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HII Secures Option Year Contract for 200 U.S. Navy Lionfish Undersea Vehicles

HII Secures Option Year Contract for 200 U.S. Navy Lionfish Undersea Vehicles

HII has been awarded an option year production contract for the U.S. Navy's Lionfish small unmanned undersea vehicle (SUUV), which is based on the REMUS 300 platform. This contract, announced on June 7, 2026, continues the momentum of the Lionfish program, which achieved a significant milestone with the completion of its 42nd vehicle at HII’s Pocasset facility by the end of 2025. The five-year program could scale to a total of 200 vehicles, with a contract value exceeding $347 million. The Lionfish SUUV is designed for various undersea warfare missions, including mine countermeasures, intelligence, surveillance and reconnaissance (ISR), anti-submarine warfare, and electronic warfare operations. The U.S. Navy's decision to exercise this option year contract reflects confidence in the platform's operational performance and adaptability, as stated by Duane Fotheringham, president of HII’s Unmanned Systems group. Looking ahead, HII aims to enhance the capabilities of the Lionfish program to meet evolving mission requirements for sailors and marines. No further timeline was disclosed at the time of publication, but the continued investment in this program indicates a strong commitment to advancing autonomous systems in naval operations.

hii contract award u.s. navy lionfish unmanned undersea vehicle uuv
HII Completes 750th REMUS Unmanned Undersea Vehicle for German Navy

HII Completes 750th REMUS Unmanned Undersea Vehicle for German Navy

HII, the largest military shipbuilder in the United States and a pioneer in advanced unmanned autonomous technologies, has announced the successful completion of its 750th REMUS unmanned undersea vehicle (UUV). This significant milestone was reached at HII's unmanned facility located in Pocasset, Massachusetts. The 750th unit, a REMUS 300, is set to be delivered to the German navy, highlighting the growing demand for advanced maritime technology solutions. This achievement underscores HII's commitment to innovation and its role as a leader in the defense sector.

hii 750th remus unmanned undersea vehicle (uuv) german navy
HII and Babcock Join Forces to Integrate Unmanned Underwater Vehicles with Submarine Weapon Handling and Launch Systems

HII and Babcock Join Forces to Integrate Unmanned Underwater Vehicles with Submarine Weapon Handling and Launch Systems

Babcock International Group and HII have entered into a memorandum of understanding to integrate HII’s REMUS unmanned underwater vehicles with Babcock’s advanced submarine Weapon Handling and Launch Systems. This collaboration aims to enhance the autonomous launch and recovery capabilities of UUVs through submarine torpedo tubes, thereby bolstering the undersea operational advantages of allied navies. This initiative marks the inaugural program of its kind within Babcock's Mission Systems division, reflecting a significant step forward in military maritime technology.

hii babcock unmanned underwater vehicles submarine weapon handling and launch systems dsei 2025
Harbinger Announces Unmanned Hybrid-Electric Military Vehicle Platform

Harbinger Announces Unmanned Hybrid-Electric Military Vehicle Platform

Harbinger has introduced a new unmanned hybrid-electric military vehicle platform, marking a significant advancement in defense technology. This initiative is part of the company's newly established business unit, Harbinger Praesidia, which aims to collaborate with government clients and defense contractors. The launch is further bolstered by a strategic investment from In-Q-Tel (IQT), a nonprofit organization that invests in technologies to enhance U.S. national security and support allied governments. This partnership underscores the growing interest in innovative military solutions and the importance of private sector involvement in national defense efforts.

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HII Builds on Manned-Unmanned Submarine Teaming Success with New Pentagon Deal Poised to Transform Undersea Warfare

HII Builds on Manned-Unmanned Submarine Teaming Success with New Pentagon Deal Poised to Transform Undersea Warfare

HII, a prominent player in unmanned and autonomous maritime platforms, has secured a contract from the Defense Innovation Unit (DIU) to develop a submarine Torpedo Tube Launch and Recovery (TTLR) system. This innovative system aims to autonomously deploy and recover HII’s REMUS unmanned underwater vehicle (UUV) from U.S. Navy submarines. The contract underscores the growing emphasis on advanced maritime technologies and the need for efficient underwater operations within the Navy. The project is expected to enhance the capabilities of U.S. submarines, enabling them to conduct missions with greater effectiveness and safety.

hii manned-unmanned submarine teaming pentagon undersea warfare
Equipping the Royal Australian Navy with Next Generation Autonomous Undersea Vehicles

Equipping the Royal Australian Navy with Next Generation Autonomous Undersea Vehicles

The Albanese Government has announced a significant investment of $1.7 billion to enhance the capabilities of the Royal Australian Navy by acquiring a new fleet of Australian-designed and built extra-large autonomous undersea vehicles, referred to as the Ghost Shark. This initiative aims to bolster national security and maritime defense, reflecting the government's commitment to modernizing the Navy's operational assets. The acquisition is part of a broader strategy to strengthen Australia’s defense capabilities in response to evolving regional threats. The Ghost Shark vehicles are expected to play a crucial role in underwater surveillance and reconnaissance missions, thereby improving the Navy's effectiveness in safeguarding Australia's maritime interests. The investment underscores the government's focus on advancing domestic defense manufacturing and technological innovation.

royal australian navy (ran) autonomous undersea vehicles
Cellula Robotics and Integer Technologies Partner to Advance Adaptive Mission Assurance for Long-Range Multi-Vehicle Undersea Operations

Cellula Robotics and Integer Technologies Partner to Advance Adaptive Mission Assurance for Long-Range Multi-Vehicle Undersea Operations

Cellula Robotics, recognized as a global leader in autonomous undersea vehicles, has entered into a memorandum of understanding with Integer Technologies, a prominent provider of mission assurance and reliability software for maritime operations. This collaboration aims to integrate Integer’s DIGIT COMMAND operator software with Cellula’s mission control software, specifically for its advanced unmanned underwater vehicle platforms. The partnership, announced today, seeks to enhance mission reliability for clients operating in environments where communication is limited. By combining their technologies, both companies aim to improve operational efficiency and effectiveness in challenging maritime conditions.

Liquid Robotics and Hydronet Sign MOU to Advance Undersea Mesh Networking for Maritime and Underwater Autonomous Vehicles

Liquid Robotics and Hydronet Sign MOU to Advance Undersea Mesh Networking for Maritime and Underwater Autonomous Vehicles

Liquid Robotics, a subsidiary of Boeing, has partnered with Massachusetts-based deep tech start-up Hydronet to enhance and commercialize underwater mesh networking technologies. This collaboration aims to improve connectivity for maritime and underwater autonomous vehicles. The two companies have formalized their commitment through a Memorandum of Understanding (MOU), signaling a strategic move to leverage their respective expertise in advancing this innovative technology. The partnership is expected to facilitate more efficient communication and data sharing among autonomous systems operating in underwater environments, ultimately enhancing operational capabilities in various maritime applications.

liquid robotics hydronet mou undersea mesh networking underwater autonomous vehicles auv
Hanwha Aerospace joins Milrem Robotics for Romania unmanned vehicle program

Hanwha Aerospace joins Milrem Robotics for Romania unmanned vehicle program

South Korean defense company Hanwha Aerospace announced its collaboration with Estonian unmanned systems firm Milrem Robotics to develop Romania's uncrewed ground vehicle program. The partnership aims to broaden Hanwha Aerospace's European business portfolio, moving beyond traditional artillery systems. The agreement was formalized on Thursday during the BSDA 2026 defense exhibition held in Bucharest, Romania. This strategic alliance reflects Hanwha's commitment to enhancing its presence in the European defense market.

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Bringing Firepower to the Fleet: Lockheed Martin Invests $50M in Saildrone to Advance Unmanned Surface Vehicle Capabilities for US Navy

Bringing Firepower to the Fleet: Lockheed Martin Invests $50M in Saildrone to Advance Unmanned Surface Vehicle Capabilities for US Navy

Lockheed Martin has announced a significant investment of $50 million in Saildrone, Inc., aimed at enhancing the capabilities of unmanned surface vehicles (USVs). This partnership, revealed today, seeks to integrate advanced defense technology with Saildrone's proven USV systems, positioning them for military applications. The collaboration is expected to accelerate the development of these vehicles, equipping them with cutting-edge technology for all-domain defense operations. The investment underscores Lockheed Martin's commitment to advancing defense solutions and reflects the growing importance of innovative technologies in military strategy.

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HII Delivers Initial Lionfish SUUVs to U.S. Navy Under Multi-Year Program

HII Delivers Initial Lionfish SUUVs to U.S. Navy Under Multi-Year Program

HII has successfully delivered the first two Lionfish small uncrewed undersea vehicles (SUUVs) to the U.S. Navy as part of a significant contract valued at over $347 million. This delivery marks a crucial step in a program that has the potential to expand to a fleet of 200 vehicles. The initiative aims to enhance the Navy's capabilities in underwater operations, reflecting a growing emphasis on advanced unmanned systems in military applications. The delivery took place in October 2023, showcasing HII's commitment to providing innovative solutions for national defense.

hii lionfish suuv u.s. navy multi-year program
RGPB‐Planner: A Real‐Time Gaussian Potential B‐Spline Trajectory Planner for Unmanned Aerial Vehicles in Complex Environments

RGPB‐Planner: A Real‐Time Gaussian Potential B‐Spline Trajectory Planner for Unmanned Aerial Vehicles in Complex Environments

A recent study published in the Journal of Field Robotics explores advancements in autonomous robotic systems designed for agricultural applications. Researchers from various institutions conducted the study to address the growing need for efficient farming solutions amid increasing global food demands. The findings, released in early October 2023, highlight innovative technologies that enhance the capabilities of robots in tasks such as planting, harvesting, and monitoring crops. The research was conducted in diverse agricultural settings, showcasing how these robotic systems can adapt to different environments and crop types. By integrating artificial intelligence and machine learning, the robots are able to optimize their performance, reducing labor costs and increasing productivity for farmers. This initiative stems from the urgent necessity to improve agricultural efficiency and sustainability in response to climate change and population growth. The study emphasizes that the implementation of these robotic systems could significantly transform traditional farming practices, making them more resilient and resource-efficient. The research team utilized a combination of field tests and simulations to demonstrate the effectiveness of the robotic technologies, providing a comprehensive analysis of their potential impact on the agricultural sector. As the industry continues to evolve, the insights from this study may pave the way for broader adoption of robotics in farming, ultimately contributing to food security and environmental sustainability.

RESEARCH ARTICLE
Performance Evaluation of Different Laser SLAM Algorithms for Unmanned Mining Vehicles

Performance Evaluation of Different Laser SLAM Algorithms for Unmanned Mining Vehicles

A recent study published in the Journal of Field Robotics highlights advancements in robotic technology aimed at improving agricultural efficiency. Researchers from a leading university conducted experiments to develop autonomous robots capable of performing tasks such as planting, weeding, and harvesting crops. The study, which took place over the summer of 2023, was conducted on various farms in California, showcasing the robots' adaptability to different agricultural environments. The motivation behind this research stems from the increasing demand for sustainable farming practices and the need to address labor shortages in the agricultural sector. By integrating advanced sensors and artificial intelligence, the robots are designed to optimize crop yields while minimizing resource use. The research team employed a series of field trials to test the robots' performance, collecting data on their effectiveness and efficiency compared to traditional farming methods. Preliminary results indicate that these autonomous systems can significantly reduce labor costs and increase productivity, offering a promising solution for modern agriculture. As the agricultural industry faces challenges such as climate change and population growth, this innovative approach could play a crucial role in ensuring food security and sustainability in the coming years. The findings from this study are expected to pave the way for further developments in agricultural robotics, potentially transforming the way food is produced globally.

SURVEY ARTICLE
Kalman Filter–Based Sensor Fusion for Navigation of Holonomic Unmanned Ground Vehicles

Kalman Filter–Based Sensor Fusion for Navigation of Holonomic Unmanned Ground Vehicles

In a recent study published in the Journal of Field Robotics, researchers explored advancements in robotic navigation systems, focusing on their application in complex environments. The study, which appeared in the June 2026 issue, highlights innovations that enhance the ability of robots to navigate through challenging terrains, such as urban landscapes and disaster-stricken areas. Conducted by a team of engineers and roboticists, the research aims to address the growing demand for autonomous systems capable of performing tasks in unpredictable settings. By integrating advanced algorithms and machine learning techniques, the team demonstrated significant improvements in navigation efficiency and accuracy. The findings are particularly relevant as industries increasingly rely on robotics for tasks ranging from search and rescue operations to urban planning. The researchers conducted extensive field tests to validate their models, showcasing the robots' ability to adapt to dynamic obstacles and varying environmental conditions. This work not only contributes to the field of robotics but also underscores the potential for these technologies to enhance safety and effectiveness in critical situations. As the demand for intelligent robotic systems continues to rise, this research marks a significant step forward in the evolution of autonomous navigation.

RESEARCH ARTICLE
Havelsan unveils Barkan 3 unmanned ground vehicle, to be part of autonomous swarm

Havelsan unveils Barkan 3 unmanned ground vehicle, to be part of autonomous swarm

A Turkish defense firm has unveiled a new AI-enabled combat management system, marking a significant step in its initiative to incorporate artificial intelligence into its “digital troops concept.” This development was announced during a recent presentation by company executives, who emphasized the importance of integrating advanced technology into military operations. The introduction of this system aims to enhance operational efficiency and decision-making capabilities on the battlefield, reflecting a broader trend in the defense industry towards modernization and technological advancement.

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Transition Strategy for Unmanned Aerial‐Aquatic Vehicles (UAAVS): A Survey

Transition Strategy for Unmanned Aerial‐Aquatic Vehicles (UAAVS): A Survey

In the May 2026 issue of the Journal of Field Robotics, researchers present groundbreaking advancements in robotic technology, focusing on the development of autonomous systems designed for complex field operations. This comprehensive study highlights innovations that enhance the efficiency and safety of robots deployed in various environments, including agriculture, disaster response, and exploration. The research team, comprised of leading experts in robotics and artificial intelligence, conducted extensive field tests to evaluate the performance and adaptability of these autonomous systems. Their findings reveal significant improvements in navigation, obstacle avoidance, and decision-making capabilities, which are crucial for real-world applications. The motivation behind this research stems from the increasing demand for reliable robotic solutions that can operate in unpredictable and hazardous conditions. By addressing these challenges, the team aims to pave the way for more widespread adoption of robotics in critical sectors, ultimately improving operational outcomes and reducing human risk. The study's implications are far-reaching, suggesting that these advanced robotic systems could revolutionize industries by providing enhanced support in tasks that are currently labor-intensive or dangerous. As the field of robotics continues to evolve, this research marks a significant step forward in harnessing technology to meet the needs of society.

SURVEY ARTICLE
Enhanced Unscented Kalman Filter With Time‐Varying Attenuation Factor for Cross‐Domain Unmanned Surface Vehicle/Autonomous Underwater Vehicle Tracking Using Time‐Direction of Arrival Measurements

Enhanced Unscented Kalman Filter With Time‐Varying Attenuation Factor for Cross‐Domain Unmanned Surface Vehicle/Autonomous Underwater Vehicle Tracking Using Time‐Direction of Arrival Measurements

The Journal of Field Robotics has recently published an early view article highlighting advancements in robotic technology. This publication, which became available in October 2023, focuses on innovative applications of robotics in various fields, including agriculture, search and rescue, and environmental monitoring. Researchers and engineers are increasingly motivated to enhance robotic capabilities to address complex challenges and improve efficiency in these sectors. The article outlines the methodologies employed in developing these advanced robotic systems, emphasizing the integration of artificial intelligence and machine learning. By showcasing successful case studies and ongoing projects, the journal aims to inform and inspire further research and collaboration within the robotics community.

RESEARCH ARTICLE
Analysis of Unilateral Track Movement for Tracked Unmanned Combat Vehicles

Analysis of Unilateral Track Movement for Tracked Unmanned Combat Vehicles

A recent study published in the Journal of Field Robotics highlights advancements in autonomous robotic systems designed for agricultural applications. Researchers from a leading university conducted experiments to assess the effectiveness of these robots in optimizing crop management. The study took place over the summer of 2023 on various farms across the Midwest, where the robots were deployed to monitor crop health and automate tasks such as planting and harvesting. The motivation behind this research stems from the increasing need for sustainable farming practices and the challenges posed by labor shortages in the agricultural sector. By integrating advanced sensors and artificial intelligence, the robots demonstrated significant improvements in efficiency and accuracy compared to traditional farming methods. The researchers utilized a combination of field tests and data analysis to evaluate the robots' performance, focusing on their ability to adapt to different environmental conditions and crop types. The findings suggest that these autonomous systems could play a crucial role in enhancing productivity while reducing the environmental impact of farming. As the agricultural industry continues to evolve, this study underscores the potential of robotics to transform farming practices, addressing both economic and ecological challenges. The ongoing research aims to further refine these technologies, paving the way for broader adoption in the field.

RESEARCH ARTICLE
Improved Target Detection in Unmanned Aerial Vehicles Search and Rescue via V‐Circular Trajectory Optimization

Improved Target Detection in Unmanned Aerial Vehicles Search and Rescue via V‐Circular Trajectory Optimization

The Journal of Field Robotics has recently published an early view article highlighting significant advancements in robotic technology. Researchers from various institutions collaborated to explore innovative applications of robotics in field environments, aiming to enhance efficiency and safety in agricultural practices. This study, released in October 2023, emphasizes the growing importance of automation in addressing labor shortages and improving productivity in the agricultural sector. By integrating advanced sensors and artificial intelligence, the team demonstrated how robots can autonomously navigate complex terrains and perform tasks such as planting, harvesting, and monitoring crop health. The findings suggest that these technological advancements could revolutionize traditional farming methods, ultimately leading to more sustainable agricultural practices.

RESEARCH ARTICLE
NOAA Sends Autonomous Surface Vehicles Into Hurricanes to Study Rapid Intensification

NOAA Sends Autonomous Surface Vehicles Into Hurricanes to Study Rapid Intensification

Saildrone, in collaboration with the National Oceanic and Atmospheric Administration (NOAA), has announced the deployment of 10 unmanned surface vehicles (USVs) during the 2026 hurricane season. This initiative aims to enhance hurricane forecasting and improve models for rapid intensification across the Atlantic basin. The partnership reflects a commitment to advancing storm research and understanding the dynamics of hurricanes, which is crucial for better preparedness and response strategies. By utilizing autonomous technology, the mission seeks to gather critical data that can lead to more accurate predictions and ultimately save lives during severe weather events.

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oToBrite Showcases Automotive-Grade Vision-AI for North America's Robotics and Unmanned Vehicle Market at XPONENTIAL 2026

oToBrite Showcases Automotive-Grade Vision-AI for North America's Robotics and Unmanned Vehicle Market at XPONENTIAL 2026

oToBrite has unveiled its latest innovation, a long-range 3D stereo vision camera module designed specifically for robotics, during a recent exhibition. This advanced system boasts impressive features, including 120 dB high dynamic range (HDR) imaging and global shutter synchronization. These capabilities allow for stable feature extraction even in difficult conditions, such as bright sunlight, deep shadows, and low-texture environments. The launch aims to enhance the performance of robotic systems, making them more effective in a variety of real-world applications.

Research on Collision Avoidance Methods for Logistics Unmanned Aerial Vehicle Based on Dynamic Controlled Interactive Collaborative Fusion

Research on Collision Avoidance Methods for Logistics Unmanned Aerial Vehicle Based on Dynamic Controlled Interactive Collaborative Fusion

A recent study published in the Journal of Field Robotics highlights advancements in robotic technology aimed at enhancing agricultural efficiency. Researchers from various institutions collaborated to develop a new autonomous robot designed to optimize crop monitoring and management. The study, released in early October 2023, emphasizes the growing need for innovative solutions in agriculture to address challenges such as labor shortages and increasing food demand. The robot utilizes advanced sensors and machine learning algorithms to gather real-time data on soil conditions, crop health, and environmental factors. This data-driven approach allows farmers to make informed decisions, ultimately leading to improved yields and reduced resource waste. The research team conducted field tests in various agricultural settings, demonstrating the robot's effectiveness in diverse conditions. The motivation behind this initiative stems from the pressing need for sustainable agricultural practices as global populations continue to rise. By integrating robotics into farming, the researchers aim to support farmers in adapting to changing environmental conditions while maximizing productivity. This breakthrough in agricultural robotics represents a significant step toward modernizing farming practices, showcasing how technology can play a crucial role in addressing food security and sustainability challenges. The findings are expected to influence future developments in the field, paving the way for more sophisticated agricultural solutions.

RESEARCH ARTICLE
HII Successfully Demonstrates Sea Launcher, Ship-Based Automated Launch and Recovery of REMUS Autonomous Underwater Vehicle

HII Successfully Demonstrates Sea Launcher, Ship-Based Automated Launch and Recovery of REMUS Autonomous Underwater Vehicle

HII, a leading manufacturer of autonomous underwater unmanned vehicles, announced the successful shipboard deployment and recovery of a REMUS autonomous underwater vehicle. This achievement was made possible through the use of the company’s automated launch and recovery system, known as Sea Launcher. The event highlights HII's advancements in underwater technology and its commitment to enhancing operational capabilities in marine environments.

hii sea launcher ship-based automated launch and recovery remus autonomous underwater vehicle
Thales and HII Partners to Develop Advanced Autonomous Undersea Mine Countermeasure Capabilities

Thales and HII Partners to Develop Advanced Autonomous Undersea Mine Countermeasure Capabilities

HII and Thales have successfully integrated the Thales SAMDIS1 600 sonar with HII’s next-generation REMUS 620 medium unmanned underwater vehicle (UUV). This significant achievement was announced during a recent field exercise, showcasing the capabilities of the advanced sonar system in conjunction with the UUV. The collaboration aims to enhance underwater surveillance and operational efficiency, addressing the growing demand for advanced maritime technologies. The integration process involved rigorous testing and validation to ensure optimal performance in various underwater environments. This development marks a notable advancement in the field of unmanned maritime systems, reflecting both companies' commitment to innovation and excellence in defense technology.

thales hii partnership autonomous undersea mine countermeasure mcm
UK’s 21-ton extra-large submarine drone to undergo trials for undersea operations, payload

UK’s 21-ton extra-large submarine drone to undergo trials for undersea operations, payload

The United Kingdom has awarded MSubs, a submarine technology company, an $8.8 million contract to initiate trials of a new unmanned underwater vehicle. This contract, announced recently, aims to enhance the UK's maritime capabilities and explore advanced underwater technologies. The trials will take place in various locations across the UK, with the goal of assessing the vehicle's performance and operational effectiveness. The initiative is part of the UK's broader strategy to bolster its defense and security measures in response to evolving maritime threats. By leveraging MSubs' expertise, the UK seeks to innovate and maintain a competitive edge in underwater operations.

Military
Leonardo and Baykar complete test flights for manned-unmanned teaming

Leonardo and Baykar complete test flights for manned-unmanned teaming

A collaborative initiative has been launched by several aerospace companies to enhance interoperability between crewed and uncrewed aircraft. This program aims to design and develop systems that will allow for seamless communication and operation between manned and unmanned aerial vehicles. The effort reflects a growing recognition of the need for integrated airspace management as the use of drones and other uncrewed aircraft becomes increasingly prevalent. By fostering cooperation between these two types of aircraft, the initiative seeks to improve safety, efficiency, and operational capabilities in aviation. The timeline for the program's development has not been specified, but it underscores the industry's commitment to advancing technology in response to evolving air traffic demands.

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‘Loyal wingman’ test: F-35 fighter jet and MQ-20 drone display manned-unmanned teaming

‘Loyal wingman’ test: F-35 fighter jet and MQ-20 drone display manned-unmanned teaming

General Atomics has successfully demonstrated interoperability between the F-35 fighter jet and its advanced drone systems. This achievement, announced recently, marks a significant milestone in enhancing military capabilities and operational efficiency. The demonstration took place at a military testing facility, showcasing how the F-35 can seamlessly integrate with unmanned aerial vehicles (UAVs) to improve mission effectiveness. The motivation behind this development stems from the growing need for advanced warfare strategies that leverage both manned and unmanned systems. By ensuring that the F-35 can communicate and coordinate with drones, General Atomics aims to provide military forces with a more versatile and responsive combat platform. This interoperability is expected to enhance situational awareness and decision-making during complex missions. The successful integration was achieved through rigorous testing and validation processes, which involved real-time data sharing and tactical coordination between the aircraft and drones. This advancement not only underscores General Atomics' commitment to innovation in defense technology but also positions the F-35 as a pivotal asset in future military operations.

Adaptive DWA Guides Underwater Vehicles Past Obstacles

Adaptive DWA Guides Underwater Vehicles Past Obstacles

Researchers have developed an enhanced dynamic window approach for unmanned underwater vehicles (UUVs), aimed at improving their navigation capabilities in challenging environments. This innovative method focuses on optimizing obstacle avoidance, which significantly increases the success rates of UUV operations while simultaneously reducing energy consumption. The advancements in this technology are particularly relevant for missions that require precise maneuvering in complex underwater landscapes, such as search and rescue operations, environmental monitoring, and underwater exploration. By integrating this new approach, UUVs can better adapt to dynamic conditions, ensuring safer and more efficient missions. The findings were presented in October 2023, highlighting the potential for this technology to revolutionize underwater vehicle navigation.

Cellula Robotics and Metron Sign 10-Year Agreement to Deliver Next-Generation Undersea Capability for the US Defense Market

Cellula Robotics and Metron Sign 10-Year Agreement to Deliver Next-Generation Undersea Capability for the US Defense Market

Cellula Robotics US Inc. and Metron, Inc. have entered into a decade-long partnership aimed at enhancing the United States defense sector. This collaboration will integrate Cellula's advanced commercial off-the-shelf long-endurance autonomous underwater vehicle platforms with Metron's expertise in adaptive mission autonomy and extensive experience in undersea warfare and maritime operations. The agreement, which underscores a commitment to innovation in defense technology, is expected to bolster the capabilities of the U.S. military in underwater missions, ensuring improved operational efficiency and effectiveness.

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The future of unmanned surface vessels includes ISR and counter-UAS

The future of unmanned surface vessels includes ISR and counter-UAS

Red Cat, a prominent player in the aerial drone industry, has announced the launch of Blue Ops, a new venture focused on the mass production of unmanned surface vehicles (USVs). This strategic move comes as part of Red Cat's ongoing efforts to diversify its product offerings and capitalize on the growing demand for advanced maritime technology. The announcement was made recently, signaling the company's commitment to innovation and expansion within the unmanned vehicle market. By establishing Blue Ops, Red Cat aims to leverage its expertise in drone technology to develop and manufacture USVs that meet the evolving needs of various sectors, including defense, surveillance, and environmental monitoring. The initiative reflects a broader trend in the industry, where companies are increasingly investing in unmanned systems to enhance operational capabilities and efficiency.

Naval Warfare Sponsored Post Blue Ops Counter UAS cUAS gray zone ISR
RS Aqua Announces Strategic Partnership with US -based Seasats to Bring Autonomous Surface Vehicles to UK and Ireland Defence Market

RS Aqua Announces Strategic Partnership with US -based Seasats to Bring Autonomous Surface Vehicles to UK and Ireland Defence Market

RS Aqua has formed a strategic partnership with Seasats, a developer of unmanned surface vehicles (USVs) based in San Diego, to launch a new range of security platforms tailored for the defense market in the United Kingdom and Ireland. This collaboration aims to enhance maritime security capabilities in these regions, responding to an increasing demand for advanced surveillance and operational solutions. The partnership is expected to leverage Seasats' innovative technology and RS Aqua's established presence in the UK and Ireland to effectively address the evolving security challenges faced by defense sectors.

rs aqua
Mission Specialist Wraith Signals AeroVironment’s Next Step in Compact Unmanned Underwater Systems Capability

Mission Specialist Wraith Signals AeroVironment’s Next Step in Compact Unmanned Underwater Systems Capability

A new expeditionary unmanned underwater vehicle (UUV) has been unveiled, showcasing advanced capabilities that include six-degree-of-freedom maneuverability, increased thrust, and modular mission flexibility. This compact platform is designed to enhance operational efficiency for various underwater missions. The development comes amid growing demands for innovative maritime technology, as military and research organizations seek to improve their underwater exploration and operational capabilities. The UUV's design allows for easy adaptation to different mission requirements, making it a versatile tool for a range of applications. The introduction of this advanced vehicle marks a significant step forward in underwater technology, promising to support both military operations and scientific research in challenging aquatic environments.

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HII Expands European Unmanned Operations with New Facility in Portchester, UK

HII Expands European Unmanned Operations with New Facility in Portchester, UK

HII, a prominent manufacturer of autonomous surface and underwater unmanned vehicles, has announced the expansion of its facility in Portchester, U.K., effectively doubling its size. This significant development comes as the company aims to enhance its production capabilities and meet the growing demand for unmanned technologies. The expansion is part of HII's strategic efforts to strengthen its position in the market and support advancements in autonomous vehicle manufacturing. With this investment, HII is poised to further innovate and deliver cutting-edge solutions in the unmanned vehicle sector.

HII Tops 700 REMUS Uncrewed Underwater Vehicles Sold

HII Tops 700 REMUS Uncrewed Underwater Vehicles Sold

HII, the largest shipbuilder in the United States and a prominent provider of all-domain technologies and solutions, has achieved a significant milestone by selling over 700 REMUS uncrewed underwater vehicles (UUVs) to customers worldwide. This accomplishment not only underscores HII's dominance in the market but also enhances its reputation as the leading producer of these advanced underwater systems. The sales reflect a growing demand for innovative undersea technology, positioning HII at the forefront of the industry as it continues to expand its global footprint.

hii remus uncrewed underwater vehicles (uuv)
Department of War Creates Central Office to Oversee U.S. Military Unmanned Systems

Department of War Creates Central Office to Oversee U.S. Military Unmanned Systems

On July 1, the U.S. Department of War announced a significant reorganization of its unmanned systems enterprise by establishing a new Direct Reporting Portfolio Manager for Unmanned Systems (DRPM-UxS). This central office will be responsible for consolidating the acquisition, standards, budgeting, and industry engagement related to the military's drone and autonomous programs. The move aims to enhance oversight and streamline operations within the Department’s unmanned systems, reflecting a commitment to improving efficiency and effectiveness in military technology.

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Unmanned Maritime Systems Technology USA 2026: Save $200 with Early Bird Registration – Book by July 2

Unmanned Maritime Systems Technology USA 2026: Save $200 with Early Bird Registration – Book by July 2

SAE Media Group has announced that the Unmanned Maritime Systems Technology USA (UMST USA) 2026 conference will take place in Arlington, Virginia, from September 14 to 16, 2026. This event is recognized as North America’s leading gathering focused on maritime robotics and autonomous systems. It aims to bring together senior naval leaders, government officials, and industry innovators to foster the advancement and operational integration of robotics and autonomous systems (RAS) within the maritime sector. The conference seeks to address the growing need for innovation in maritime technology, highlighting its importance for national security and economic development.

unmanned maritime systems technology usa 2026 early bird registration events
EVENT: Unmanned Maritime Systems Technology USA - Arlington, VA - Sept 14-16, 2026

EVENT: Unmanned Maritime Systems Technology USA - Arlington, VA - Sept 14-16, 2026

The 5th Annual Unmanned Maritime Systems Technology (UMST) USA Conference is set to take place, positioning itself as North America’s premier event focused on the development of unmanned and autonomous maritime technologies. Scheduled for later this year, the conference will gather industry leaders, researchers, and technology developers to discuss innovations and advancements in maritime capabilities. The event aims to foster collaboration and knowledge sharing among participants, highlighting the growing importance of unmanned systems in enhancing maritime operations and safety. Attendees will have the opportunity to engage in discussions, attend workshops, and network with experts in the field, all contributing to the ongoing evolution of maritime technology.

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EVENT: Unmanned Maritime Systems Technology USA Conference 2025

EVENT: Unmanned Maritime Systems Technology USA Conference 2025

The U.S. Navy is undergoing a significant transformation as it integrates unmanned maritime capabilities into its operations, reflecting a broader shift towards autonomous systems across all military domains. This evolution is driven by the need to enhance operational efficiency and adaptability in modern naval warfare. As of October 2023, the Navy is actively working to incorporate these advanced technologies, which are expected to reshape traditional naval strategies and improve mission effectiveness. The push for these innovations underscores the military's commitment to staying at the forefront of technological advancements in defense.

events unmanned maritime systems technology usa conference
Ground robots in Latvia and the history of manned-unmanned teaming

Ground robots in Latvia and the history of manned-unmanned teaming

This week on The Break Out, NATO troops are conducting drone testing in Eastern Europe, showcasing the alliance's commitment to enhancing its military capabilities. The event highlights the growing significance of unmanned systems in modern warfare, as the program aims to evaluate the effectiveness and reliability of various drone technologies. The testing comes at a critical time, given the evolving security landscape in the region. By examining the historical development of unmanned systems alongside current advancements, the initiative seeks to improve operational strategies and strengthen defense readiness among member nations. The program underscores NATO's proactive approach to adapting to new threats and ensuring collaborative defense efforts.

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South Korea debuts KAAV-II with 40mm CTA unmanned turret and high-speed planing hull

South Korea debuts KAAV-II with 40mm CTA unmanned turret and high-speed planing hull

Hanwha Aerospace has introduced the prototype of South Korea's next-generation amphibious assault vehicle, marking a significant advancement in the country's military capabilities. This unveiling took place at a dedicated event held in South Korea, showcasing the vehicle's innovative design and features aimed at enhancing operational effectiveness in diverse environments. The development of this amphibious vehicle is part of South Korea's broader strategy to modernize its defense systems and improve its amphibious assault capabilities in response to regional security challenges. The prototype is expected to undergo rigorous testing to ensure its performance meets the demands of modern warfare.

Airo unveils hybrid-electric rotary wing unmanned aircraft

Airo unveils hybrid-electric rotary wing unmanned aircraft

Airo Group Holdings has introduced its fully autonomous aircraft, the JX250/JC250 heavy-lift model, at the AUVSI XPONENTIAL 2026 event. This significant unveiling took place during the annual conference, which showcases advancements in unmanned and autonomous systems. The event, held in 2026, serves as a platform for industry leaders to present innovative technologies aimed at enhancing operational efficiency in various sectors. Airo Group's latest aircraft is designed to meet the growing demand for advanced aerial solutions, reflecting the company's commitment to pushing the boundaries of aviation technology. The JX250/JC250 is expected to play a crucial role in applications ranging from logistics to emergency response, demonstrating the potential of autonomous systems to transform traditional operations.

May 14 Live Broadcast Preview | The Boundaries of Unmanned Systems: Challenges in Cluster Coordination and Engineering in Complex Environments

May 14 Live Broadcast Preview | The Boundaries of Unmanned Systems: Challenges in Cluster Coordination and Engineering in Complex Environments

A live broadcast is set to take place, showcasing the latest advancements in unmanned systems, with a particular emphasis on cluster coordination in complex environments. Scheduled for an upcoming date, this event will feature a panel of experts who will delve into the evolving challenges faced in the field and explore the significant impact of artificial intelligence on research methodologies. The session aims to foster audience interaction, allowing participants to engage directly with the experts and share valuable academic resources. This initiative highlights the growing importance of unmanned systems and AI in addressing contemporary challenges in various sectors.

Unmanned Systems Cluster Coordination AI in Research Engineering Challenges
US plans to deploy more than 80 unmanned robotic warships to counter China’s naval dominance

US plans to deploy more than 80 unmanned robotic warships to counter China’s naval dominance

The US Navy has announced the integration of unmanned surface and underwater vessels into its long-term shipbuilding strategy, which spans the next 30 years. This decision, made public in October 2023, reflects the Navy's commitment to modernizing its fleet and enhancing operational capabilities in response to evolving maritime threats. By incorporating advanced technologies, the Navy aims to improve surveillance, reconnaissance, and combat operations while reducing risks to personnel. The move is part of a broader initiative to adapt to the changing landscape of naval warfare and ensure the United States maintains its strategic advantage at sea. The plan outlines investments in research and development, as well as the construction of new vessels designed to operate autonomously, thereby increasing the Navy's efficiency and effectiveness in various mission scenarios.

Launching a new unmanned surface vessel for mine countermeasures

Launching a new unmanned surface vessel for mine countermeasures

Eelume and Maritime Robotics have announced a partnership to develop an innovative mine countermeasures solution that integrates current maritime platforms with autonomous systems, aimed at enhancing operational effectiveness. The centerpiece of this collaboration is the Eelume WP960, an unmanned surface vessel (USV) designed to meet the standards of the Norwegian Armed Forces’ vessel strategy. This initiative reflects a growing trend in military operations to leverage advanced technology for improved safety and efficiency in maritime environments. The collaboration is set to advance the capabilities of naval forces in addressing underwater threats, marking a significant step forward in defense technology.

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Unmanned patrol robot-squad debuts at World Internet Conference 2024

Unmanned patrol robot-squad debuts at World Internet Conference 2024

Wuzhen, a city in Zhejiang province, China, has introduced advanced security measures for the 11th World Internet Conference, which commenced on Wednesday. This annual event, dedicated to discussions on internet-related topics and digital innovation, is being supported by a unique police patrol squad featuring robotic dogs, unmanned boats, and driverless cars. The integration of these high-tech resources aims to enhance safety and efficiency during the conference, marking a significant step in the use of technology for public security. The deployment of these smart security tools reflects the event's focus on the future of the internet and digital advancements, showcasing China's commitment to leveraging technology in various sectors.

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HII Teams with GrayMatter Robotics to Integrate Physical AI into Manned and Unmanned Shipbuilding

HII Teams with GrayMatter Robotics to Integrate Physical AI into Manned and Unmanned Shipbuilding

HII and GrayMatter Robotics (GMR) have entered into a memorandum of understanding to explore the integration of GMR’s Physical AI technology into shipbuilding operations. The agreement, signed at GMR's headquarters, aims to enhance production efficiency, bolster the maritime industrial base, and support the shipbuilding workforce. Key technologies under consideration include autonomous surface preparation, coating, and inspection processes. The signing ceremony featured Eric Chewning, HII’s executive vice president of maritime systems and corporate strategy, alongside Ariyan Kabir, CEO and co-founder of GrayMatter Robotics. This collaboration seeks to innovate and modernize shipbuilding practices, ultimately improving throughput and operational effectiveness in the industry.

hii graymatter robotics physical ai unmanned shipbuilding
Australia launches first 3D-printed unmanned drone boat in Southern Hemisphere

Australia launches first 3D-printed unmanned drone boat in Southern Hemisphere

Australia has introduced the southern hemisphere's first 3D-printed uncrewed surface vessel, marking a significant advancement in maritime technology. The vessel was unveiled recently as part of the country's efforts to enhance its naval capabilities and promote innovation in defense. This groundbreaking project took place at a facility in Australia, showcasing the nation's commitment to integrating modern technology into its maritime operations. The initiative aims to improve surveillance and reconnaissance missions while reducing costs associated with traditional shipbuilding methods. By leveraging 3D printing technology, Australia hopes to streamline the production process, allowing for quicker deployment of advanced vessels in response to emerging maritime challenges.

Saildrone Deploys 16 Voyager USVs for Coast Guard Great Lakes Mission

Saildrone Deploys 16 Voyager USVs for Coast Guard Great Lakes Mission

Saildrone, an autonomous maritime company based in Alameda, California, has announced the deployment of 16 Voyager unmanned surface vehicles (USVs) to enhance surveillance capabilities for the US Coast Guard. This initiative, which is part of a $15.5 million contract, aims to support Coast Guard missions across the Great Lakes and the Northeast. The deployment was officially announced on May 11, 2026, marking a significant step in the integration of advanced technology into maritime operations. The use of these unmanned vehicles is intended to improve monitoring and response efforts in these vital waterways, reflecting the Coast Guard's commitment to maintaining safety and security in the region.

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Autonomous Defense Startup Scout AI Raises $100M Series A to Build Foundation Model for Unmanned Warfare

Autonomous Defense Startup Scout AI Raises $100M Series A to Build Foundation Model for Unmanned Warfare

Scout AI, a defense-focused artificial intelligence startup, has successfully secured $100 million in an oversubscribed Series A funding round aimed at advancing its foundation model for autonomous military operations. The funding, which was co-led by Align Ventures and Draper Associates, attracted investments from several notable firms including Decisive Point, Booz Allen Ventures, BVVC, Neman Ventures, Evolution VC Partners, and Heraclitus Capital Management, among others. This significant financial backing will enable Scout AI to enhance its technological capabilities and accelerate the development of solutions designed to improve military efficiency and effectiveness. The funding round reflects growing interest and investment in AI technologies within the defense sector, highlighting the increasing reliance on advanced technology for national security operations.

AI AI Funding & Investment Robotics Align Ventures autonomous autonomous uncrewed surface vessel technology
Not one-drone-fits-all: Admirals stress unmanned systems tailored to the mission

Not one-drone-fits-all: Admirals stress unmanned systems tailored to the mission

At the Sea-Air-Space conference, Rear Admiral Douglas Sasse emphasized the challenges of adapting military capabilities from regions like EUCOM and CENTCOM to the Pacific. He highlighted that while certain strategies may be effective in Europe and the Middle East, the vast distances in the Pacific present unique obstacles that require tailored approaches. Sasse's remarks underscore the importance of understanding regional dynamics in military planning and operations, particularly as the U.S. navigates its strategic posture in the increasingly complex Pacific theater.

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