Reportlinker Adds Remotely Operated Vehicles (ROV) and Autonomous Underwater Vehicles (AUV) in the Energy Market 2010-2020
NEW YORK, Feb. 9 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:
Our brand new energy report - Remotely Operated Vehicles (ROV) and Autonomous Underwater Vehicles (AUV) in the Energy Market 2010-2020 - analyses why this market will exhibit robust growth despite the global economic uncertainty. The report explores the market's strengths and weaknesses with targeted forecasts highlighting areas of growth to exploit.
Our analysis has concluded that the global market for ROVs and AUVs used in the energy market will total $1.2bn in 2010. This report discusses the market for these unmanned systems in detail, explaining its characteristics and growth potential from 2010 onwards. Our market study analyses markets for the two main types of Unmanned Underwater Vehicles (UUV), which are Remotely Operated Vehicles (ROV) and Autonomous Underwater Vehicles (AUV), illustrating how these vehicles are used within the energy market and how technological advances are likely to impact their use, and their on-going effect on the energy market as a whole.
The report also addresses the various technological capacities some ROVs and AUVs are currently equipped with, including, sonars, communications technology and other advances which have revolutionised their use. Also which manufacturers are leading the way in development of these future-critical products.
As ROVs and AUVs increase their utility for tasks within the energy market and costs go down, generating cost savings potential for energy companies, we expect the markets for these vehicles to flourish. These opportunities are described in detail in the report.
Comprehensive analysis of the global market
Remotely Operated Vehicles (ROV) and Autonomous Underwater Vehicles (AUV) in the Energy Market 2010-2020 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. This report provides detailed sales forecasts, a SWOT analysis, pipeline developments and analyses of commercial drivers and restraints. Also included are invaluable original interviews with industry experts. You will not find these analyses anywhere else.
Why your prospects should buy Remotely Operated Vehicles (ROV) and Autonomous Underwater Vehicles (AUV) in the Energy Market 2010-2020
The main benefits from purchasing this report:
- You will gain an understanding of the current Remotely Operated Vehicles (ROV) and Autonomous Underwater Vehicles (AUV) industry and how the market for their use within the energy market will develop, with detailed market forecasts from 2010 to 2020.
- You will receive global sales forecasts for ROV and AUV across all markets.
- You will receive global sales forecasts for ROV and AUV spending in the energy market.
- You will receive global sales forecasts for ROV and AUV spending in the military market.
- You will receive global sales forecasts for ROV and AUV spending in the scientific research market.
- You will also gain insight into market drivers, restraints for each of the submarkets.
- You will be able to analyse regional market forecasts for ROV and AUV spending in the energy market.
- You will gain insight into major important game-changing technological developments within the industry.
- You will be able to review major ROV and AUV programmes in the energy market.
- You will gain knowledge of who the leading players are within the ROV and AUV marketplace.
- You will a receive a SWOT analysis of strengths, weaknesses, opportunities and threats the ROV and AUV industry, with an analysis of the wider political and policy factors which will influence the sector from 2010 onwards.
- You will read two original interviews from industry experts. One from a leading technological expert and distributor, and one an industry insider working with one of the industry's main growth markets.
You can order this report today
Anybody with an interest in the development and sale of ROVs and AUVs in the energy sector should gain valuable information and insight from this new study. This is an important market with vast potential. You can stay ahead by ordering this report today.
Table of Contents
1. Executive Summary
1.1 Unmanned Underwater Vehicles Overview
1.2 2010-2020 Market Growth
1.3 Promising Market Opportunities
1.4 The Future of Unmanned Underwater Vehicles in the Energy Market
2. Introduction to ROVs and AUVs in the Energy Market
2.1 History of ROV and AUV Use and Development
2.2 Types of Unmanned Underwater Vehicles
2.3 Unmanned Underwater Vehicles in the Energy Market
2.4 Other Applications of Unmanned Underwater Vehicles
2.5 Benefits of This Report
2.6 Methodology
3. The Global ROV and AUV Market
3.1 Global ROV and AUV Spending Across All Markets
3.2 Global ROV and AUV Spending in the Energy Market
3.3 Global ROV and AUV Spending in the Military Market
3.4 Global ROV and AUV Spending in the Scientific Research Market
4. Leading Regional ROV and AUV Markets in the Energy Market
4.1 Americas ROV and AUV Spending in the Energy Market
4.2 Asia-Pacific ROV and AUV Spending in the Energy Market
4.3 European ROV and AUV Spending in the Energy Market
4.4 African ROV and AUV Spending in the Energy Market
4.5 Other Regions
5. Technological Issues Affecting ROV and AUV use in the Energy Market
5.1 Promising Technological Advances for ROVs and AUVs in the Energy Market
5.1.1 Hybrid Technology
5.1.2 Navigation
5.1.3 Communications Technology
5.1.4 Sensors
5.1.5 Subsea Intervention
5.2 Additional Drivers of Growth
5.2.1 More Development of Smaller Systems
5.2.2 Increased Versatility
5.2.3 Deeper Exploration and More Hazardous Environments
5.3 Technological Obstacles for ROVs and AUVs in the Energy Market
5.3.1 Energy Storage
5.3.2 Propulsion and Manoeuvring
5.3.3 Speed, Endurance and Range
5.3.4 Alternative Fuels
6. SWOT Analysis of ROV and AUV in the Energy Market
6.1 Strengths
6.1.1 Unique Technological Applications
6.1.2 Dynamic Technological Progress
6.1.3 Decreasing Costs
6.2 Weaknesses
6.2.1 Budget Concerns
6.2.2 Remaining Technological Limitations
6.2.3 Unpredictability of Energy Sector
6.2.4 Labour Issues
6.3 Opportunities
6.3.1 Smaller AUVs
6.3.2 Continuing Use of Larger Vehicles
6.3.3 Hybrid Technology
6.3.4 Specialised Sensors and Other Emerging Technologies
6.4 Threats
6.4.1 Global Economic Slowdown
6.4.2 Oil Price Fluctuations
6.4.3 Geopolitical and Public Policy Factors
7. Expert Opinion
7.1 Roper Resources Ltd
7.1.1 Technological Advances Most Important for ROVs and AUVs in the Energy Market
7.1.2 Technological Obstacles for ROVs and AUVs in the Energy Market
7.1.3 Changes in Propulsion Systems for ROVs and AUVs in the Energy Market
7.1.4 Regions with Growth for ROVs and AUVs in the Energy Market
7.1.5 Major Issues that Could Restrain the use of ROVs and AUVs in the Energy Market
7.1.6 Comparing Growth in the use of ROVs and AUVs in the Energy, Military and Scientific Research Markets
7.2 Hafmynd
7.2.1 Main Applications for the Gavia AUV
7.2.2 Technological Areas with the Most Growth Potential
7.2.3 Growth Rates Expected Over the Next Decade for ROVs and AUVs
7.2.4 Technological Developments Crucial to Market Development for ROVs and AUVs
7.2.5 Comparison of ROVs and AUVs Growth in the Energy, Military and Scientific Research Markets
7.2.6 The Large Potential Market for Unmanned Underwater Vehicles
7.2.7 Regions with Growth for ROVs and AUVs in the Energy Market
7.2.8 Restraints in the Market over the next Decade for ROVs and AUVs
8. Leading ROV and AUV Companies Supplying the Energy Market
8.1 Leading ROV and AUV Companies and Recent Contracts
8.1.1 C&C Technologies
8.1.2 Kongsberg Maritime
8.1.3 Oceaneering International
8.1.4 Sub-Atlantic Inc
8.1.5 Schilling Robotics
8.1.6 FMC Technologies Inc
8.1.7 Hydroid
8.1.8 Total Marine
8.1.9 OceanServer Technology
8.1.10 Kystdesign
8.1.11 Bluefin Robotics
8.1.12 i-Tech/ Subsea 7
8.1.13 Saab Underwater Systems / Saab SeaEye
8.1.14 Perry Slingsby Systems
8.1.15 Seamor Marine
8.1.16 Deep Ocean Engineering
8.1.17 Marport Deepsea Technologies, Inc
8.1.18 VideoRay
8.1.19 SeaBotix
8.1.20 Hallin Marine
8.1.21 Hafmynd
8.1.22 International Submarine Engineering (ISE)
8.2 Companies Working Primarily on Military Applications for ROVs and AUVs
8.2.1 Thales
8.2.2 BAE Systems
8.2.3 Atlas Elektronik / Maridan
8.2.4 Boeing Company
8.2.5 Lockheed Martin
8.3 Leading ROV and AUV Subsystems Companies
8.3.1 SeeByte
8.3.2 Applied Signal Technology
8.3.3 Tritech International Ltd
8.3.4 Vertec Engineering Ltd
8.3.5 WFS Technologies
8.3.6 Bowtech Products Ltd
9. Conclusions
9.1 Strongest Growth Opportunities for ROV and AUV Systems
9.2 ROV and AUV Market Weaknesses
9.2.1 ROV and AUV Technological Issues
9.2.2 Budgets, Costs, and Political and Policy Issues
9.3 Opportunities by Region
9.3.1 Regions with Strongest Growth for ROV and AUV Systems
9.3.2 Regions with Moderate Growth for ROV and AUV Systems
10. Glossary
List of Tables
Table 3.1 Global ROV and AUV Spending Across All Markets, 2010-2020 ($m, % AGR)
Table 3.2 Global ROV and AUV Spending Across All Markets CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 3.3 Global ROV and AUV Spending in the Energy Market, 2010-2020 ($m, % AGR)
Table 3.4 Global ROV and AUV Spending in the Energy Market CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 3.5 Global ROV and AUV Spending in the Military Market, 2010-2020 ($m, % AGR)
Table 3.6 Global ROV and AUV Spending in the Military Market CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 3.7 Global ROV and AUV Spending in the Scientific Research Market, 2010-2020 ($m, % AGR)
Table 3.8 Global ROV and AUV Spending in the Scientific Research Market CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 4.1 Regional ROV and AUV Spending in the Energy Market ($m, % AGR)
Table 4.2 Comparison of Regional ROV and AUV Spending CAGR (%) in the Energy Market 2010-2020
Table 4.3 Americas ROV and AUV Spending in the Energy Market, 2010-2020 ($m, % AGR)
Table 4.4 Americas ROV and AUV Spending in the Energy Market CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 4.5 Asia-Pacific ROV and AUV Spending in the Energy Market, 2010-2020 ($m, % AGR)
Table 4.6 Asia-Pacific ROV and AUV Spending in the Energy Market, CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 4.7 European ROV and AUV Spending in the Energy Market, 2010-2020 ($m, % AGR)
Table 4.8 European ROV and AUV Spending in the Energy Market, CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 4.9 African ROV and AUV Spending in the Energy Market, 2010-2020 ($m, % AGR)
Table 4.10 African ROV and AUV Spending in the Energy Market, CAGR (%) 2010-2020, 2010-2015 and 2015-2020
Table 5.1 Technological Drivers and Restraints for ROV and AUV in the Energy Market
Table 6.1 SWOT Analysis of ROV and AUV in the Energy Market 2010-2020
List of Figures
Figure 2.1 Types of ROVs used in the Energy Market 2010 (Units)
Figure 2.2 Categories of ROV and AUV Types in the Energy Market
Figure 2.3 Global ROV and AUV Spending by Market 2010 ($m)
Figure 2.4 Global ROV and AUV Spending by Market, 2010 (%)
Figure 2.5 Regional ROV and AUV Spending in the Energy Market 2010 ($m)
Figure 3.1 Global ROV and AUV Spending Across All Markets 2010-2020 ($m)
Figure 3.2 Global ROV and AUV Spending in the Energy Market, 2010-2020 ($m)
Figure 3.3 Comparative ROV and AUV Spending Across All Markets, 2010-2020 ($m)
Figure 3.4 Comparative Global ROV and AUV Spending by Market 2010 (%)
Figure 3.5 Comparative Global ROV and AUV Spending by Market 2015 (%)
Figure 3.6 Comparative Global ROV and AUV Spending by Market 2020 (%)
Figure 3.7 Global ROV and AUV Spending in the Military Market, 2010-2020 ($m)
Figure 3.8 Global ROV and AUV Spending in the Scientific Research Market 2010-2020 ($m)
Figure 4.1 Regional ROV and AUV Spending in the Energy Market 2010-2020 (%)
Figure 4.2 Comparison of Regional ROV and AUV Spending CAGR (%) in the Energy Market 2010-2020
Figure 4.3 Regional ROV and AUV Spending in the Energy Market 2010 (%)
Figure 4.4 Regional ROV and AUV Spending in the Energy Market 2020 (%)
Figure 4.5 Americas ROV and AUV Spending in the Energy Market, 2010-2020 ($m)
Figure 4.6 Asia-Pacific ROV and AUV Spending in the Energy Market, 2010-2020 ($m)
Figure 4.7 European ROV and AUV Spending in the Energy Market, 2010-2020 ($m)
Figure 4.8 African ROV and AUV Spending in the Energy Market, 2010-2020 ($m)
Figure 5.2 Global Number of Hugin Vehicles in Operation 2010 (Units)
Companies Mentioned in the Report
Amatek Strada
Apache
Applied Signal Technology
Aselsan Inc
Atlas Elektronik
Atlas Maridan
BAE Systems
Bluefin Robotics
Boeing Company
Bowtech Products Ltd
British Petroleum (BP)
C&C Technologies
Canyon Offshore
Chevron
China National Oil
Coflexip Stern Offshore
COOEC
DCSN
Deep Ocean Engineering
DOF Subsea
Ecole Navole
ENI
Ensietta
FMC Technologies Inc
Fugro
Geoconsult
Geodetic Offshore Services Ltd
Gregg Drilling and Testing Inc
Hafmynd
Halliburton Subsea
Hallin Marine
Halmon PLC
Hydroid
Hydro Products
Industrial Perforada de Campeche
Integrated Subsea Services
Integrated Systems Technology
Intermarine
International Submarine Engineering (ISE)
Inukten Services
ISEN
ISE Research
i-Tech
Kongsberg Maritime
Kongsberg Subsea
Kystdesign
Lockheed Martin
Maridan
Marport Deep Sea Technologies Inc
Natural Resources Canada (NRCan)
Nexans
Noble Energy
Nordhoek Offshore
Oceaneering International
OceanServer Technology
Perry Oceanographic
Perry Slingsby Systems
Petrobras
Roper Resources Ltd
Saab SeaEye
Saab Underwater Systems
Science Applications International Corporation (SAIC)
SeaBotix
Seamor Marine
SeeByte
SeaROV Services LLC
Schilling Robotics
Shell
Sonsub Stolt Offshore
Statoil
Sub-Atlantic Inc (SAI)
Sub-Atlantic Ltd
Subsea 7
Subsea Offshore
Subsea Resources Ltd
Symphotic
Total
Total Marine
Thales
Trico Marine Group
Tritech International Ltd
Triton Group
Tullow Ghana Ltd
UBO
Ultra Electronics Group
Vertec Engineering Ltd
VideoRay
Woodside Energy Ltd
WFS Technologies
Government Agencies and Other Organisations Mentioned in This Report
Australian Centre for Field Robotics (ACFR)
Autonomous Undersea Systems Institute
California Polytechnic Institute
China's Ministry of Land and Resources Guangzhou Marine Ecology Survey
Danish Navy
Finnish Navy
French Direction Generale des Enterprises (DGE)
German Navy
Johns Hopkins University
Massachusetts Institute of Technology (MIT)
Massachusetts Institute of Technology (MIT) Autonomous Underwater Vehicle Laboratory
National Oceanographic and Atmospheric Administration (NOAA)
National Science Foundation
National Sea Systems Command (NAVSEA)
North Atlantic Treaty Organization (NATO)
NATO Maintenance and Supply Agency
Netherlands Ministry of Defence
Netherlands Navy
NOAA Office of Ocean and Exploration and Undersea Research
Northwestern University Underwater Center
Norwegian Defense Establishment
Royal New Zealand Navy
UK Ministry of Defence (MoD)
UK Royal Navy
University of Iceland Institute of Biology
University of New Hampshire
University of New Hampshire Marine Systems Engineering Laboratory
University of Sydney
University of Victoria Ocean Technology Lab (OTL)
University of Washington
University of Zagreb
US Army
US Army TACOM
US Coast Guard
US Coast Guard Maritime Safety and Security Team (MSST)
US Department of Defense (DoD)
US Navy
Woods Hole Oceanographic Institute (WHOI)
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Clean Vehicle Industry: Remotely Operated Vehicles (ROV) and Autonomous Underwater Vehicles (AUV) in the Energy Market 2010-2020
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Nicolas Bombourg |
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