grand Challenge
6. SWOT Analysis
6.1 Strengths
6.1.1 Continual Historical Shift to Unmanned Vehicle Systems
6.1.2 Global Economic Slowdown
6.1.3 Success of UGV Vehicles in Iraq
6.1.4 Increasing Homeland Security Spending
6.1.5 End of Future Combat System (FCS) Programme
6.2 Weaknesses
6.2.1 Global Economic Slowdown
6.2.2 Delays in Littoral Combat Ship (LCS) Programme
6.2.3 Limitations in Speed, Duration and Range of UUVs
6.2.4 Demand for Increased Range and Duration is Leading to Larger UUV Designs
6.3 Opportunities
6.3.1 Huge Growth Potential in UUV and USV Systems
6.3.2 Strong Growth Potential in Smaller UGV Systems
6.3.3 Growing Demand for Subsystems
6.3.4 Growth in Autonomous Control Systems
6.3.5 Growth in Commercial Oil & Gas Exploration and Environmental Research
6.4 Threats
6.4.1 US Withdrawal from Iraq and Afghanistan
6.4.2 Public Backlash against Armed Unmanned Vehicles.
6.4.3 Budget Constraints for UUV and USV Markets.
6.4.4 Increasing Demand for More Sensors and Subsystems
7. Leading UMV & UGV Manufacturers
7.1 AAI Corporation
7.2 AB Precision Ltd
7.3 Allen Vanguard Corporation
7.4 ASV Ltd
7.5 Atlas Elektronik GmbH
7.6 BAE Systems
7.7 Bluefin Robotics Corporation
7.8 Boeing Corporation
7.9 Boston Dynamics
7.10 ECA Group
7.11 Elbit Systems Ltd
7.12 Foster-Miller
7.13 General Dynamics
7.14 Hydroid
7.15 iRobot Corporation
7.16 International Submarine Engineering (ISE)
7.17 Kongsberg Maritime
7.18 Lockheed Martin
7.19 MacroSwiss
7.20 Northrop Grumman / Remotec UK Ltd
7.21 QinetiQ Group plc
7.22 Rafael
7.23 Raytheon
7.24 Rheinmetall AG
7.25 Robotic FX Inc
7.26 Saab Underwater Systems
7.27 Samsung
7.28 Science Applications International Corporation (SAIC)
7.29 Thales

8. Expert Opinion
8.1 iRobot Corporation
8.1.1 Views on the Unmanned Vehicle Market
8.1.2 Will the Unmanned Underwater Vehicles Market Grow as Fast as the Unmanned Ground Vehicles Market?
8.1.3 Why iRobot Moved into the Unmanned Underwater Vehicles Market
8.1.4 Growth Rates for the Unmanned Underwater Vehicles Market
8.1.5 Growth Path of the Unmanned Underwater Vehicles Market
8.1.6 Regions with Growth in Unmanned Ground Vehicles and Unmanned Underwater Vehicles
8.1.7 Has the US Military Withdrawal from Iraq Affected Sales of Unmanned Ground Vehicles?
8.1.8 How the US Pulling Out of Iraq is a Growth Driver for iRobot
8.1.9 What Are the Restraints on Sales Growth?
8.1.10 Growth of Teleoperated Vehicles vs. Autonomous Vehicles
8.1.11 Is the Development of Unmanned Underwater Vehicles a Stronger Part of the iRobot Business?
8.1.12 Key Trends in Unmanned Ground Vehicles and Unmanned Underwater Vehicles
8.1.13 Will the Unmanned Underwater Vehicles Market Achieve a Similar Size to that of the Unmanned Ground Vehicles Market?
8.2 AB Precision Ltd
8.2.1 Trends in the EOD Market for ROVs
8.2.2 Trend Towards Smaller Vehicles
8.2.3 Technical Issues in ROVs
8.2.4 Drivers for Growth in Unmanned Vehicles
8.2.5 What Sectors Does AB Precision Ltd Sell to?
8.2.6 The Effects of the Global Recession on Sales
8.2.7 Technological Developments over the Next 10 years
8.2.8 Proportion of AB Precision Ltd Vehicles that are Remotely Operated
8.2.9 Trend Towards More Equipment on ROVs
8.2.10 Are There Plans to Diversify into Other Unmanned Vehicle Sectors?
8.3 ASV Ltd
8.3.1 Trends and Developments in Unmanned Surface Vehicles
8.3.2 Technical Issues for Unmanned Surface Vehicles
8.3.3 Growth Drivers for Unmanned Surface Vehicles
8.3.4 Restraints on Growth for Unmanned Surface Vehicles
8.3.5 Technological Developments in the Next 10 Years
8.3.6 Which Regions are Experiencing Growth?
8.3.7 Growth Rates for Unmanned Surface Vehicles
8.3.8 Technology Overlap in Overall Unmanned Vehicles Market

9. Conclusions

9.1 Continuous Growth for Unmanned Vehicle Systems
9.2 Growth in Subsystems
9.3 Increasingly Modular Approach
9.4 Unmanned Underwater Vehicles (UUV)
9.5 Unmanned Surface Vehicles (USV)
9.6 Unmanned Ground Vehicles (UGV)
9.7 The Future of Unmanned Vehicle Systems

List of Tables

Table 1.1 Global Government Spending on UAV, UGV, UUV and USV Systems 2009-2019
Table 3.1 Global Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.2 Regional Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.3 US Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.4 Russian Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.5 UK Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.6 Australian Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.7 New Zealand Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.8 Finnish Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.9 Danish Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.10 French Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.11 German Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.12 Norwegian Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.13 ROW Government Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.14 Drivers and Restraints in the Unmanned Underwater Vehicles Market 2009-2019
Table 3.15 Commercial Spending on Unmanned Underwater Vehicles 2009-2019
Table 3.16 Global Deployed UUV Systems and their Applications 2009
Table 3.17 Global Top 10 UUV Manufacturers Market Share 2009
Table 4.1 Global Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.2 Regional Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.3 US Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.4 UK Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.5 Israeli Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.6 Nigerian Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.7 Singaporean Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.8 German Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.9 French Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.10 Italian Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.11 ROW Government Spending on Unmanned Surface Vehicles 2009-2019
Table 4.12 Drivers and Restraints in the Unmanned Surface Vehicles Market 2009-2019
Table 4.13 Global Top 10 USV Manufacturers Market Share 2009
Table 5.1 Global Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.2 Regional Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.3 US Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.4 Israeli Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.5 UK Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.6 German Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.7 Australian Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.8 South Korean Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.9 French Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.10 Canadian Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.11 ROW Government Spending on Unmanned Ground Vehicles 2009-2019
Table 5.12 Drivers and Restraints in the Unmanned Ground Vehicles Market 2009-2019
Table 5.13 Global Top 10 UGV Manufacturers: Market Share 2009
Table 6.1 SWOT Analysis: UUV, USV and UGV Systems 2009-2019

List of Figures

Figure 1.1 Global Government Spending on UAV, UGV, UUV and USV Systems 2009-2019
Figure 1.2 Global Government Spending on UAV, UGV, UUV and USV Systems 2009
Figure 1.3 Global Government Spending on UAV, UGV, UUV and USV Systems 2019
Figure 2.1 Sub-Categories of Unmanned Vehicle Systems
Figure 3.1 Global Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.2 Regional Government Spending on Unmanned Underwater Vehicles 2009
Figure 3.3 US Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.4 Russian Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.5 UK Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.6 Australian Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.7 New Zealand Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.8 Finnish Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.9 Danish Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.10 French Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.11 German Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.12 Norwegian Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.13 ROW Government Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.14 Commercial Spending on Unmanned Underwater Vehicles 2009-2019
Figure 3.15 Commercial and Government Spending on UUV Systems 2009
Figure 3.16 Global Deployed UUV Systems and their Applications 2009
Figure 3.17 Global Top 10 UUV Manufacturers Market Share 2009
Figure 4.1 Global Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.2 Regional Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.3 US Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.4 UK Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.5 Israeli Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.6 Nigerian Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.7 Singaporean Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.8 German Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.9 French Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.10 Italian Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.11 ROW Government Spending on Unmanned Surface Vehicles 2009-2019
Figure 4.12 Global Top 10 USV Manufacturers Market Share 2009
Figure 5.1 Global Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.2 Regional Government Spending on Unmanned Ground Vehicles 2009
Figure 5.3 US Spending on Small vs. Large Unmanned Ground Vehicles 2009
Figure 5.4 US Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.5 Israeli Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.6 UK Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.7 German Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.8 Australian Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.9 South Korean Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.10 French Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.11 Canadian Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.12 ROW Government Spending on Unmanned Ground Vehicles 2009-2019
Figure 5.13 Global Top 10 UGV Manufacturers: Market Share 2009

Companies Mentioned in this Report

AAI Corporation
AB Precision Ltd (ABP)
ACB Boats
Advanced Technology Institute
AEA
Aeronautics Defence Systems
Aeronautics Ltd
Aerosonde Pty Ltd
Alcock Ashdown Ltd
Allen Vanguard Corporation
Allient Techsystems
ASV Ltd
Atlas Elektronik GmbH
Atlas Elektronik UK Ltd
Atlas QED Consortium
Autonomous Solutions
Babcock Design and Technology
BAE Systems
BAE Systems Advanced Technology Center (ATC)
BAE Systems Australia
BAE Systems Corda Consultancy
Base Ten Systems Electronics GmbH (Base10)
Battelle
Black-I Robotics
Blue Bear Systems Research
Bluefin Robotics
Boeing Corporation
Boeing Corporation Marine Systems
Boston Dynamics
Brook Ocean Technology
C&C Technologies
Cap Gemini
Caterpillar
Chatten Associates
Chesapeake Sciences Corporation
Clorox Company
Deere & Company
EADS
EADS Defence & Security
ECA Group
EDO Corporation
Elbit Systems Ltd
Elbit Systems of America, LLC
ESL Defence Limited
Evo Logic
Festo
FMC Corporation
Foster-Miller Inc
Gaymarine
General Dynamics.
General Dynamics Land Systems
General Dynamics Land Systems Canada
General Dynamics Robotic Systems (GDRS)
Giat
G-NIUS Unmanned Ground Systems Ltd
Honeywell
Hugin
Hydroid
InRob Ltd
Intermarine
International Logistics Systems
International Submarine Engineering (ISE)
iRobot Corporation
Israel Aerospace Industries Ltd
Israel Aerospace Industries Ltd Ramta Division (IAI Ramta),
Israel Tractors and Equipment, Ltd (ITE)
ITM Power Plc
ITT
John Deere
Kairos Autonomi
Klein
Kongsberg Maritime
Lockheed Martin
Macroswiss
Maridan
Maritime Applied Physics Corporation (MAPC)
Marshall SDG
MBDA
Measurement Technology Northwest
Mesa Associates Inc
Micro-Analysis and Design
Mindsheet
Motorola
Navatek Ltd
Nekton Research
Northrop Grumman
Northrop Grumman Oceanic Systems
Octec
Omnitech Robotics.
Protonex Technology Corporation
QinetiQ Group Plc
QinetiQ North America
QinetiQ North America Technology Solutions Group
QinetiQ Underwater Systems Business (UWS)
Radix Marine
Radstone Embedded Computing
Rafael
Rafael Armament Development Authority
Raytheon
Remotec UK Ltd
Rheinmetall AG
Rheinmetall Defence
Rheinmetall Landsysteme GmbH
Ripsaw
RoboTek Engineering
Robotic FX Inc
Robotic Marine Systems
Robotic Technology Incorporated (RTI)
Robowatch Technologies GmbH
RTI Data Distribution Service
Saab Seaeye
Saab Underwater Systems
Saft
Sagem Défense Sécurité
Samsung
Sandia National Labs
Science Applications International Corporation (SAIC)
Seaeye Marine Limited
Seaspeed Marine Consulting Ltd
Selex Galileo
Signal Systems Corporation
Simrad
Statoil
Symtx Inc.
Textron Inc
Thales
Thyssenkrupp
TRW Conekt
United Defence Industries
Vecna Robotics

Government Agencies and Other Organisations Mentioned in this Report

Australian Defence Materiel Organisation
Australian Defence Science and Technology Organisation (DSTO)
Australian Department of Defence
Belgian Navy
Canadian Department of National Defense (DND)
Canadian Forces (CF)
Carnegie Mellon University National Robotics Engineering Center (NREC)
Cranfield University
Danish Navy
European Union
Finnish Navy
Finnish Navy Research Institute
Florida Atlantic University
French Armament Procurement Agency (DGA)
French Army
French Délégation Générale pour l'Armement (DGA)
French Ministry of Defence d'Etudes Sous-Marines l'Atlantique (GESMA)
French Navy
German Federal Office for Defence Technology and Procurement
German Ministry of Defence
German Navy
German Navy Test Centre
India National Hydrographic Office
Israel Defence Forces (IDF)
Israel Defence Ministry
Israel Institute of Technology
Israel Navy
Israel Rafael Armament Development Authority
Light and Early Entry Force
Massachusetts Institute of Technology (MIT)
Micro Autonomous Systems and Technology Collaborative Technology Alliance (MAST)
NATO
NATO Undersea Research Center (NURC)
Natural Resources Canada (NRCan)
Norwegian Defence Research Establishment (FFI)
Pennsylvania State University
Republic of Singapore Navy
Robotics Technology Consortium (RTC)
Royal Australian Navy
Royal New Zealand Navy (RNZN)
Royal Netherlands Navy
Royal Norwegian Navy
Russian Navy
Sandia National Labs
Singapore Defence Science and Technology Agency
South Carolina Research Authority (SCRA)
Technion Israel Institute of Technology
UK Ministry of Defence (MoD)
UK Research Acquisition Organisation
UK Royal Navy
University of Maryland
University of the Negev
University of Washington
US Air Force
US Army
US Army Airborne Expeditionary Force (AAEF)
US Army Future Combat System Brigade Combat Team
US Army Program Executive Office for Simulation, Training, and Instrumentation (PEO STRI)
US Army Research Laboratory
US Army Robotic Systems Joint Project Office
US Army Tank Automotive Research, Development and Engineering Center (TARDEC)
US Army Tank-Automotive and Armaments Command (TACOM) Armaments Research, Development, and Engineering Center (ARDEC)
US Coast Guard
US Defense Advanced Research Projects Agency (DARPA)
US Department of Defense (DoD)
US Environmental Protection Agency (EPA)
US Marine Corps
US National Oceanic and Atmospheric Administration (NOAA)
US Naval Undersea Warfare Center
US Naval Undersea Warfare Center Division Newport (NUWCDIVNPT)
US Naval Undersea Warfare Command
US Naval Air Systems Command
US Naval Oceanographic Office (NAVOCEANO)
US Naval Postgraduate School
US Naval Special Warfare (NSW) Forces
US Naval Surface Warfare Center
US Navy
US Navy Explosive Ordnance Disposal Technology Division (NAVEODTECHDIV)
US Navy Sea Systems Command (NAVSEA)
US Navy Space and Naval Warfare Systems Center (SPAWAR)
US Navy Unmanned Maritime Vehicle System Program Office
US Northern Command (NORTHCOM)
US Office of Naval Research (ONR)
US Office of the Secretary of Defense (OSD)
US Pacific Command (PACOM)
US Rapid Equipping Force (REF)
US Special Operations Command (SOCOM)
Woods Hole Oceanographic Institution (WHOI)

 

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The Emerging UMV and UGV Markets 2009-2019












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