#autonomous underwater vehicle (AUV)
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#ETH Zurich#Eve#SURF e-DNA#robotic fish#Dennis Baumann#biomimetic design#ecosystem#ocean#AUV#autonomous underwater vehicle#camera#sonar#eDNA#DNA#Martina Lüthi#Aquaai#underwater habitat#ocean exploration#biodiversity#environment
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Autonomous Underwater Vehicles Market Size & Share[274 Pages Report] The global autonomous underwater vehicle (AUV) market size is valued at USD 2.0 billion in 2024 and is projected to reach USD 4.3 billion by 2029; it is expected to grow at a CAGR of 15.9% from 2024 to 2029.
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Innovative Use Cases for Autonomous Underwater Vehicles Market in Scientific Research
Introduction to Autonomous Underwater Vehicle (AUV) Market
The Autonomous Underwater Vehicle (AUV) market is a rapidly growing sector within the marine technology industry, driven by advancements in robotics, artificial intelligence, and underwater sensor technologies. AUVs are unmanned, self-propelled devices designed for underwater exploration and data collection, crucial for scientific research, military applications, and commercial purposes such as oil and gas exploration. The market is expanding due to increasing demand for deep-sea exploration, improved environmental monitoring, and enhanced security measures. Key players are focusing on innovation and collaboration to meet the diverse needs of end-users, creating a dynamic and competitive market landscape.
Market overview
The Autonomous Underwater Vehicle (AUV) Market is Valued USD 1.5 billion by 2024 and projected to reach USD 10.3 billion by 2032, growing at a CAGR of 23.90% During the Forecast period of 2024–2032.This growth is driven by increasing applications in scientific research, military operations, oil and gas exploration, and environmental monitoring.
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Major Classifications are as follows:
By AUV Shape:
Torpedo Shape
Cylindrical/Hydrodynamic Shape
Bio-inspired AUVs
Gliders
Blimp Shape
Hybrid AUVs
Others
By Depth Rating:
Up to 1,000 m
Up to 3,000 m
Up to 6,000 m
By Propulsion System:
Battery Powered
Fuel Cell Powered
Hybrid
By AUV Speed:
Up to 4 Knots/Hour
4–12 Knots/Hour
Above 12 Knots / Hour
By Application:
Commercial Applications
Seabed Mapping and Imaging
Geophysical Site Inspection
Pipeline and Subsea Structure Inspection
Oceanographic Surveys
Environmental Monitoring
Marine Geological Survey
Search Operations
Other
Defence Applications
Mine Countermeasures — MCM
Rapid Environmental Assessment — REA
Intelligence, Surveillance and Reconnaissance — ISR
Key Region/Countries are Classified as Follows:
◘ North America (United States, Canada, and Mexico)
◘ Europe (Germany, France, UK, Russia, and Italy)
◘ Asia-Pacific (China, Japan, Korea, India, and Southeast Asia)
◘ South America (Brazil, Argentina, Colombia, etc.)
◘ The Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)
Major players in Autonomous Underwater Vehicle (AUV) Market:
Aquabotix Corporation, Atlas Elektronik GmbH (AEG), BAE Systems, ECA Group (Exail Technologies), Forum Energy Technologies, Inc., General Dynamics Mission Systems, Inc., Huntington Ingalls Industries (HII), International Submarine Engineering Ltd. (ISE), IQUA Robotics, KONGSBERG, L3Harris Technologies, Inc., Lockheed Martin Corp, Marine Sonic Technology, Ocean Aero, Inc., RTSYS, Saab, Saipem, Subsea Tech, Teledyne Technologies Incorporated, Xylem and Others.
Market Drivers in Autonomous Underwater Vehicle (AUV) Market:
Technological Advancements: Innovations in robotics, artificial intelligence, and underwater sensors are enhancing Autonomous Underwater Vehicle Market capabilities, making them more efficient and versatile.
Increased Exploration Activities: Growing interest in deep-sea exploration and marine research is driving demand forAutonomous Underwater Vehicle capable of operating in extreme underwater environments.
Oil and Gas Industry: The need for advanced underwater inspection and monitoring in the oil and gas sector is boosting AUV adoption for tasks such as pipeline inspections and resource mapping.
Market challenges in Autonomous Underwater Vehicle (AUV) Market:
High Development Costs: The advanced technology and materials required for Autonomous Underwater Vehicle Market lead to high initial development and production costs, which can be a barrier to entry for some players.
Technical Limitations: Autonomous Underwater Vehicle must operate in harsh and unpredictable underwater environments, which can pose technical challenges related to durability, battery life, and data transmission.
Regulatory Hurdles: Navigating international and regional regulations related to underwater operations and environmental protection can be complex and time-consuming.
Market opportunities in Autonomous Underwater Vehicle (AUV) Market:
Enhanced Data Collection: There is growing demand for Autonomous Underwater Vehicle that can collect high-resolution data for scientific research, environmental monitoring, and resource exploration, opening opportunities for advanced sensor integration.
Commercial Exploration: The oil and gas sector continues to seek efficient solutions for underwater exploration and infrastructure inspection, creating opportunities for specialized Autonomous Underwater Vehicle Market applications.
Military and Defense Upgrades: There is a significant opportunity to develop Autonomous Underwater Vehicle with advanced capabilities for defense applications, such as surveillance, mine detection, and underwater reconnaissance.
Future trends in Autonomous Underwater Vehicle (AUV) Market:
Increased Autonomy: Advances in artificial intelligence and machine learning will enhance Autonomous Underwater Vehicle Market ability to operate independently, navigate complex underwater environments, and perform tasks with minimal human intervention.
Advanced Sensor Integration: The integration of cutting-edge sensors and imaging technologies will improve Autonomous Underwater Vehicleability to collect detailed environmental data, conduct high-resolution mapping, and perform complex analysis.
Energy Efficiency: Development of more efficient battery technologies and alternative power sources, such as energy harvesting systems, will extend the operational duration and range of Autonomous Underwater Vehicle.
Conclusion:
The Autonomous Underwater Vehicle (AUV) market is poised for significant growth, driven by technological advancements, increased demand for marine exploration, and environmental monitoring. Despite challenges like high development costs and technical limitations, opportunities abound in enhanced data collection, military applications, and emerging markets. Future trends indicate a move towards greater autonomy, advanced sensor integration, and improved energy efficiency. As Autonomous Underwater Vehicle continue to evolve, they will play a pivotal role in scientific research, commercial ventures, and environmental protection, shaping the future of underwater exploration and technology.
#Autonomous Underwater Vehicle (AUV) Market deman#dAutonomous Underwater Vehicle (AUV) Market share#Autonomous Underwater Vehicle (AUV) Market size#Autonomous Underwater Vehicle (AUV) Market trend
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[264 Pages Report] The global autonomous underwater vehicle (AUV) market size was valued at USD 1.6 billion in 2022 and is projected to reach USD 4.9 billion by 2028, growing at a CAGR of 22.4% from 2023 to 2028. Factors such as the high operational costs of AUVs are restraints for the market's growth.
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I fucking LOVE autonomous underwater vehicles!!!! (AUVs)
I fucking love how they can be used for maritime research, sea floor mapping, investigations of shipwrecks and military applications!!!!
#personal stuff#dougie rambles#autonomous underwater vehicles#mine disposal#maritime shit#AUV#oceanography#hydrography#gushing
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AUV & ROV Market is Set to Exhibit 7.8% CAGR Between 2023-2030
In recent years, there has been a growing demand for AUVs and ROVs in underwater exploration and inspection activities across many industries such as military & defence, oil & gas, scientific research, etc. The implementation of ongoing technological advancements such as AI, sensors, and robotics, have allowed these vehicles to perform complex tasks with greater precision and accuracy. Moreover, increased funding by respective governments and other concerned entities toward foster further development are elements also expected to have a positive influence on global AUV & ROV market.
Fairfield Market Research has estimated that the global AUV & ROV Market is expected to be valued at US$7 Bn by 2030, growing at a CAGR of 7.8%. Two major end-use applications for this market include oil & gas exploration activities which require AUVs and ROVs to carry out regular inspection and maintenance of existing underwater infrastructure, as well as in oceanic surveys to gather data on ocean temperature, currents, and other environmental parameters. Factors such as this are expected to continue to bolster the growth trajectory of the market in the years ahead.
For More Industry Insights Read: https://www.fairfieldmarketresearch.com/report/auv-rov-market
Adoption of Electric and Hybrid Propulsion Systems Fuels Market Growth
There has been a steady increase in the demand for AUVs and ROVS with electric and hybrid propulsion systems owing to the numerous benefits that these systems have over traditional propulsion systems. Some of these benefits include an increased level of efficiency which results in longer mission times and lower operational costs, a reduced environmental impact due to lower noise, vibration, and emission levels, as well as the improved level of manoeuvrability in underwater environments. Moreover, these propulsion systems reduce the need for maintenance and repair as these systems have fewer moving parts compared to traditional propulsion systems. These systems also allow for greater flexibility as they can be designed to fit the specific needs of a given application. Factors such as these are expected to have a positive influence on the global AUV & ROV market.
High Development Costs, and Limited Operational Range to Hinder Market Growth
Significant investments are needed to research and develop AUVs and ROVs. The maintenance costs of these vehicles are also high, and this could also act as a deterrent for companies looking to invest in them. Moreover, AUVs and ROVs have limited operational ranges and speed, which could result in hindering their use in certain applications, particularly those that require high-speed manoeuvring or in long-range operations. Additionally, various technical limitations of these vehicles and a lack of skilled operators are also elements that could hinder the further progression of the global AUV & ROV market in the future.
Asia Pacific to Index the Fastest CAGR
North America is expected to account for a significant share of the global AUV & ROV market owing to factors such as the presence of key industries such as oil & gas, military & defence, as well as scientific research; with the US being the largest market in this region. The Middle East & Africa is expected to remain a frontrunner in this global market. However, the Asia Pacific is expected to index the fastest CAGR over the forecast period. This can be attributed to increasing investments toward naval modernization programmes, marine research, and offshore oil & gas exploration. Key markets in this region include Japan, Australia, China, and South Korea.
Key Players in the Global AUV & ROV Market
Some of the most prominent industry players in the AUV & ROV market includes SUBSEA7, and Oceaneering International Inc. This report also encompasses other prominent companies in the market, such as Argeo, Fugro, Saab AB, Atlas Elektronik GmbH, BIRNS Inc., TechnipFMC Plc, STAPEM Offshore, and Kongsberg Maritime.
Get Sample Copy Report at: https://www.fairfieldmarketresearch.com/report/auv-rov-market/request-sample
About Us
Fairfield Market Research is a UK-based market research provider. Fairfield offers a wide spectrum of services, ranging from customized reports to consulting solutions. With a strong European footprint, Fairfield operates globally and helps businesses navigate through business cycles, with quick responses and multi-pronged approaches. The company values an eye for insightful take on global matters, ably backed by a team of exceptionally experienced researchers. With a strong repository of syndicated market research reports that are continuously published & updated to ensure the ever-changing needs of customers are met with absolute promptness.
#AUV & ROV market#AUV & ROV market size#AUV & ROV market share#AUV & ROV market demand#AUV & ROV market trends#AUV & ROV market growth#AUV & ROV market scope#AUV & ROV market research#autonomous underwater vehicle (AUV)#remotely operated vehicle (ROV)#fairfield market research
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Serving up the tiniest cuteness 🥰
Zooplankton can be subdivided into two major groups. Holoplankton (copepods and krill) spend their entire lives as plankton and thus provide major food sources for pelagic fisheries. Meroplankton (larvae of animals like barnacles, mussels, annelids, and fish) spend only part of their lives as plankton.
Copepods like the one in this video can be found in massive numbers across the world ocean. They play an important role in ocean food webs as predators—they eat even smaller diatoms and phytoplankton—and prey on animals like jellies, fish, and filter feeders.
Zooplankton are notoriously difficult to sample. Despite opportunities for mixing, individual zooplankton are tiny, and species are often patchily distributed. Coastal oceans are physically dynamic, high-energy environments. Winds, currents, and upwelling fronts affect the availability of nutrients and distribution of food that control zooplankton growth and dispersal. To tackle these challenges, the MBARI team developed the SIMZ program to explore more efficient zooplankton sampling and identification methods.
Traditionally, tow-nets are used to sample plankton along paths through the water. Because these paths often cross smaller environmental patches, they frequently lack the precision to associate zooplankton species' distribution and abundance with particular physical and biological processes. MBARI engineers have equipped an autonomous underwater vehicle (AUV) with gulpers—bottles that rapidly inhale discrete water samples—to better understand the spatial patchiness in zooplankton abundance. The AUV is equipped with sensors that measure things like temperature and salinity, and onboard computer software that instructs the Gulper AUV to recognize and autonomously sample specific environmental patches, such as upwelling fronts or chlorophyll layers. This "surgical" approach to ocean sampling allows SIMZ researchers to study the effects of specific physical processes on zooplankton distribution and diversity.
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Aquatic Robot Market to Eyewitness Huge Growth by 2030
Latest business intelligence report released on Global Aquatic Robot Market, covers different industry elements and growth inclinations that helps in predicting market forecast. The report allows complete assessment of current and future scenario scaling top to bottom investigation about the market size, % share of key and emerging segment, major development, and technological advancements. Also, the statistical survey elaborates detailed commentary on changing market dynamics that includes market growth drivers, roadblocks and challenges, future opportunities, and influencing trends to better understand Aquatic Robot market outlook.
List of Key Players Profiled in the study includes market overview, business strategies, financials, Development activities, Market Share and SWOT analysis:
Atlas Maridan ApS. (Germany), Deep Ocean Engineering Inc. (United States), Bluefin Robotics Corporation (United States), ECA SA (France), International Submarine Engineering Ltd. (Canada), Inuktun Services Ltd. (Canada), Oceaneering International, Inc. (United States), Saab Seaeye (Sweden), Schilling Robotics, LLC (United States), Soil Machine Dynamics Ltd. (United Kingdom)
Download Free Sample PDF Brochure (Including Full TOC, Table & Figures) @ https://www.advancemarketanalytics.com/sample-report/177845-global-aquatic-robot-market
Brief Overview on Aquatic Robot:
Aquatic robots are those that can sail, submerge, or crawl through water. They can be controlled remotely or autonomously. These robots have been regularly utilized for seafloor exploration in recent years. This technology has shown to be advantageous because it gives enhanced data at a lower cost. Because underwater robots are meant to function in tough settings where divers' health and accessibility are jeopardized, continuous ocean surveillance is extended to them. Maritime safety, marine biology, and underwater archaeology all use aquatic robots. They also contribute significantly to the expansion of the offshore industry. Two important factors affecting the market growth are the increased usage of advanced robotics technology in the oil and gas industry, as well as increased spending in defense industries across various countries.
Key Market Trends:
Growth in AUV Segment
Opportunities:
Adoption of aquatic robots in military & defense
Increased investments in R&D activities
Market Growth Drivers:
Growth in adoption of automated technology in oil & gas industry
Rise in awareness of the availability of advanced imaging system
Challenges:
Required highly skilled professional for maintenance
Segmentation of the Global Aquatic Robot Market:
by Type (Remotely Operated Vehicle (ROV), Autonomous Underwater Vehicles (AUV)), Application (Defense & Security, Commercial Exploration, Scientific Research, Others)
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Geographically, the following regions together with the listed national/local markets are fully investigated:
• APAC (Japan, China, South Korea, Australia, India, and Rest of APAC; Rest of APAC is further segmented into Malaysia, Singapore, Indonesia, Thailand, New Zealand, Vietnam, and Sri Lanka)
• Europe (Germany, UK, France, Spain, Italy, Russia, Rest of Europe; Rest of Europe is further segmented into Belgium, Denmark, Austria, Norway, Sweden, The Netherlands, Poland, Czech Republic, Slovakia, Hungary, and Romania)
• North America (U.S., Canada, and Mexico)
• South America (Brazil, Chile, Argentina, Rest of South America)
• MEA (Saudi Arabia, UAE, South Africa)Furthermore, the years considered for the study are as follows:
Historical data – 2017-2022
The base year for estimation – 2022
Estimated Year – 2023
Forecast period** – 2023 to 2028 [** unless otherwise stated]
Browse Full in-depth TOC @: https://www.advancemarketanalytics.com/reports/177845-global-aquatic-robot-market
Summarized Extracts from TOC of Global Aquatic Robot Market Study Chapter 1: Exclusive Summary of the Aquatic Robot market
Chapter 2: Objective of Study and Research Scope the Aquatic Robot market
Chapter 3: Porters Five Forces, Supply/Value Chain, PESTEL analysis, Market Entropy, Patent/Trademark Analysis
Chapter 4: Market Segmentation by Type, End User and Region/Country 2016-2027
Chapter 5: Decision Framework
Chapter 6: Market Dynamics- Drivers, Trends and Challenges
Chapter 7: Competitive Landscape, Peer Group Analysis, BCG Matrix & Company Profile
Chapter 8: Appendix, Methodology and Data Source
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#Global Aquatic Robot Market#Aquatic Robot Market Demand#Aquatic Robot Market Trends#Aquatic Robot Market Analysis#Aquatic Robot Market Growth#Aquatic Robot Market Share#Aquatic Robot Market Forecast#Aquatic Robot Market Challenges
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Researchers find the remains of 5 American World War II bombers in the Adriatic Sea
Researchers from the University of Delaware lead team to the Adriatic Sea in search of missing aircraft
Fernando Valduga By Fernando Valduga 12/03/2022 - 19:34 in History, Military
A team from the University of Delaware, working in partnership with the U.S. POW/MIA Accounting Agency (DPAA), recently located the wreckage of five B-24 Liberator bombing planes that fell into the Adriatic Sea during World War II.
Of the five B-24s, three have been positively identified and are associated with the loss of 23 American military personnel.
“The location or relocation of these five World War II aircraft was possible by using autonomous underwater vehicles (AUVs) that scan the seabed,” said Mark Moline, who was the leader of the Harrington Marine Studies mission and professor at the School of Marine Sciences and Policies at the University of Delaware.
Moline is the co-founder of Project Recover, an organization that uses underwater technologies to help locate and repatriate the more than 80,000 U.S. military personnel still missing in previous conflicts since World War II. During the summer of 2022, Moline led a multidisciplinary team of specialists in search for aircraft associated with the missing service personnel in the Adriatic Sea in Croatia.
Data and photographs taken from the site of the underwater wreck were used to create this photomosaic of a missing B-24 bomber. Look at the propeller in the center.
U.S. Army Air Corps personnel were lost in large numbers in Croatia (then Yugoslavia) during World War II. When the American bombers returned from their missions in territory controlled by Germany, some were forced to land or fall in Croatian waters near an allied airfield. Many of the service members of these aircraft are still missing in action.
B-24J Liberators of the 15th Air Force return from the mission to Mühldorf, Germany, to their base in Italy, March 19, 1945. Look at the island of Drvenik Veliki, Yugoslavia (present-day Croatia) below. (Photo: National Archives of the United States via D. Sheley)
These losses in World War II occurred almost 80 years ago, but the disappeared from this conflict were not forgotten. The U.S. government and partner organizations, including UD/Project Recover, continue to conduct these investigations with the aim of responding to the missing. According to Moline, the process of locating a particular aircraft begins years before the team can search the site.
“Before an expedition like this, we conducted research and collected historical documentation of so many potential losses nearby that we can identify,” said Colin Colbourn, a postdoctoral student and adjunct professor at the Department of History at the University of Delaware. "This process, aided by local information and DPAA investigators, proved to be essential, as we were able to definitively identify several of the aircraft through the small details left in the historical record."
An underwater photograph of the final resting place of a shot down World War II bomber.
Moline said it was a team effort that led to these multiple discoveries.
“Although locating and documenting these aircraft is exciting, it is also important to remember that it is only the first step in a long process to return these lost heroes to their families,” Moline said.
Colbourn added: “Thanks to our partnerships, this work in Croatia represented the best possible scenario. In just a few days at the site, we passed scientists and engineers conducting the search using AUVs, followed by divers and archaeologists investigating the wreckage, to identify these aircraft with historical documentation. The frequency of new discoveries and historical records suggest that there is more work to be done in Croatian waters.”
A diver inspects the wing of a World War II B-24 bomber in the waters of Croatia during a two-week search mission in August 2022. (Photo: Project Recover)
The search for the missing aircraft in Croatia is part of a greater innovation effort, sponsored by DPAA, to develop new technologies and approaches to locate possible wreckage sites. The role of the University of Delaware in this effort is to increase underwater technologies and develop new machine learning algorithms to interpret the large sets of data collected during missions.
While traveling through the water, AUVs collect large amounts of sonar data that researchers must analyze to locate remains of an aircraft.
A diver looks for clues about the identity of a World War II B-24 bomber in the waters of Croatia during a two-week search mission in August 2022. (Photo: Project Recover)
“The aircraft we look for are rarely intact, which requires more than just our human vision to interpret,” said Leila Character, a postdoctoral fellow who works with Moline at the University of Delaware. With experience in machine learning, Character is helping the team develop an algorithm that automates the review process, automatically reducing sonar images to only those that are likely to be candidates for further exploration.
Global Partnerships
Mark Moline, from the University of Delaware (left), professor of marine studies, washes the AUV after his research in Croatia, while Matthew Breece, a research scientist, and Erik White, senior engineer, download and analyze the data.
As with all Project Recover missions, global partnerships are essential. J. Tea Katunaric, an archaeologist at the University of Split, represented the government of Croatia and facilitated this mission. Dan Davis, a faculty member of Luther College in Iowa and the mission's main archaeologist, credits the depths of the water for helping to preserve the crash sites and Croatian partners for helping with the discoveries. The team also benefited from Andi Marovic's technical diving and aeronautical expertise from Manta Divers, who found and recovered pieces of wreckage that led to the identification of two aircraft.
“Croatian archaeologists, scientists, divers and military have been extraordinarily professional and kind,” Davis said. "The numerous discoveries and aircraft identifications made this year are largely due to their assistance. The partners of the host nation are proud to play a role in bringing our missing military home."
Diver Evan Kovacs, from Marine Imaging Technologies, prepares to descend into a B-24 wreck field to conduct the photographic documentation.
The work of Moline and his team does not end with the discoveries in Croatia. Missions in the Pacific Ocean are planned for 2023 in the effort of UD/Project Recover to reduce the frightening number of 80,000 Americans missing in action.
About the Recover Project
Project Recover is a collaborative effort to enlist 21st century science and technology in a quest to find and repatriate Americans missing in action (MIA) since World War II, in order to provide recognition and closure to families and the nation.
Tags: Military AviationB-24HISTORYWorld War II
Fernando Valduga
Fernando Valduga
Aviation photographer and pilot since 1992, he has participated in several events and air operations, such as Cruzex, AirVenture, Dayton Airshow and FIDAE. It has works published in specialized aviation magazines in Brazil and abroad. Uses Canon equipment during his photographic work in the world of aviation.
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AI-powered underwater vehicle transforms offshore wind inspections
New Post has been published on https://thedigitalinsider.com/ai-powered-underwater-vehicle-transforms-offshore-wind-inspections/
AI-powered underwater vehicle transforms offshore wind inspections
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Beam has deployed the world’s first AI-driven autonomous underwater vehicle for offshore wind farm inspections. The technology has already proved its mettle by inspecting jacket structures at Scotland’s largest offshore wind farm, Seagreen—a joint venture between SSE Renewables, TotalEnergies, and PTTEP.
The AI-powered vehicle represents a significant leap forward in marine technology and underwater robotics. Capable of conducting complex underwater inspections without human intervention, it promises to dramatically enhance efficiency and slash costs associated with underwater surveys and inspections.
Traditionally, offshore wind site inspections have been manual, labour-intensive processes. Beam’s autonomous solution offers a radical departure from this approach, enabling data to be streamed directly back to shore. This shift allows offshore workers to concentrate on more intricate tasks while reducing inspection timelines by up to 50%, resulting in substantial operational cost savings.
Brian Allen, CEO of Beam, said: “We are very proud to have succeeded in deploying the world’s first autonomous underwater vehicle driven by AI. Automation can revolutionise how we carry out inspection and maintenance of offshore wind farms, helping to reduce both costs and timelines.”
Beyond improved efficiency, Beam’s technology elevates the quality of inspection data and facilitates the creation of 3D reconstructions of assets alongside visual data. This deployment marks a crucial step in Beam’s roadmap for autonomous technology, with plans to extend this AI-driven solution across its fleet of DP2 vessels, ROVs, and autonomous underwater vehicles (AUVs) throughout 2025 and 2026.
“Looking ahead to the future, the potential of this technology is huge for the industry, and success in these initial projects is vital for us to progress and realise this vision. This wouldn’t be possible without forward-thinking customers like SSE Renewables who are willing to go on the journey with us,” explained Allen.
The Seagreen wind farm, operational since October 2023, is the world’s deepest fixed-bottom offshore wind farm. Beam’s project at Seagreen has provided crucial insights into the potential of autonomous technology for large offshore wind superstructures. The data collected by the AI-driven vehicle will support ongoing operational reliability at the site, offering valuable information on areas such as marine growth and potential erosion at the foundations.
[embedded content]
Matthew Henderson, Technical Asset Manager – Substructure and Asset Lifecycle at SSE Renewables, commented: “At SSE, we have a mantra that ‘if it’s not safe, we don’t do it.’ Beam’s technology demonstrates that autonomous inspections can reduce the personnel we need to send offshore for planned inspections, while speeding up planned works and collecting rich data-sets to inform asset integrity planning.
“As we move further offshore, and into deeper waters, the ability to collect high-quality inspection data in a low-risk manner is imperative to us delivering our Net Zero Acceleration Programme.”
As Beam prepares to roll out its AI-driven inspection technology across its fleet in 2025 and 2026, this deployment aligns with the company’s mission to revolutionise offshore wind operations by making them more efficient and cost-effective—further supporting the global energy transition.
The success of this AI-powered underwater vehicle at Seagreen wind farm not only demonstrates the potential of autonomous technology in offshore wind inspections but also sets a new standard for safety, efficiency, and data quality in the industry. Such innovations will play a crucial role in ensuring the sustainability and cost-effectiveness of offshore wind energy.
See also: Hugging Face is launching an open robotics project
Want to learn more about AI and big data from industry leaders? Check out AI & Big Data Expo taking place in Amsterdam, California, and London. The comprehensive event is co-located with other leading events including Intelligent Automation Conference, BlockX, Digital Transformation Week, and Cyber Security & Cloud Expo.
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Tags: ai, artificial intelligence, autonomous vehicle, beam, energy, environment, offshore wind, robotics, seagreen, sustainability, wind farm
#2023#3d#3d reconstructions#ai#ai & big data expo#AI-driven solution#AI-powered#amp#applications#approach#Articles#artificial#Artificial Intelligence#assets#automation#autonomous#autonomous vehicle#beam#Big Data#california#CEO#Cloud#comprehensive#conference#cost savings#cyber#cyber security#data#data quality#deploying
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https://www.marketwatch.com/press-release/autonomous-underwater-vehicle-auv-market-worth-4-3-billion-by-2029-exclusive-report-by-marketsandmarkets-tm-24d107e2
Autonomous Underwater Vehicles Market Size & Share
[274 Pages Report] The global autonomous underwater vehicle (AUV) market size is valued at USD 2.0 billion in 2024 and is projected to reach USD 4.3 billion by 2029; it is expected to grow at a CAGR of 15.9% from 2024 to 2029.
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North America Offshore Autonomous Underwater Vehicle Market: Player Analysis, Statistics, and Forecast (2024-2032)
The North America Offshore Autonomous Underwater Vehicle (AUV) Market is poised for transformative growth over the coming years. Driven by increasing investments in offshore exploration, advancements in technology, and growing demand for deep-sea data collection, this market presents significant opportunities for innovation and expansion. As industries and governments seek more efficient and safer methods for underwater exploration and data gathering, the role of AUVs is becoming increasingly critical.
For detailed insights into the market, including player analysis, statistics, and forecasts, check out the North America Offshore Autonomous Underwater Vehicle Market. This report offers a comprehensive view of the market landscape and future trends.
Key Points:
Market Drivers:
Technological Advancements: Innovations in AUV technology, such as improved navigation systems and energy-efficient designs, are accelerating market growth.
Increased Offshore Activities: Growing exploration and production activities in the oil and gas sector drive the demand for advanced underwater vehicles.
Market Segmentation:
By Type: The market includes several types of AUVs such as deep-sea AUVs, coastal AUVs, and specialized AUVs for scientific research.
By End-User: Key end-users include oil and gas companies, marine research institutions, and defense agencies.
Key Players:
Leading Companies: Major players in this market include Lockheed Martin, Teledyne Technologies, and Kongsberg Gruppen. These companies are known for their cutting-edge AUV technology and extensive industry experience.
Strategic Initiatives: Companies are investing in R&D and forming strategic partnerships to enhance their AUV offerings and expand market reach.
Regional Insights:
United States: The largest market segment due to extensive offshore operations and significant investment in marine technology.
Canada: Growing interest in Arctic exploration and resource management boosts demand for advanced AUVs.
Market Forecast:
Growth Projections: The North America Offshore Autonomous Underwater Vehicle Market is expected to grow substantially from 2024 to 2032, driven by technological innovations and increasing offshore exploration activities.
The North America Offshore Autonomous Underwater Vehicle Market offers substantial opportunities for growth and innovation, making it a key area of interest for stakeholders and investors.
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[264 Pages Report] The global autonomous underwater vehicle (AUV) market size was valued at USD 1.6 billion in 2022 and is projected to reach USD 4.9 billion by 2028, growing at a CAGR of 22.4% from 2023 to 2028. Factors such as the high operational costs of AUVs are restraints for the market's growth.
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Enhancing Maritime Security with Advanced Autonomous Underwater Vehicle (AUV) Market Capabilities
Autonomous Underwater Vehicles (AUVs) are revolutionizing underwater exploration and research. Marketing Autonomous Underwater Vehicles involves highlighting their advanced capabilities, such as high-resolution imaging, precise navigation, and autonomous operation. Key sectors include marine research, oil and gas exploration, and defense. Emphasize the cost-effectiveness, safety, and efficiency of AUVs compared to traditional methods. Showcase successful case studies and technological advancements to attract potential clients. With the growing demand for underwater data and exploration,Autonomous Underwater Vehicles are positioned as essential tools for modern maritime operations.
#Autonomous Underwater Vehicles demand#Autonomous Underwater Vehicles share#Autonomous Underwater Vehicles trend#Autonomous Underwater Vehicles size
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Surge in Autonomous Underwater Vehicle Market: Technological Breakthroughs Driving Innovation in Ocean Exploration, Defense, and Offshore Energy
The global Autonomous Underwater Vehicle Market was valued at USD 1,072.7 million in 2023 and is projected to reach USD 3,754.1 million by 2031, growing at a CAGR of 17.22% from 2024 to 2031.
This comprehensive research study on the global Autonomous Underwater Vehicle market gives detailed insights into the sector, offering a detailed analysis of market trends, prominent drivers, and future growth prospects. In order to make wise business decisions, it gives readers an extensive understanding of the market environment. Furthermore, the report covers several aspects, such as estimated market sizing, strategies employed by leading companies, restraining factors, and challenges faced by market participants.
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Market Forecast and Trends
The report's precise market forecasts and identification of emerging trends will allow readers to foresee the industry’s future and outline their tactics for the following years accordingly. Understanding market trends can help in gaining a competitive edge and staying ahead in a fast-paced business environment.
Regional and Segment Analysis
The study on the global Autonomous Underwater Vehicle market will aid industry participants find high-growth regions and profitable market segments through region-specific and segment-by-segment analysis. This information helps in implementing better marketing strategies and product lineups to meet the preferences and needs of various target audiences. The major regions covered in this comprehensive analysis include North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa.
Investment and Expansion Opportunities
The research report supports strategic decision-making by revealing prospective areas for investment and business growth in the global Autonomous Underwater Vehicle market. This report is a great tool for finding markets that are foreseen to grow substantially for aiding readers who want to expand into new and untapped markets or launch new products.
Competitive Analysis
The research report comprises an in-depth competitive analysis, which profiles major market competitors and evaluates their tactics, weaknesses, and market shares. These key players employ top business strategies, such as partnerships, alliances, mergers, acquisitions, product innovations, and product development, to establish a competitive advantage. Industry participants may use this information to measure their business against rivals and develop winning strategies for distinguishing themselves in the market.
Why Buy This Report?
Obtain an in-depth understanding of market trends and growth catalysts.
Utilize precise market forecasts for informed decision-making.
Outperform competitors through extensive competitive analysis.
Identify and leverage profitable regional and segment prospects.
Strategically plan investments and expansions in the global Autonomous Underwater Vehicle market
The major manufacturers in the Autonomous Underwater Vehicle Market are:
Kongsberg Gruppen ASA
Oceaneering International, Inc.
Teledyne Marine Technologies Incorporated
Fugro
Lockheed Martin Corporation
Saab AB
L3Harris Technologies, Inc.
Boeing
General Dynamics Mission Systems, Inc.
ECA GROUP
HII
The global Autonomous Underwater Vehicle Market is segmented as:
By Type
Small AUVs
Medium AUVs
Large AUVs
By Payload Type
Sensor-based AUVs
Intervention AUVs
By Application
Military & Defense
Search & Salvage Operation
Archaeology & Exploration
Others
By Region
North America
U.S.
Canada
Mexico
Europe
France
U.K.
Spain
Germany
Italy
Russia
Rest of Europe
Asia-Pacific
China
Japan
India
South Korea
Rest of Asia-Pacific
Middle East & Africa
GCC
North Africa
South Africa
Rest of Middle East & Africa
Latin America
Brazil
Argentina
Rest of Latin America.
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