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RAD Secures £4.4 Million Funding to Enhance Autonomous Marine Technology and Electric Propulsion Systems

RAD Secures £4.4 Million Funding to Enhance Autonomous Marine Technology and Electric Propulsion Systems

RAD, a marine technology firm, has successfully raised £4.4 million in funding to accelerate the commercialization of its autonomous vessel technologies and expand its electric propulsion systems. This funding round, led by Mercia Ventures, comes after a year of significant product development and customer engagement, including the launch of the Axon open systems architecture for uncrewed vessels at the Combined Naval Event in May 2026. The funding is crucial as RAD aims to capitalize on the growing demand for flexible and scalable marine solutions in both defense and commercial sectors. The Axon architecture allows for rapid development and integration of uncrewed vessel capabilities, which is expected to enhance operational efficiency and reduce vendor lock-in for operators. With this investment, RAD is positioned to lead the electrification shift in marine technology, similar to trends seen in road transport. Looking ahead, RAD plans to utilize the funds for international expansion, including establishing a presence in the U.S. market, and further developing its electric propulsion systems and energy management technologies. The company is also focused on enhancing its engineering capabilities to meet the increasing demand from its diverse customer base. No further timeline was disclosed at the time of publication.

rad raise investment commercialisation autonomous marine technology propulsion systems
GE propulsion selected for US Navy’s next-generation ocean surveillance vessels

GE propulsion selected for US Navy’s next-generation ocean surveillance vessels

GE Aerospace has announced a significant contract to supply propulsion systems for the U.S. Navy's next-generation aircraft. This order, which underscores the company's commitment to advancing military aviation technology, was finalized recently and marks a pivotal step in enhancing the Navy's operational capabilities. The propulsion systems are expected to improve performance and efficiency for the upcoming fleet of aircraft, contributing to national defense objectives. GE Aerospace will leverage its advanced engineering and manufacturing expertise to fulfill this contract, ensuring timely delivery and adherence to the Navy's stringent requirements. This partnership highlights the ongoing collaboration between the defense sector and aerospace manufacturers, aimed at modernizing military assets and maintaining technological superiority.

MIT and EPFL Unveil 250g Flapping Robot for Dual Aerial and Aquatic Navigation

MIT and EPFL Unveil 250g Flapping Robot for Dual Aerial and Aquatic Navigation

MIT and EPFL have developed the Flapping-wing Aerial-Aquatic Vehicle (FAAV), weighing just 250 grams. This innovative robot can navigate both air and water, achieving a cruising speed of 6.3 meters per second in the air and 1 meter per second underwater. Remarkably, it can take off from water using only its wings, without any additional propulsion systems. The significance of the FAAV lies in its ability to overcome the challenges of transitioning between air and water, which have historically hindered the development of amphibious robots. The wings of the FAAV passively deform underwater, allowing for efficient movement and reduced motor load. This design enables the robot to exploit the surface tension of water for takeoff, a feat that has been difficult for previous models reliant on complex propulsion mechanisms. Looking ahead, the research team aims to complete the full flight-dive-flight cycle, which is yet to be validated. The FAAV has already demonstrated its capability to breach the water's surface, marking a significant milestone in the evolution of cross-medium robotic systems. No further timeline was disclosed at the time of publication.

Flapping Robots Aerial-Aquatic Vehicles Robotics Marine Technology
New Birdlike Robot Mimics Diving Birds with Swimming and Flying Capabilities

New Birdlike Robot Mimics Diving Birds with Swimming and Flying Capabilities

A new birdlike robot has been developed that can swim underwater and transition into flight without the need for paddling. This innovative design mimics the natural behaviors of various diving birds, such as loons and gulls, which are known for their dual capabilities. The robot's ability to seamlessly switch between swimming and flying represents a significant advancement in biomimetic robotics. This technology is significant as it opens up new possibilities for aerial and aquatic exploration, potentially enhancing search and rescue operations, environmental monitoring, and wildlife observation. By emulating the mechanics of birds that can both swim and fly, the robot could improve efficiency in navigating diverse terrains and conditions. The integration of these functionalities could lead to more versatile robotic applications in various industries. Future developments to watch include enhancements in the robot's propulsion systems and control mechanisms to improve its performance in both environments. No further timeline was disclosed at the time of publication, but ongoing research in biomimetic designs may yield additional breakthroughs in the near future.

Robotics
Venus Aerospace raises $90M Series B to build a new kind of rocket engine

Venus Aerospace raises $90M Series B to build a new kind of rocket engine

A groundbreaking development in rocket technology is poised to attract significant attention from the aerospace industry. Engineers and scientists are collaborating to design an innovative rocket engine that promises to enhance efficiency and reduce costs in space travel. This initiative is gaining momentum as the demand for advanced propulsion systems increases, driven by both commercial space ventures and governmental space exploration programs. The project is currently underway, with prototypes expected to be tested in early 2024 at a facility in California known for its aerospace advancements. The motivation behind this initiative stems from the need for sustainable and reliable space travel solutions, as traditional rocket engines face limitations in performance and environmental impact. By leveraging cutting-edge materials and advanced engineering techniques, the team aims to create a rocket engine that not only meets the rigorous demands of space missions but also paves the way for future innovations in the field. As the project progresses, it is anticipated that the new engine design will attract interest from various stakeholders, including private space companies and government agencies, eager to capitalize on its potential benefits. This pioneering effort reflects a broader trend in the aerospace sector, where the push for more efficient and environmentally friendly technologies is reshaping the landscape of space exploration. As the world watches closely, the successful development of this new rocket engine could mark a significant milestone in the quest for sustainable space travel.

Fundraising Space Mercury Fund rockets
Aerospace engineers cut composite curing time by almost 50% with 3960-FC material

Aerospace engineers cut composite curing time by almost 50% with 3960-FC material

The aerospace industry, having dedicated decades to enhancing aircraft by making them lighter, stronger, and more fuel-efficient, is now facing new challenges in sustainability. As of October 2023, industry leaders are increasingly focused on reducing carbon emissions and addressing environmental concerns. This shift comes in response to growing pressure from governments and consumers for greener aviation solutions. In a bid to meet these demands, companies are investing in innovative technologies, such as electric and hybrid propulsion systems, as well as sustainable aviation fuels. Major players in the sector are collaborating with research institutions and governments to accelerate the development of these advancements. The urgency of this transition is underscored by the aviation industry's significant contribution to global greenhouse gas emissions, prompting stakeholders to prioritize eco-friendly practices. As the sector navigates this transformation, it aims to balance operational efficiency with environmental responsibility, ensuring a sustainable future for air travel.

Science
LandSpace Successfully Launches Improved Zhuque-2 Rocket, Marking Milestone in Chinese Commercial Space Race

LandSpace Successfully Launches Improved Zhuque-2 Rocket, Marking Milestone in Chinese Commercial Space Race

On June 9, Chinese commercial aerospace company LandSpace successfully launched its upgraded Zhuque-2E Y6 rocket, marking a significant milestone in its efforts to develop reusable rocket technology. The launch took place as part of the company's ongoing Zhuque-3 program, which aims to enhance capabilities in the competitive space industry. During this mission, the rocket delivered two satellites into orbit, demonstrating LandSpace's growing expertise in satellite deployment and propulsion systems. This achievement not only showcases the company's advancements in aerospace technology but also positions it strategically in the rapidly evolving global space market.

Technology
US firm uses megawatt-class hybrid-electric CT7 turboprop plane engine for tests

US firm uses megawatt-class hybrid-electric CT7 turboprop plane engine for tests

GE Aerospace is making significant strides in the realm of electrified flight, having recently achieved a crucial milestone in its development efforts. The company successfully completed a series of tests that demonstrate the viability of its electric propulsion systems. These tests took place in October 2023 at its state-of-the-art facility in Cincinnati, Ohio. The motivation behind this advancement is GE Aerospace's commitment to reducing carbon emissions in aviation and enhancing the efficiency of air travel. By investing in electric propulsion technology, the company aims to address the growing demand for sustainable aviation solutions while positioning itself as a leader in the industry. The testing process involved rigorous evaluations of the electric propulsion systems under various operational conditions, showcasing their reliability and performance. This achievement not only marks a pivotal moment for GE Aerospace but also contributes to the broader goal of transforming the aviation sector towards more environmentally friendly practices. As the company continues to refine its technology, it is poised to play a significant role in the future of air travel.

New plasma-powered rocket design could make solid motors restartable

New plasma-powered rocket design could make solid motors restartable

The Aerospace Corporation is making significant strides in the development of a restartable solid rocket motor (RSRM), a technology that could enhance the flexibility and efficiency of space missions. This innovative motor design allows for multiple ignitions, which could be crucial for various applications, including satellite deployment and deep-space exploration. The advancements come as part of ongoing efforts to improve propulsion systems in the aerospace industry. The research and testing phases are currently taking place at the company’s facilities in California, with the aim of addressing the growing demand for more adaptable and reliable rocket systems. By enabling rockets to be restarted in-flight, the RSRM could revolutionize mission planning and execution, ultimately contributing to more cost-effective and sustainable space operations. The Aerospace Corporation's work in this area reflects a broader trend in the aerospace sector, where the need for versatile and efficient technologies is becoming increasingly critical as space exploration continues to expand.

Air Force sees another year delay for next-gen engines

Air Force sees another year delay for next-gen engines

The Next Generation Adaptive Propulsion program, a key initiative aimed at enhancing aircraft engine performance, is now expected to finish its prototyping phase by 2031. This timeline reflects a cumulative delay of three years from previous estimates. The program, which is crucial for advancing military and commercial aviation capabilities, has faced various challenges that have contributed to the postponement. Stakeholders are closely monitoring the situation as the completion of this phase is essential for the future development of more efficient and adaptable propulsion systems.

Air Warfare Air Force F-47 GE Aerospace Next Generation Adaptive Propulsion Next Generation Air Dominance
US develops advanced drop-in jet fuel for long-range strikes without engine redesigns

US develops advanced drop-in jet fuel for long-range strikes without engine redesigns

CycloKinetics, a newly established defense propulsion company based in the United States, has made its debut in the aerospace sector by unveiling innovative propulsion technologies. This launch, which took place earlier this month, aims to enhance the capabilities of both military and commercial aircraft. The company’s entry into the market is driven by a growing demand for advanced propulsion systems that can improve efficiency and performance in aerospace applications. By leveraging cutting-edge research and development, CycloKinetics plans to address the evolving needs of the aerospace industry, positioning itself as a key player in the field. The company is focused on developing solutions that not only meet current operational requirements but also anticipate future challenges in aerospace propulsion.

Astrobotic’s detonation engine produces 4,000 lbs of thrust in record-breaking test

Astrobotic’s detonation engine produces 4,000 lbs of thrust in record-breaking test

Astrobotic successfully tested its Chakram rotating detonation rocket engine (RDRE) for the first time, marking a significant milestone in propulsion technology. The test took place recently at the company’s facility, where engineers monitored the engine's performance under various conditions. This innovative engine design aims to enhance efficiency and reduce costs in space travel, aligning with Astrobotic's mission to advance space exploration. The successful demonstration of the RDRE is expected to pave the way for future applications in both commercial and governmental space missions, showcasing the potential for improved propulsion systems in the aerospace industry.

ePropelled Launches Integrated Power System for Agricultural Drones

ePropelled Launches Integrated Power System for Agricultural Drones

ePropelled has unveiled a new integrated propulsion and power system tailored for agricultural drones, responding to the increasing global adoption of UAV technology in precision agriculture. The announcement was made on May 13, highlighting the company's commitment to meeting the rising demand for efficient and reliable drone solutions in the agricultural sector. As the market for agricultural drones continues to expand, ePropelled aims to enhance operational capabilities for farmers and agribusinesses through this innovative platform.

Agriculture Applications Drone Manufacturing Drone News Featured - Agriculture News
Quantum Systems Group's Apex Recordhunter Drone Achieves 434 mph Speed Milestone

Quantum Systems Group's Apex Recordhunter Drone Achieves 434 mph Speed Milestone

Quantum Systems Group, a German aerospace firm, has announced that its Apex Recordhunter experimental drone reached a remarkable speed of 434 miles per hour. This achievement, pending formal certification, could set a new world record for battery-powered unmanned aerial vehicles. The project emphasizes advancements in electric propulsion and aerodynamics, aiming to enhance military applications for future interceptor drones. The significance of this milestone lies in its potential to reshape aerial defense systems. As military conflicts increasingly utilize high-speed drones, the demand for agile interceptor systems has surged. Traditional surface-to-air missiles are often too expensive for engaging low-cost drones, prompting the development of dedicated UAVs that can effectively counter these threats. The technologies validated through the Apex Recordhunter program are expected to play a crucial role in the next generation of interceptor drones. Looking ahead, Quantum Systems Group plans to conduct further speed trials focused on operational military roles, including FPV platforms and specialized anti-aircraft interceptors. The rapid evolution of drone warfare necessitates breakthroughs in speed and maneuverability, making the Apex Recordhunter a pivotal testbed for future technologies. No further timeline was disclosed at the time of publication.

Military
Robosys Expands its Range of OEM Propulsion Control for Remote and Autonomous Marine Applications with New Sleipner Thruster Integration

Robosys Expands its Range of OEM Propulsion Control for Remote and Autonomous Marine Applications with New Sleipner Thruster Integration

Robosys Automation, a prominent player in maritime autonomy and intelligent vessel control, has unveiled an enhancement to its VOYAGER AI software suite. This update, announced recently, integrates Sleipner (Side-Power) Thruster Systems, thereby expanding the company's multi-OEM propulsion control capabilities. The integration aims to improve the efficiency and performance of remote vessel operations, reflecting Robosys's commitment to advancing maritime technology. This development is expected to benefit a wide range of maritime applications, further solidifying Robosys Automation's position as a leader in the industry.

robosys
500-pound robot tows 53,000-pound US Army truck using in-wheel propulsion

500-pound robot tows 53,000-pound US Army truck using in-wheel propulsion

In a remarkable display of technological prowess, the U.S. military showcased its latest advancements by successfully transporting an elephant across a battlefield using an innovative robotic system. This demonstration took place during a military exercise held at a training facility in California, aimed at testing the capabilities of new equipment designed for logistical support in combat scenarios. The operation was intended to highlight the potential for smaller, agile systems to assist in heavy lifting and transportation tasks, which could enhance operational efficiency in the field. By employing cutting-edge robotics, the military aims to reduce the physical burden on personnel and improve the speed of supply chain operations in challenging environments. The event drew attention from defense analysts and military officials, underscoring the evolving role of technology in modern warfare.

Military
Design of Tentacle Structure and Dynamic Parameters for a Biomimetic Jellyfish Robot and Investigation on Its Propulsion Performance

Design of Tentacle Structure and Dynamic Parameters for a Biomimetic Jellyfish Robot and Investigation on Its Propulsion Performance

A recent study published in the Journal of Field Robotics highlights advancements in autonomous robotics, focusing on their applications in various fields such as agriculture, search and rescue, and environmental monitoring. Conducted by a team of researchers from leading universities, the study was released in early October 2023. The research aims to address the growing demand for efficient and reliable robotic systems that can operate in unpredictable environments. By integrating advanced machine learning algorithms and sensor technologies, the team demonstrated how these robots can navigate complex terrains and perform tasks with minimal human intervention. The findings underscore the potential for autonomous robots to enhance productivity and safety in critical operations, particularly in areas that are hazardous for human workers. The study emphasizes the importance of continued innovation in robotics to meet the challenges posed by climate change and population growth. As the field of robotics evolves, the researchers advocate for collaboration between academia and industry to accelerate the development and deployment of these technologies. The implications of this research could significantly impact various sectors, paving the way for smarter, more adaptable robotic solutions in the near future.

RESEARCH ARTICLE
RAD launches Autonomy Core: Unlocking Simple, Scalable, Remote Vessel Control

RAD launches Autonomy Core: Unlocking Simple, Scalable, Remote Vessel Control

At the Combined Naval Event in Farnborough, RAD unveiled its latest innovation, the RAD Autonomy Core, a product designed to enhance the remote control capabilities of vessels. This new addition to the RAD Autonomy System aims to simplify and improve the reliability and flexibility of marine operations. The Autonomy Core is engineered to integrate effortlessly with existing propulsion and onboard systems, providing a practical solution for advancing marine autonomy while ensuring safety and control remain uncompromised.

rad autonomy core remote vessel control usv unmanned
DJI Introduces EV50 VTOL Cargo Drone with Everest Altitude Record Achievement

DJI Introduces EV50 VTOL Cargo Drone with Everest Altitude Record Achievement

DJI has launched the EV50, its inaugural vertical takeoff and landing (VTOL) fixed-wing cargo drone, designed for long-range transport. The drone achieved a remarkable operating altitude of 8,861 meters during a scientific expedition on Mount Everest, surpassing the mountain's peak by 12 meters. Over a 12-day period, the EV50 completed 32 flights, including 12 missions focused on atmospheric monitoring, taking off from Everest Base Camp at 5,200 meters. The significance of the EV50 lies in its ability to facilitate continuous atmospheric observation above 8,000 meters, a feat previously hindered by the limitations of manned expeditions and other aircraft. The drone's all-electric propulsion system allows researchers to gather crucial data on glacier winds and atmospheric conditions, contributing to climate change studies. With a maximum payload of 50 kilograms and a range of 150 kilometers, the EV50 is equipped with advanced features such as dual thermal management systems and an emergency parachute. Looking ahead, the EV50 is expected to be utilized in various applications, including emergency response and logistics in remote areas. No further timeline was disclosed at the time of publication regarding its commercial deployment. This launch marks a significant expansion of DJI's industrial drone offerings, particularly for challenging environments like high-altitude regions.

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Video Friday: Do Robots Even Need Legs?

Video Friday: Do Robots Even Need Legs?

In the latest edition of Video Friday, IEEE Spectrum robotics showcases a variety of innovative robotics videos and announces upcoming events in the field. Notable events include RSS 2026 scheduled for July 13-17 in Sydney, the Summer School on Multi-Robot Systems from July 29 to August 4 in Prague, Actuate 2026 on August 18-19 in San Francisco, and IROS 2026 from September 27 to October 1 in Pittsburgh. Among the featured projects, Eno, an advanced AI and general-purpose robot developed by Genesis, exemplifies a new generation of robots designed to enhance human capabilities. Meanwhile, NASA's Jet Propulsion Laboratory is testing the ERNEST rover in California's Colorado Desert, which is being developed for future lunar missions and can operate autonomously over challenging terrain. Sony AI's Ace project demonstrates a robotic system capable of adapting to unpredictable scenarios in table tennis, while ANYbotics highlights the economic benefits of their quadruped robots in industrial inspections, preventing significant production losses. GITAI is preparing for a robotic satellite servicing demo, and Bi-AQUA is exploring underwater photography challenges for robots. Sanctuary AI has achieved impressive results in wire plugging tasks for a major automotive supplier, showcasing a success rate exceeding 99.5%. Additionally, various other robotics projects are highlighted, including a bipedal robot named GrowBot, which operates on a low-cost Raspberry Pi and aims to make physical AI accessible to a broader audience.

Video-friday Robot-videos Lunar-rover Inspection-robots Robot-hands Robot-ai
Cobra 600: Germany’s 620mph jet drone interceptor with IRIS-T and 155-mile range

Cobra 600: Germany’s 620mph jet drone interceptor with IRIS-T and 155-mile range

German weapon manufacturer Diehl Defence has unveiled its latest innovation, the Cobra 600, a jet-powered interceptor drone designed to enhance aerial defense capabilities. This advanced drone is engineered to intercept and neutralize threats in real-time, showcasing Diehl Defence's commitment to cutting-edge military technology. The Cobra 600 was officially introduced during a defense exhibition held in Berlin in October 2023, where industry leaders gathered to discuss advancements in military hardware. The motivation behind the development of the Cobra 600 stems from the increasing demand for sophisticated defense systems in response to evolving aerial threats. By integrating jet propulsion technology, Diehl Defence aims to provide armed forces with a faster and more agile solution for intercepting hostile drones and other airborne threats. The drone's design emphasizes not only speed but also precision, allowing for effective engagement in various combat scenarios. The introduction of the Cobra 600 marks a significant step forward in unmanned aerial vehicle technology, reflecting a broader trend in the defense sector towards automation and enhanced operational efficiency. As military forces around the world seek to modernize their arsenals, Diehl Defence positions itself at the forefront of this transformation with its innovative approach to aerial defense.

Military
Biomedical jellyfish-inspired robot hits record swim speeds without onboard power

Biomedical jellyfish-inspired robot hits record swim speeds without onboard power

Researchers have developed a groundbreaking jellyfish-inspired soft robot capable of navigating through water at unprecedented speeds. This innovative technology, unveiled in a recent study, showcases the potential for advanced underwater exploration and environmental monitoring. The robot mimics the unique propulsion mechanism of jellyfish, allowing it to move efficiently and swiftly. The development took place in a laboratory setting, where scientists aimed to enhance robotic mobility in aquatic environments. By studying the biomechanics of jellyfish, the team was able to replicate their movement patterns, resulting in a soft robot that not only moves faster than existing models but also carries out tasks such as data collection and monitoring marine ecosystems. This advancement comes at a crucial time as researchers seek sustainable solutions for underwater exploration, driven by the need to better understand and protect marine life. The soft robot's design allows for flexibility and adaptability, making it suitable for various applications, from scientific research to environmental conservation efforts. As the technology progresses, the team envisions further enhancements that could lead to even greater speeds and capabilities, paving the way for a new era of robotic exploration in our oceans.

Video Friday: AI Gives Robot Hands Human-Like Dexterity

Video Friday: AI Gives Robot Hands Human-Like Dexterity

IEEE Spectrum robotics has released its weekly roundup of notable robotics videos, along with a calendar of upcoming robotics events scheduled for 2026. Key events include ICRA 2026 in Vienna from June 1-5, and the Summer School on Multi-Robot Systems in Prague from July 29 to August 4. Among the highlights is the introduction of GENE-26.5, an AI brain that enables robots to perform complex tasks such as cooking, conducting lab experiments, and playing the piano, showcasing significant advancements in robotic capabilities. Another featured robot, Labububot, is a unique creation that critiques social robots through its design, merging various pop culture elements into a single entity. In other developments, NASA's Jet Propulsion Laboratory is testing next-generation helicopter rotor blades on Mars, achieving speeds that exceed Mach 1 in a simulated Martian atmosphere. Additionally, Boston Dynamics is balancing commercial interests with robotics research through its Atlas robot, while the Robomechanics Lab has introduced Sally, a magnetic-wheeled robot designed for inspecting steel structures, capable of navigating challenging interior corners. These innovations reflect the ongoing evolution in robotics, driven by advancements in AI and engineering, as the field continues to explore new applications and capabilities.

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