A single destination for timely, editor-curated robotics news from around the world.
A research team from Peking University, headed by Professor Xie Guangming, has developed a groundbreaking biomimetic octopus gripper capable of transitioning between soft and hard states in less than one second. This advancement enhances the efficiency of underwater robotic operations, enabling more effective and energy-efficient execution of tasks. The team's findings were published in the journal 'Cyborg and Bionic Systems', highlighting the potential applications of this technology in various underwater environments.
leaderobot.com By Leaderobot May 20, 2026 Underwater Robotics Soft Robotics Biomimetic Design Robotic Grippers
The Commercial UAV Expo has introduced a two-day DRONERESPONDERS Program Management Course, coinciding with the 2026 DRONERESPONDERS Public Safety Summit. Scheduled for September 1-3, 2026, at Caesars Forum in Las Vegas, the course aims to provide insights from the FIFA World Cup airspace security operations, where over 600 drones were seized across 11 U.S. host cities since the tournament began on June 11. This initiative is significant as it highlights the challenges and lessons learned from managing airspace security during high-profile events like the World Cup. Federal agencies reported detecting more than 1,000 drones near venues, emphasizing the need for effective public safety airspace management. The insights gained will also inform preparations for the upcoming 2028 Summer Olympics in Los Angeles, supported by a $250 million FEMA grant for counter-UAS measures. Looking ahead, the program will feature panels on various topics relevant to public safety agencies, including UAS operations and interagency collaboration. No further timeline was disclosed at the time of publication regarding additional sessions or future developments in the program's curriculum.
Dronelife.com By staff 1 hour ago Drone News Drone News Feeds Expos and Drone Shows News 2028 LA Olympics AAM
WingXpand, a St. Louis-based company, has announced a collaboration with Verizon Frontline and emergency response teams to investigate innovative tools aimed at enhancing disaster assessment and community resilience. This initiative comes in response to the increasing frequency of severe weather events impacting communities across the United States. By leveraging drone and autonomous aircraft technologies, the partnership seeks to improve emergency response capabilities and support affected areas more effectively. The exploration of these advanced tools is part of a broader effort to address the growing risks associated with natural disasters.
Dronelife.com By Miriam McNabb Jun 11, 2026 Applications Disaster Response Drone News Drone News Feeds Drones in the News emergency response
The 2025 International WorkBoat Show will be held from December 3 to 5 at the Morial Convention Center in New Orleans, Louisiana. This premier event for the U.S. commercial maritime industry is expected to attract thousands of professionals who will gather to explore the latest technologies, discuss emerging industry trends, and build valuable connections. Organized by the team behind WorkBoat Magazine and WorkBoat.com, the show serves as a trade-only platform designed for vessel owners, operators, builders, and their supporting vendors and suppliers. The event aims to enhance collaboration and innovation within the maritime sector, reflecting the industry's ongoing evolution and commitment to progress.
ROVplanet.com By ROV Planet Oct 27, 2025 international workboat show 2025 events
LXJ International Holdings Limited, known as 'Laoxiangji', submitted its IPO application to the Hong Kong Stock Exchange on January 8, 2026, but the application expired on July 8, 2026. This marks the fifth unsuccessful attempt by the company, which is recognized as a leading player in the Chinese fast-food sector, to enter the capital market over the past five years. The repeated failures of Laoxiangji's IPO attempts highlight significant challenges in the Chinese fast-food industry, particularly amid rising competition and changing consumer preferences. The company's struggles reflect broader market dynamics, where traditional dining establishments face increasing pressure from the growing popularity of delivery services and healthier eating trends. Looking ahead, industry observers will be keen to see if Laoxiangji will make another attempt to go public or pivot its strategy in response to market conditions. No further timeline was disclosed at the time of publication regarding the company's future plans or potential restructuring efforts.
36kr.com 6 hours ago
A team of researchers has made a groundbreaking advancement by successfully employing teleoperated humanoid robots to carry out two complex tasks. This achievement marks a significant milestone in robotics, showcasing the potential for remote-controlled machines to perform intricate functions that were previously thought to be the domain of human operators. The experiments took place in a controlled environment, allowing the researchers to meticulously assess the robots' capabilities and refine their performance. The motivation behind this innovative project stems from the desire to enhance efficiency and safety in various industries, particularly in situations where human presence may be risky or impractical. By leveraging advanced teleoperation technology, the researchers demonstrated that humanoid robots could effectively mimic human movements and decision-making processes, paving the way for future applications in fields such as disaster response, healthcare, and manufacturing. The successful execution of these tasks not only highlights the progress in robotic technology but also opens new avenues for research and development, potentially transforming how we approach complex operations in challenging environments. As the team continues to refine their methods, the implications of this work could lead to widespread adoption of teleoperated robots in various sectors, ultimately improving productivity and safety for human workers.
InterestingEngineering.com By Jijo Malayil Jul 09, 2026 AI and Robotics
Hai Robotics has strengthened its leadership team in the Americas by appointing Alan Berstein as General Manager for Latin America and Paul Pendleton as Vice President of Delivery. This strategic expansion, announced recently, aims to enhance customer support and stimulate growth in the rapidly evolving warehouse automation sector. The appointments come in response to the rising demand for flexible automation solutions across the region, underscoring the company's commitment to investing in skilled talent to meet the needs of its clients.
hairobotics.com By Hai Robotics Jun 29, 2026 Warehouse Automation Leadership Expansion Customer Support Supply Chain Management Automation Solutions
Hai Robotics has strengthened its leadership team in the Americas by appointing Alan Berstein as General Manager for Latin America and Paul Pendleton as Vice President of Delivery. This strategic expansion, announced recently, is designed to improve customer support and accelerate growth in the warehouse automation sector. The appointments come in response to the rising demand for flexible automation solutions across the region, underscoring the company's commitment to investing in talent to meet evolving market needs.
hairobotics.com By Hai Robotics Jun 29, 2026 Warehouse Automation Leadership Expansion Customer Support Supply Chain Management Automation Solutions
The introduction of radar-equipped MQ-9 drones marks a significant advancement in airborne early warning capabilities, addressing an urgent need for enhanced surveillance in contemporary military operations. This development comes at a time when the demand for cost-effective and adaptable aerial monitoring solutions is critical. The MQ-9's ability to provide persistent airborne early warning is expected to improve situational awareness and response times in various operational scenarios. As military forces seek to bolster their defensive and offensive strategies, the integration of this technology is seen as a crucial step in modernizing aerial reconnaissance and ensuring readiness in an increasingly complex security environment.
TheWarZone By Tyler Rogoway Jun 18, 2026 Air Airborne Radar Airborne Sensors Drones News & Features Q-9
Microface Technology, a startup established by PhD graduates from Tsinghua University, has received exclusive investment from Shunwei Capital, led by prominent entrepreneur Lei Jun. The company has developed a groundbreaking remote photoplethysmography (rPPG) technology that allows for non-contact monitoring of physiological and emotional states using standard RGB cameras. This innovative approach has demonstrated high accuracy in detecting heart rates and emotional responses. After facing initial challenges, the team strategically shifted its focus to physiological emotion sensing, which has led to successful applications across various sectors, including healthcare and the automotive industry. This investment is expected to bolster Microface Technology's efforts in expanding its capabilities and market reach, further enhancing its contributions to the fields of health monitoring and emotional analytics.
leaderobot.com By Leaderobot Jun 16, 2026 Health Monitoring Emotion Recognition Wearable Technology AI Computer Vision
The Youth2Real team, a partnership between Tsinghua University and FiveAges, has achieved a remarkable victory by winning the global championship in the Picking in Clutter Track at the 11th Robotic Grasping and Manipulation Competition (RGMC). This prestigious event took place during the International Conference on Robotics and Automation (ICRA) 2026 in Vienna. The team's success underscores their advanced expertise in robotic grasping and manipulation, reflecting significant technological progress that has potential applications in various real-world scenarios.
leaderobot.com By Leaderobot Jun 10, 2026 Robotic Grasping Artificial Intelligence Robotics Competition Automation Technology
Researchers at the University of Colorado Boulder are pioneering the use of digital twin technology to enhance environmental monitoring and management. This innovative approach involves creating virtual replicas of physical systems, allowing scientists to simulate and analyze real-world conditions in real time. The project, which commenced in late 2023, aims to address pressing environmental challenges by providing more accurate data and predictive insights. Located in Boulder, Colorado, the initiative seeks to improve understanding of climate change impacts and resource management by integrating advanced modeling techniques with real-time data collection. The motivation behind this research stems from the urgent need to develop effective strategies for sustainability and resilience in the face of environmental degradation. By employing sensors and data analytics, the researchers are able to create dynamic models that reflect current environmental conditions, enabling stakeholders to make informed decisions. This method not only enhances the accuracy of environmental assessments but also facilitates proactive responses to potential ecological threats. The team at CU Boulder is collaborating with various stakeholders, including government agencies and conservation organizations, to ensure that the findings are applicable and beneficial for real-world applications.
InterestingEngineering.com By Jijo Malayil Jun 03, 2026
The AGIBOT WORLD CHALLENGE at the International Conference on Robotics and Automation (ICRA) 2026 has wrapped up, featuring intense competition among 526 teams from 27 countries. The challenge highlighted advancements in embodied intelligence and world modeling, with participants engaging in innovative tracks that tested their robots' reasoning, action, and predictive abilities. This year's event aimed to push the boundaries of robotics technology and foster collaboration among global innovators in the field.
leaderobot.com By Leaderobot Apr 30, 2026 Embodied Intelligence World Modeling Robotics Competition AI Automation
Thirteen international teams are advancing the field of robotics by developing systems that operate without remote control, marking a significant shift from traditional teleoperated tools to fully autonomous agents. This initiative, which aims to enhance the capabilities and applications of robotics, is taking place as part of a collaborative effort among researchers and engineers from various countries. The teams are focused on creating robots that can perform tasks independently, thereby increasing efficiency and reducing the need for human intervention. This evolution in robotics is driven by the growing demand for automation in various sectors, including manufacturing, healthcare, and exploration. By leveraging cutting-edge technologies and innovative approaches, these teams are exploring new frontiers in autonomous robotics, with the potential to revolutionize how machines interact with their environments and carry out complex operations.
roboticstomorrow-Robotics Dec 15, 2025
A team of researchers from Carnegie Mellon University and the University of Pittsburgh, known as Team Chiron, is set to compete in the final phase of the DARPA Triage Challenge (DTC) next November. This competition aims to advance the development of portable, autonomous systems capable of assessing and monitoring injured individuals in various environments. As part of their preparation, the team has been testing quadruped robots on grass terrain during nighttime, showcasing their innovative approach to addressing emergency medical response challenges. The DTC represents a significant step towards enhancing the efficiency and effectiveness of medical triage in critical situations.
ri.cmu.edu By Mallory Lindahl Nov 11, 2025 Announcements
Sulmara, a prominent independent subsea survey and inspection company, has expanded its operations by moving to larger facilities in Glasgow and Taipei, while also inaugurating a new office in Norwich. This strategic relocation and expansion come in response to a significant growth in the company's workforce, which increased by 25% over the past year, bringing the total number of employees to 250. The decision to enhance their physical presence in key locations reflects Sulmara's commitment to supporting its global team and meeting the rising demand for its services in the subsea industry.
ROVplanet.com By ROV Planet May 05, 2025 sulmara growth global operations new offices
Amazon is reportedly assembling a team to develop humanoid robots for various applications, including warehouse operations, home assistance, and healthcare. This initiative, which may involve collaboration with members from Covariant, aims to explore both wheeled and bipedal robot designs through simulation. The project underscores Amazon's commitment to advancing automation and robotics technology in response to growing demands for efficiency in logistics and service sectors.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Apr 04, 2025 Covariant Amazon
At the CVPR 2026 Embodied AI Workshop, ZK Fifth Epoch, a Chinese technology company, achieved a significant victory by winning the ARNOLD Challenge with its innovative FAM-1.3 model. Competing against prominent teams from Nvidia, UC Berkeley, and Stanford, ZK Fifth Epoch's model stands out for its introduction of a '3D World-Action Model' paradigm. This advancement enhances the safety and intelligence of robotic operations by enabling the prediction of actions in three-dimensional space and identifying potential risks prior to execution. The event, held recently, showcased cutting-edge developments in embodied AI, highlighting the growing competition and innovation within the field.
leaderobot.com By Leaderobot Jul 06, 2026 Embodied AI Robotics 3D Modeling Machine Learning
Kawasaki Heavy Industries is collaborating with Airbus to develop anti-submarine drones, aimed at enhancing Japan's maritime defense capabilities. This partnership, announced on June 26, 2026, will focus on equipping the existing Eurodrone with advanced maritime surveillance technology provided by Kawasaki. The initiative is intended to bolster Japan's defense strategy and will be proposed to the country's defense ministry for consideration. The collaboration reflects a growing emphasis on integrating advanced technology into national defense systems, particularly in response to regional security challenges.
Nikkei.com Jun 26, 2026
The United Kingdom is poised to become the first European NATO member to operationally deploy advanced laser directed energy technology by 2027. This initiative reflects the UK's commitment to enhancing its defense capabilities in response to evolving security challenges. The deployment aims to provide a cutting-edge solution for military operations, improving efficiency and effectiveness on the battlefield. The move underscores the UK's leadership role within NATO and its dedication to modernizing its armed forces in line with contemporary technological advancements.
BreakingDefense By Tim Martin Jun 24, 2026 Global Naval Warfare Army DragonFire Drones Europe
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.
BreakingDefense By Agnes Helou Jun 23, 2026 Global Drones Europe Kizilelma M346 Manned Unmanned Teaming
In a significant development this month, the Pentagon announced the inclusion of several major Chinese companies on a list of entities allegedly supporting the Chinese military. This decision has prompted a swift reaction from Beijing, which condemned the move as an unjustified attack on its businesses. The Chinese government has expressed concerns that such actions could escalate tensions between the two nations, further complicating an already fraught relationship. The Pentagon's actions are part of a broader strategy to counter perceived threats from China, reflecting ongoing geopolitical rivalries. As the situation unfolds, both countries are navigating a complex landscape of economic and military considerations, with potential implications for international trade and security.
SupplyChainBrain Jun 22, 2026
At the ICRA 2026 conference, vivo showcased its advanced robotics capabilities by achieving top performance in two global challenges. This event, held in a prominent international venue, highlighted the company's commitment to innovation and the practical application of its technologies in real-world scenarios. By excelling in these competitions, vivo aims to demonstrate the robustness and versatility of its robotics solutions, reinforcing its position as a leader in the industry. The successful outcomes of these challenges serve to validate the effectiveness of vivo's research and development efforts, further motivating the company to push the boundaries of robotics technology.
RoboticsTomorrow.com Jun 11, 2026
Artificial Intelligence (AI) is significantly enhancing the mission data footprint within defense environments, prompting a growing demand for scalable and layered protection of data-at-rest (DAR). This development is crucial as defense sectors increasingly rely on vast amounts of sensitive information to support their operations. The expansion of AI capabilities is occurring in response to the evolving complexities of modern warfare and cybersecurity threats, necessitating robust data protection strategies. As military and defense organizations seek to secure their information assets, the implementation of advanced DAR solutions will play a vital role in safeguarding critical data against potential breaches and ensuring operational integrity.
BreakingDefense By lfaubert Jun 08, 2026 Networks & Digital Warfare Sponsored Post artificial intelligence AI Cigent Cigent custom cyber security
Sea Group is implementing strategic changes to enhance growth across its three primary business divisions: Shopee, Garena, and Monee. This initiative reflects the company's commitment to adapting to market demands and optimizing operations. The decision was made in response to evolving consumer behaviors and competitive pressures in the digital marketplace. By focusing on these key areas, Sea aims to strengthen its position and drive sustainable development in the rapidly changing landscape of e-commerce and digital entertainment. The timeline for these changes is set against the backdrop of ongoing market analysis and performance evaluations, with the goal of achieving measurable results in the near future.
Techinasia By Diya Lal May 29, 2026 Artificial Intelligence News ai e-commerce Sea Singapore
The State Grid Corporation of China has announced a substantial investment of around 6.8 billion yuan aimed at acquiring 8,500 embodied intelligent devices by the year 2026. This initiative is centered on enhancing capabilities in power inspection, live working, emergency rescue, and logistics. The investment reflects a strategic shift towards embracing autonomous operations within the energy sector, signaling a commitment to modernizing infrastructure and improving operational efficiency. By integrating advanced technology, the State Grid Corporation aims to bolster its service delivery and response mechanisms in critical situations, ultimately enhancing the reliability of power supply across the nation.
leaderobot.com By Leaderobot Apr 26, 2026 Embodied Intelligence Power Grid Automation Robotics Procurement Energy Sector Innovation
Leading warehouse operations have shared ten essential lessons on successfully implementing and scaling automation to enhance throughput and improve efficiency. These insights come as businesses increasingly seek to optimize their logistics and supply chain processes in response to growing demand and competitive pressures. The recommendations emphasize the importance of strategic planning and investment in technology to streamline operations and reduce manual labor. By adopting these practices, companies can not only increase productivity but also adapt to changing market conditions more effectively. As the industry continues to evolve, these lessons serve as a valuable guide for organizations aiming to leverage automation for sustained growth and operational excellence.
LocusRobotics.com By Locus Robotics Nov 11, 2025
Locus Robotics, a leader in AI-driven mobile warehouse automation, has announced significant advancements in its technology aimed at enhancing operational efficiency for logistics companies. The announcement was made today, highlighting the company's commitment to innovation in the rapidly evolving supply chain sector. By integrating advanced artificial intelligence and robotics, Locus Robotics aims to streamline warehouse operations, reduce labor costs, and improve order fulfillment speed. This initiative comes in response to the growing demand for automation solutions in warehouses, driven by the increasing complexity of supply chains and the need for businesses to adapt to changing consumer expectations. The company plans to implement these advancements through strategic partnerships and ongoing research and development, positioning itself at the forefront of the industry as it addresses the challenges faced by logistics providers worldwide.
LocusRobotics.com By Locus Robotics Jun 12, 2025
Large language models (LLMs) that can think through problems step-by-step have significantly increased the scope of tasks that AI can tackle. But new research suggests these reasoning capabilities also introduce a critical vulnerability that could allow attackers to slow these systems to a crawl.While earlier generations of LLMs would immediately produce a response to a user’s request, today’s most advanced models generate an internal monologue where they break down the problem into steps and reason about the best way to tackle it before providing an answer. This has allowed AI to tackle increasingly complex problems, particularly in areas like coding and math.However, previous research has shown that these models are susceptible to sometimes producing excessively long streams of reasoning that do little to boost performance, a phenomenon known as “overthinking.” In research presented this week at the International Conference on Machine Learning 2026 in Seoul, researchers from Zhejiang University and e-commerce giant Alibaba in China demonstrate that they can deliberately induce overthinking by subjecting models to logically inconsistent prompts. The result is a form of denial-of-service attack on commercial AI models.Evolutionary Prompt Attack on LLMsThe team has developed an evolutionary algorithm that corrupts the logical structure of prompts, causing models to spiral into overthinking as they attempt to reason through fundamentally unsolvable problems. Generating longer responses costs more and increases the load on a model provider’s servers, so if done at scale, the researchers say, this could significantly degrade the experience of legitimate users. The attack was effective against reasoning models from leading AI companies including DeepSeek-R1, Alibaba’s Qwen3-Thinking, OpenAI’s GPT-o3, and Google’s Gemini 2.5 Flash and resulted in outputs up to 26 times as long as standard responses on a standard math benchmark.“Across multiple datasets and reasoning models, our method substantially amplifies the output length,” Wei Cao, a masters student at Zhejiang University, wrote in an email to IEEE Spectrum. “Our results suggest that overthinking is not an isolated phenomenon specific to individual models, but rather a shared vulnerability among modern reasoning models.”The team’s approach builds on previous research from another group of researchers that showed reasoning models tend to overthink when faced with a question in which a key premise has been removed—such as asking how far someone who walks ten miles a day covers in total without specifying how many days they walked for. Rather than identifying that the problem is unsolvable, models often engage in extended but ultimately fruitless reasoning loops in an attempt to answer the question.Taking the idea a step further, the authors took 940 problems from three math benchmark datasets and used an LLM to break down their logical structure into a set of premises and a final question. The genetic algorithm then jumbled these up using a variety of “mutations,” including swapping premises between problems, adding extra premises to problems, deleting existing premises from problems, and swapping the final questions between two sets of premises.After each round of mutations, the problems are scored on how many words they cause a target model to output and also whether they increase the frequency of specific linguistic markers of overthinking—words like “but,” “wait,” “maybe,” or “alternatively.” The problems that scored highest on both measures are retained and the remaining ones are jumbled up again, and this process is repeated for five generations. Crucially, the approach doesn’t require access to the internals of a model and can generate malicious prompts by simply querying the target, which makes it possible to attack closed-source commercial services, says Cao.Overthinking Vulnerability in AI ModelsThe researchers found that the approach consistently led to outputs several times longer than those generated by the unmodified questions for the reasoning models they tested it on. The biggest jump came from DeepSeek-R1 on the MATH dataset, which is made up of problems from high school math competitions, where the maximum output was 26.1 times as long as the longest response the model provided to unaltered questions. While the main thrust of the research was focused on math problems, the authors also tested it on coding, scientific reasoning, and dialogue challenges, and observed significant jumps in output length in all three.One challenge for the approach is that developing the malicious prompts requires repeated queries to expensive reasoning models, which Cao admitted could limit its cost-effectiveness. However, the researchers also demonstrated that when they used a smaller, cheaper model to generate the malicious prompts they were still able to induce the target models to produce outputs several times longer than normal. This ability to transfer malicious prompts between models significantly increases the attack’s feasibility, Cao wrote.However, he pointed out that the goal of the research is not to develop a practical DoS attack on reasoning models. Factors like the providers’ pricing model, rate limiting policies, context window size, and existing defenses could all impact how effective the approach is. The intention is instead to highlight these models’ vulnerability to logically inconsistent prompts so that providers can attempt to mitigate the problem.“Our objective is not to demonstrate that large-scale attacks can be launched at negligible cost, but rather to establish that this attack surface exists,” he wrote. “Our results indicate that the vulnerability represents a realistic security concern.”
IEEESpectrumAI By Edd Gent Jul 08, 2026 Llms Artificial-intelligence Denial-of-service Cybersecurity
The 3rd Mobile Brigade Combat Team of the 101st Airborne Division recently executed a successful robotic combined arms breach during a rotation at the Joint Readiness Training Center (JRTC). This operation, highlighted by the brigade's commander in an interview with Breaking Defense, showcases the unit's advancements in integrating robotic technology into combat scenarios. The exercise aimed to enhance operational effectiveness and readiness in modern warfare, reflecting the military's ongoing commitment to innovation and adaptation in response to evolving threats. The successful breach demonstrates the brigade's capability to leverage advanced technologies to improve tactical operations on the battlefield.
BreakingDefense By Carley Welch Jun 17, 2026 Land Warfare 101st Airborne Division Army autonomy Drones UGV
LeoSight has announced a new integration with AirData UAV that enables real-time streaming of flight data, telemetry, and operational insights directly into its command software, LeoCommand. This integration aims to enhance collaboration between dispatchers and field teams by providing shared visibility across drone and DFR (Drone First Response) operations. The partnership leverages AirData's status as one of the most widely used platforms in commercial drone operations, allowing public safety agencies to improve their operational efficiency. The integration is expected to streamline communication and data sharing, ultimately enhancing response capabilities in critical situations.
Dronelife.com By Ian McNabb Jun 10, 2026 Disaster Response drone fleets Drone News Drone News Feeds emergency response Fire and Police
In an exciting showcase of innovation, students from Silicon Valley are competing against professional firefighters and industry experts in the XPRIZE competition, which aims to develop cutting-edge solutions for combating wildfires. This prestigious event, which attracts teams globally, highlights the urgent need for effective firefighting technologies in response to the increasing threat of wildfires. The competition features advanced drone technology and artificial intelligence, demonstrating how these tools can enhance firefighting efforts. Participants are leveraging their skills and creativity to address this critical issue, showcasing the potential for collaboration between academia and industry in the fight against wildfires. The finals are set to take place soon, with teams eager to present their groundbreaking ideas and technologies.
Dronelife.com By staff May 18, 2026 Disaster Response Drone News Drone News Feeds Drones in the News Firefighter News
Soltaros OÜ, a company known for its innovative hiring practices, emphasizes the importance of culture fit over traditional qualifications like polished résumés. This approach stems from years of experience in building cross-functional teams across various markets. By prioritizing cultural alignment, Soltaros aims to create a cohesive work environment that enhances collaboration and productivity. The company’s unique hiring philosophy reflects a commitment to fostering a strong organizational culture, which they believe is crucial for long-term success. This focus on culture fit not only differentiates Soltaros in a competitive job market but also aligns with their strategic goals of maintaining a dynamic and engaged workforce.
RoboticsAndAutomationNews.com By Sam Francis May 27, 2026 Business Culture Technology automation news business operations collaboration
On July 10, a research team led by Professor Seung Hwan Ko at Seoul University published a significant study in Nature Materials, unveiling a novel single-layer artificial skin. This innovative material allows robots to simultaneously sense temperature and pressure, mimicking human sensory capabilities. The design utilizes a silver-core-copper oxide shell nanowire network, enabling rapid switching between temperature and mechanical sensing modes at a frequency of 16 Hz. The development is crucial as it addresses the limitations of existing artificial skin technologies, which typically rely on multiple stacked sensors, resulting in complex structures and slower response times. The new sensor demonstrates remarkable response speeds, with mechanical stimuli detected in microseconds and thermal stimuli in milliseconds. When combined with AI models, the sensor's accuracy in object recognition improved from 65% to 95% by integrating signals from both sensing modes, showcasing its potential for real-world applications. Looking ahead, the research team has created a multi-array platform that can measure temperature and pressure distribution with spatial resolution comparable to human skin. This technology not only serves as a fingertip sensor but also has the potential to evolve into a comprehensive artificial skin system for robots. The team emphasizes that this advancement is a key enabling technology for physical AI systems, allowing machines to perceive and interact with their environment more effectively. No further timeline was disclosed at the time of publication.
leaderobot.com By Leaderobot 6 hours ago Artificial Skin Robotics Sensor Technology AI Human-Robot Interaction
Rice University and NASA have introduced the iMETRO Dynamic Simulation, the first open-source platform for developing robots for spacecraft and habitats. Unveiled at the 2026 IEEE International Conference on Robotics and Automation in Vienna, this simulator creates a digital twin of NASA's iMETRO facility, enabling global researchers to test intravehicular robotic systems in a virtual setting. This platform is significant as it broadens access to advanced space robotics research, facilitating innovation for future human space missions. It focuses on robot manipulators that assist with maintenance and logistics tasks, which are crucial for reducing astronaut workloads during extended missions. The simulator features an eight-degree-of-freedom robotic manipulator model and supports ROS 2 and MuJoCo, enhancing usability and compatibility for developers. Looking ahead, the iMETRO Dynamic Simulation aims to maximize astronaut productivity by automating routine tasks, allowing crew members to focus on scientific exploration. The research team successfully demonstrated the simulator's capabilities by transferring a robotic application from simulation to the physical facility in under a day. No further timeline was disclosed at the time of publication.
InterestingEngineering.com By Jijo Malayil Jul 09, 2026 AI and Robotics
MIT researchers have developed FloatForm, a swarm of small robotic boats that autonomously assemble into larger floating structures. Each robot, measuring 21 centimeters square, is equipped with thrusters, sensors, and magnetic latches, allowing them to form bridges, platforms, and other structures with minimal human input. This innovative system aims to transform urban waterfronts into dynamic, programmable spaces, enhancing public infrastructure and emergency response capabilities. The significance of FloatForm lies in its potential to revolutionize how urban areas utilize water surfaces. By mimicking the self-organizing behavior of fire ants, the robots can adaptively create and reconfigure structures on demand, addressing challenges such as traffic alleviation during emergencies or creating temporary public spaces. This modular approach to floating infrastructure could lead to more livable cities by expanding usable public space onto underutilized water areas. Looking ahead, the research team plans to explore further applications of FloatForm in urban environments, with no specific timeline disclosed for future developments. The project builds on previous work with full-size autonomous vessels in Amsterdam, indicating a growing interest in leveraging water for urban mobility and public space expansion. The open-access findings were published in Nature Communications, highlighting the collaborative efforts of MIT's Computer Science and Artificial Intelligence Laboratory and the Senseable City Lab.
MITNews By Rachel Gordon | MIT CSAIL Jul 09, 2026 Research Robotics Autonomous vehicles Artificial intelligence Computer science and technology Machine learning
In the French Alps, rescuers are facing urgent challenges following recent avalanches that have put lives at risk. With survival rates plummeting significantly after the first 20 minutes, the pressure is on emergency teams to act swiftly. The critical window between the emergency call and the successful location of victims is crucial, as every second counts in these life-or-death situations. The urgency of the response is heightened by the harsh conditions typical of the alpine environment, which can complicate rescue efforts. As rescuers mobilize, their training and experience become vital in navigating the treacherous terrain to reach those trapped beneath the snow.
Dronedj.com By Ishveena Singh Jul 09, 2026 News
A team of Chinese developers has introduced MoWorld, an innovative real-time interactive world model that operates at 50 frames per second without relying on NVIDIA GPUs. This groundbreaking technology utilizes domestic neural processing unit (NPU) technology, which not only lowers inference costs but also improves the immersive experience across various applications, including robotics, gaming, and digital environments. The launch of MoWorld marks a significant advancement in the field, showcasing the potential of homegrown technology to compete with established international standards in high-performance computing.
leaderobot.com By Leaderobot Jul 09, 2026 World Models Real-Time Rendering Domestic NPU AI Technology
The Commercial UAV Expo has introduced a new two-day program management training course as part of its Public Safety Summit. This initiative focuses on various applications of drones in public safety, including their use as first responders, in fire services, crash-scene management, and shared-airspace operations. The course will also feature a two-part session discussing counter-UAS strategies learned from the 2026 FIFA World Cup. This new training program is significant as it addresses the growing integration of drones in emergency response and public safety sectors. By equipping program managers with specialized knowledge, the initiative aims to enhance operational efficiency and safety in critical situations. The inclusion of counter-UAS lessons from a major international event like the FIFA World Cup underscores the importance of preparedness in managing drone-related challenges. Looking ahead, the next milestone for the Public Safety Summit will be the execution of this training course, scheduled to take place soon. No further timeline was disclosed at the time of publication, but the program's launch indicates a proactive approach to improving drone operations in public safety contexts.
RoboticsTomorrow.com Jul 09, 2026
A recent study published in the Journal of Field Robotics highlights advancements in autonomous navigation systems for drones, showcasing their potential applications in various industries. Conducted by a team of researchers from leading universities, the study was released in early October 2023. The research took place in multiple test environments, including urban areas and rural landscapes, to evaluate the drones' performance in diverse conditions. The motivation behind this study stems from the increasing demand for efficient and reliable drone technology in sectors such as agriculture, logistics, and disaster response. By enhancing the drones' ability to navigate complex terrains and avoid obstacles, the researchers aim to improve operational safety and effectiveness. The team employed a combination of machine learning algorithms and real-time data processing to develop a robust navigation framework. This innovative approach allows drones to make autonomous decisions based on their surroundings, significantly reducing the need for human intervention. The findings suggest that these advancements could lead to more widespread adoption of drones, ultimately transforming how various industries operate. As the technology continues to evolve, the researchers emphasize the importance of ongoing testing and refinement to ensure that these autonomous systems can be safely integrated into everyday use. The study not only contributes to the academic field but also sets the stage for practical applications that could enhance efficiency and safety across multiple sectors.
JournalofFieldRobotics By Javier Rodriguez‐Sanchez, Kyle Johnsen, Changying Li Jul 08, 2026 RESEARCH ARTICLE
Toshio Fukuda has been blazing trails for most of his career. He is considered to be one of the most prolific scholars in robotics, writing more than 2,000 research papers and authoring several books on the field. He’s an influential figure thanks to his pioneering work developing biomedical robotic systems, industrial robots, micro-nano robotics, mechatronics, and AI-driven automation.Fukuda launched one of the first robotics conferences, the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). It is still popular almost 40 years later.Toshio FukudaEmployerEgypt-Japan University of Science and Technology, in Alexandria TitleProfessor and vice president of research Member gradeLife Fellow Alma matersWaseda University, in Tokyo; University of Tokyo An IEEE Life Fellow, he is a professor emeritus in the department of micro-nano systems engineering and a visiting professor at Nagoya University, in Japan, where he taught for nearly 25 years. Currently, he is a vice president of research at the Egypt-Japan University of Science and Technology, in Alexandria, Egypt.Within IEEE, Fukuda has held top volunteer positions including the organization’s highest office: He served as IEEE president in 2020, becoming the first person of Asian descent to hold the role.He’s a former program director of Japan’s Moonshot program, which by 2050 intends to develop advanced AI robots.Born in Japan, Fukuda has been recognized by the country for his contributions to science with two of its highest awards: the Medal of Honor with a purple ribbon in 2015 and the Order of the Sacred Treasure in 2022.IEEE honored him with this year’s Richard M. Emberson Award for “distinguished service advancing the technical objectives of IEEE, especially in the area of robotics.” The IEEE Board-level award is sponsored by the IEEE Technical Activities Board. Fukuda received the award on 24 April at a ceremony in New York City.As a former IEEE president who has served as a master of ceremonies at several of the organization’s major award events, Fukuda noted that he is more accustomed to bestowing awards than receiving them.“It’s very interesting to be on the receiving end,” he says.The journey into robotics researchAs a teenager, Fukuda spent his summer breaks teaching himself how to build things including transistor radios and steam engines.“It was very nice to have a hands-on hobby and make these kinds of things myself,” he says. His experimentation led him to study engineering.He earned a bachelor’s degree in engineering in 1971 from Waseda University, in Tokyo. He says one of his professors there—Ichiro Kato, regarded as the father of Japanese robotics research—was a good mentor who made a positive impact.Fukuda’s research interests were robotics and mechatronics, a field that combines robotics, electronics, computer science, and control systems.He went on to earn a master’s degree and a doctorate in science from the University of Tokyo, in 1971 and 1977. During those years, he also attended Yale, where he conducted research on advanced control theory in 1973.He reflects fondly on his time at Yale: “It was a very nice environment and a kind of free-thinking atmosphere. It motivated me to study more.”“IEEE doesn’t care who you are, what you do, what country you are from, or whether you are male or female. IEEE accepts people who have energy and passion.”While at Yale, Fukuda served as an assistant to his advisor—which led him to consider a career in academia, he says, because he enjoyed the freedom that research work afforded him.But he realized that such freedom comes with a price. University researchers are expected to raise the money that funds their work. He compares researchers to small-business owners who have to bring in money to keep their enterprise afloat.That realization led him to select robotics as his field because he intended to develop technologies useful to industry, he says.After earning his doctorate, he returned to Japan in 1977 to work as a research scientist at the government’s Mechanical Engineering Laboratory, later renamed the National Institute of Advanced Industrial Science and Technology, in Tsukuba.“There was a lot of research going on at the lab, including practical robotics and theory,” he says.He left Japan in 1979 to become a visiting research fellow at the University of Stuttgart, in Germany. During his year there, he studied systems, software problems, and related topics.He returned to Japan and was hired as an associate professor of mechanical engineering at the Tokyo University of Science. He conducted research into practical uses for robots by visiting industrial plants. He decided to develop robots that inspect industrial equipment such as those used in assembly plants, oil refineries, and power stations—places that “can be hostile environments for humans,” he says.His work drew interest from chemical, oil, and utility companies.“I got a lot of money from them for this very practical application, which funded my research,” he says, laughing.Developing popular robotic systemsFukuda grew tired of making those robots, he says, so he switched to creating ones for scientific applications. He developed many techniques, but he probably is best known for his modular, cellular robotic systems (CEBOTs), which he introduced in 1985.He has described how CEBOTs work in numerous papers published in the IEEE Xplore Digital Library.The CEBOT system is composed of a number of autonomous robotic cells that stick together like interlocking Lego plastic bricks, he says.Each cell is a fundamental modular unit that has a function. When a simple task is given, the system can analyze it and generate the structure of the cellular manipulator. The cells connect to and detach from each other through connection mechanisms and cooperate mutually, creating complex structures and configurations.“You start developing from the component-wise to the cell-wise to a small functional unit—and then you come up with clusters that make bigger systems. We can make a society of robot beings like that,” he explained in his oral history published on the Engineering and Technology History Wiki. “It’s a distributed robotic system, a self-organized robotic system, and also an evolutionary robotic system.“It’s also a fault-tolerant robot system because if something is wrong, you just remove those things and make a new one. You keep the system working. That’s a great thing.”Today CEBOTs are used for a variety of tasks such as delivering medication in hospitals, assisting with planting crops, and transporting products in distribution centers. Check out IEEE Spectrum’s Robots Guide for news from the world of robotics.In 1989 Fukuda joined Nagoya University as a professor of mechanical engineering and micro-nano systems engineering. During his 24-year career there, he was director of the university’s Center for Micro-Nano Mechatronics. He developed a long list of technologies at the university, including many for medical applications. He also conducted groundbreaking research into intelligent robotic systems and micro- and nano-robotics.Another technology he is known for is brachiation robots, which he helped develop in 1988. He calls them monkey robots because they’re based on the pendulum-like movement of monkeys swinging from tree to tree. The gravity-based locomotion enables continuous movement.Brachiation robots now are inspecting high-voltage transmission towers and bridges, searching damaged buildings for survivors, and performing maintenance on pipelines and cables.Fukuda retired from the university in 2013 and was named professor emeritus.He didn’t stay retired for long, though. He next held a teaching appointment at Meijo University, in Nagoya, until he left in 2022 to join the Egypt-Japan University.A prominent volunteerHe joined IEEE in 1980 at the encouragement of one of his research advisors, Professor Fumio Harashima, now an IEEE Life Fellow. After attending conferences and reading the organization’s publications, Fukuda says, he looked forward to becoming more involved.“I wanted to know how to organize a conference and how to edit a paper for one of its Transactions,” he says. “I wanted to know what was going on from inside the organization, not just the outside.”In 1988 he was the founding chair and organizer of IROS, in Tokyo. The conference had 330 attendees that year, and was supported by Harashima. Today it is one of the largest and most prestigious conferences on the topic, attracting more than 9,000 people annually. Out of 120,000 conferences, it was the only conference in the Nature Index database for this year, Fukuda says.In 1996 he and other members launched IEEE Transactions on Mechatronics.He was the founding president of the IEEE Nanotechnology Council, which was established in 2002. He is considered a pioneer in nanotechnology research, particularly regarding how it relates to robotics.Over the years, he has held numerous volunteer positions on IEEE editorial boards and committees.He was the 1998–1999 president of the IEEE Robotics and Automation Society, becoming the first non-U.S. member to hold the title.He was director of IEEE Division X (2001–2002 and 2017–2018), which covers intelligent systems, biological engineering, robotics, control systems, and photonic technologies. He served as the 2013–2014 director of IEEE Region 10 (Asia-Pacific).As the 2020 IEEE president, Fukuda saw the organization through the early part of the COVID-19 pandemic. Because of travel restrictions, he realized IEEE should change how it offered its in-person services, specifically educational programs. He encouraged IEEE Educational Activities to develop an online learning platform. The IEEE Learning Network started with just three courses and now offers nearly 2,000 courses, webinars, and learning materials.An award-winning memberThe Emberson Award joins a slew of other recognitions Fukuda has received from IEEE. They include several from the IEEE Robotics and Automation Society: a 2004 Pioneer Award, a 2009 Saridis Leadership Award, and the 2011 Harashima Award for Innovative Technologies. He is also a recipient of the Board-level 2010 IEEE Robotics and Automation Technical Field Award.He says he feels strongly that IEEE should be a diverse organization that is welcoming to all. As IEEE president, he led efforts to devise a diversity, equity, and inclusion program. Several policies, procedures, and bylaws were revised to give members a safe, inclusive place for discourse.“It’s important for IEEE to make everyone feel comfortable,” he says. “DEI programs are important. All people should be equal. IEEE doesn’t care who you are, what you do, what country you are from, or whether you are male or female. IEEE accepts people who have energy and passion.“It accepted me, from the Far East. That’s why I like it.”You can learn more about Fukuda and his career from the oral history conducted by the IEEE History Center.
Spectrum.ieee.orgAutomaton By Kathy Pretz Jul 07, 2026 Robotics Robots Ieee-member-news Type-ti Ieee-awards Toshio-fukuda
The RoboCup 2026 league competitions concluded this weekend in Incheon, South Korea, showcasing the talents of robotics teams from around the globe. The event culminated in the announcement of the top three teams in the small, middle, and large humanoid divisions. In the small division, the Invic team claimed victory, followed by Wuhan University from China and the Hamburg Bit-Bots from Universität Hamburg in Germany. The competition aimed to advance robotics technology and foster international collaboration in the field, drawing participants eager to demonstrate their innovations and skills.
Robohub.org By Lucy Smith Jul 06, 2026
The 2026 Seoul AI Security Forum has underscored the critical importance of physical security for artificial intelligence systems, particularly as hackers increasingly target humanoid robots. The event featured a live red team challenge known as "Judgment Day," which focused on testing the vulnerabilities of a U-Tree G1 robot. This demonstration highlighted the necessity for proactive security measures in response to the rapidly evolving landscape of AI technology. The forum serves as a vital platform for addressing the challenges posed by cyber threats to advanced robotics, emphasizing the need for robust defenses to protect these innovative systems.
leaderobot.com By Leaderobot Jul 06, 2026 AI Security Humanoid Robots Red Teaming Robustness Testing
The Journal of Field Robotics has published an early view article that explores advancements in robotic technology and its applications in various fields. This publication, released in October 2023, highlights the innovative research conducted by a team of engineers and scientists aiming to enhance the efficiency and capabilities of robotic systems. The study focuses on the integration of artificial intelligence and machine learning to improve navigation and decision-making processes in autonomous robots. Researchers conducted extensive field tests to evaluate the performance of these systems in real-world environments, demonstrating significant improvements over previous models. The findings are expected to impact industries such as agriculture, manufacturing, and disaster response, where robotic assistance can lead to increased productivity and safety. This research underscores the growing importance of robotics in addressing complex challenges and advancing technological solutions across multiple sectors.
JournalofFieldRobotics By Chao Wang, Yixian Wang, Zonggang Li, Xiaolong Wang, Desheng Liu, Huifeng Kang, Yanhui Wang Jul 05, 2026 RESEARCH ARTICLE
The finals of the 2026 National Embodied Intelligence Technology Application Competition kicked off at the National Exhibition and Convention Center in Shanghai. This inaugural event, part of the Shanghai International Embodied Intelligence Industry Expo, seeks to promote innovation in artificial intelligence and manufacturing. Over 117 teams from more than 60 universities have gathered to demonstrate their skills across various competition categories, highlighting the growing importance of embodied intelligence in technological advancement. The competition aims to inspire collaboration and creativity among participants, ultimately contributing to the development of cutting-edge solutions in the field.
leaderobot.com By Leaderobot Jul 04, 2026 Embodied Intelligence AI in Manufacturing Robotics Innovation Competition
The second day of play at RoboCup 2026 concluded with an exciting lineup of matches, showcasing the global appeal of the humanoid soccer competition. Teams from 17 countries participated, with China leading the representation by fielding 15 teams across three divisions. This year’s event highlights the growing international interest in robotics and artificial intelligence in sports, as teams compete not only for victory but also to advance technological innovation. The matches took place in a vibrant atmosphere, drawing spectators and participants alike to witness the cutting-edge developments in humanoid robotics. As the tournament progresses, anticipation builds for the upcoming matches, promising more thrilling displays of skill and strategy on the field.
Robohub.org By Lucy Smith Jul 03, 2026
A recent report by the International Institute for Strategic Studies (IISS) has concluded that Russia is "highly likely" to be behind a series of drone incursions targeting U.S. military bases in England. This analysis is part of a broader investigation into Russia's involvement in drone activities across Europe, which have escalated since 2024. The findings highlight concerns about the implications of these incursions for European security and the potential for increased tensions between Russia and Western nations. The report underscores the need for vigilance and strategic responses to counteract the threats posed by such drone operations.
TheWarZone By Howard Altman Jul 02, 2026 Air Air Forces Around The Globe Drones Europe News & Features
A recent study published in the Journal of Field Robotics highlights advancements in autonomous robotics technology. Researchers from a leading robotics institute conducted experiments to improve the navigation and decision-making capabilities of robots in complex environments. The study, released in early October 2023, took place in various outdoor settings, including forests and urban areas, to test the robots' adaptability to different terrains. The motivation behind this research stems from the growing demand for autonomous systems in sectors such as agriculture, disaster response, and urban planning. By enhancing the robots' ability to process real-time data and make informed decisions, the team aims to increase their efficiency and reliability in real-world applications. Through a combination of machine learning algorithms and sensor integration, the researchers developed a new framework that allows robots to better interpret their surroundings and respond to dynamic changes. This innovative approach not only improves navigation but also enables robots to collaborate more effectively with human operators. The findings from this study are expected to pave the way for more sophisticated autonomous systems, ultimately contributing to the advancement of robotics technology and its integration into everyday life.
JournalofFieldRobotics By Jin Chen, Huanyu Jiang, Guoqiang Ren Jul 01, 2026 SURVEY ARTICLE
As Europe gears up for its largest coordinated response to wildfires, the use of drones is proving crucial for detecting fires, monitoring their progression, and providing real-time updates to emergency teams. However, a significant challenge arises when these drones operate beyond cellular coverage, as traditional methods for transmitting live video require cumbersome satellite terminals. Addressing this issue, OQ Technology has developed a new satellite demonstration that aims to streamline communication for responders in remote areas. This innovation is expected to enhance the efficiency and effectiveness of wildfire management efforts across the continent.
Dronedj.com By Ishveena Singh Jun 30, 2026 News
The Royal Navy is poised to implement a significant shift in its defense strategy, aiming to enhance its operational capabilities in response to evolving global threats. This strategic overhaul, announced on October 15, 2023, will focus on modernizing naval forces and integrating advanced technologies to better address challenges in maritime security. The initiative is part of a broader effort to ensure the Royal Navy remains a formidable presence in international waters, particularly amid rising tensions in various regions. The decision comes as defense officials recognize the need for a more agile and responsive naval fleet, capable of countering emerging threats from state and non-state actors alike. By investing in cutting-edge equipment and fostering partnerships with allied nations, the Royal Navy seeks to bolster its deterrence capabilities and maintain strategic advantages. The new strategy will involve a comprehensive review of current assets and a commitment to developing innovative solutions that align with the United Kingdom's defense priorities. This proactive approach is intended to safeguard national interests and enhance the Royal Navy's role in global security operations. As the Royal Navy embarks on this transformative journey, it aims to ensure that it is well-equipped to navigate the complexities of modern warfare and uphold its commitment to protecting the UK's maritime interests.
InterestingEngineering.com By Kaif Shaikh Jun 30, 2026 MilitaryRSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.