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A single destination for timely, editor-curated robotics news from around the world.

AUKUS partners sign agreement on underwater drones, speed up sub plan

AUKUS partners sign agreement on underwater drones, speed up sub plan

Australia has decided to abandon plans to purchase a new Virginia-class submarine, opting instead to acquire a decommissioned submarine from the United States Navy. This decision reflects a strategic shift in Australia’s defense procurement approach, aiming to enhance its naval capabilities while managing costs. The change comes amid ongoing discussions about regional security and military readiness, highlighting the importance of maintaining a robust defense posture in the Indo-Pacific region. The acquisition of the ex-US Navy submarine is expected to provide Australia with immediate operational capabilities, allowing for a quicker integration into its fleet compared to a new build, which would require more time and resources.

Global Naval Warfare Asia AUKUS Pillar 2 Drones Europe
Exotec's Managing Director Discusses Key Warehouse Automation Trends for 2026

Exotec's Managing Director Discusses Key Warehouse Automation Trends for 2026

Thomas Genestar, managing director of western Europe at Exotec, emphasizes the necessity of automation and AI in logistics due to the e-commerce boom. He identifies resilience, reliability, and operational continuity as critical pillars influencing supply chain strategies for 2026 and beyond. Genestar highlights the growing adoption of Goods-to-Person (G2P) solutions, which enhance warehouse efficiency by delivering items directly to operators. This innovation reduces unnecessary movement, increases task consistency, and minimizes physical strain on workers, addressing the significant costs associated with non-automated warehouses. Additionally, he notes the shift from traditional forecasting to AI/ML models that allow for dynamic demand sensing, enabling organizations to better align production with demand. This evolution supports more sustainable and resilient supply chain practices, including improved reverse logistics inspired by e-commerce return models. No further timeline was disclosed at the time of publication.

Features Logistics ai automation circular logistics demand sensing
Cutting-edge Underwater Tech for AUKUS Forces to be Developed through Landmark Partnership

Cutting-edge Underwater Tech for AUKUS Forces to be Developed through Landmark Partnership

AUKUS Defence Ministers have unveiled advancements in pioneering technologies utilizing uncrewed underwater vessels during a recent meeting in Singapore. This announcement marks a significant step forward in the trilateral security partnership involving Australia, the United Kingdom, and the United States. The discussions, held to enhance collaboration and address regional security challenges, underscore the commitment of the three nations to strengthen their defense capabilities. By integrating cutting-edge technologies, the AUKUS alliance aims to bolster maritime security and deter potential threats in the Indo-Pacific region.

underwater tech aukus partnership aukus pillar 2
ロボットバンク「Humanoids Summit Tokyo 2026」に出展予定 最新ヒューマノイドの実演と社会実装ソリューションを公開

ロボットバンク「Humanoids Summit Tokyo 2026」に出展予定 最新ヒューマノイドの実演と社会実装ソリューションを公開

Robot Bank has announced its participation in the upcoming "Humanoids Summit Tokyo 2026," scheduled to take place from May 28 to 29, 2026. The event will be held at the B2F LINK PILLAR of the Takanawa Gateway Conference Hall in Tokyo. This summit aims to showcase advancements in humanoid robotics and foster discussions on the future of this technology, reflecting Robot Bank's commitment to innovation in the field.

SubSea Craft and Greenroom Robotics Strengthen AUKUS Technology Ecosystem

SubSea Craft and Greenroom Robotics Strengthen AUKUS Technology Ecosystem

SubSea Craft (SSC), a prominent player in maritime technology, has partnered with Australian firm Greenroom Robotics by signing a teaming agreement aimed at enhancing collaboration within the AUKUS technology ecosystem. This agreement, announced recently, signifies a strategic move to leverage combined expertise in advanced robotics and underwater capabilities. The partnership seeks to foster innovation and strengthen ties between the UK, Australia, and the United States, as part of the broader AUKUS initiative focused on defense and security technologies. By working together, SSC and Greenroom Robotics aim to develop cutting-edge solutions that address emerging challenges in maritime operations.

subsea craft greenroom robotics aukus
Licence to AUKUS: Aussie Greenroom Robotics Greenlit for Trilateral Tech Missions

Licence to AUKUS: Aussie Greenroom Robotics Greenlit for Trilateral Tech Missions

Greenroom Robotics, a prominent maritime AI and autonomy firm based in Australia, has received AUKUS Authorised User status from the Australian Government. This designation, part of the AUKUS trilateral export agreement, enables the company to engage in licence-free exports to the United States and the United Kingdom. The move aims to expedite the delivery of advanced technologies among AUKUS nations, enhancing collaboration in maritime innovation.

greenroom robotics aukus
Steel, Sensors and Silicon: How Caterpillar Is Bringing Edge AI to the Jobsite

Steel, Sensors and Silicon: How Caterpillar Is Bringing Edge AI to the Jobsite

At the Consumer Electronics Show (CES), Caterpillar announced its plans to integrate NVIDIA technologies, including the advanced NVIDIA Jetson Thor and innovative speech models, to revolutionize heavy industries. This strategic move, unveiled during the event, aims to enhance operational efficiency and safety in sectors such as construction and mining. By leveraging cutting-edge AI and machine learning capabilities, Caterpillar seeks to streamline processes and improve decision-making in challenging environments. The collaboration with NVIDIA reflects Caterpillar's commitment to embracing digital transformation and staying at the forefront of technological advancements in the industry.

The Secret to Marathon-Winning Humanoid Robots

The Secret to Marathon-Winning Humanoid Robots

On April 19, 2026, the Honor Lightning humanoid robot set a remarkable record by completing a half-marathon in just 50 minutes and 26 seconds, surpassing the previous human world record by seven minutes and outperforming the best robot time from 2025 by nearly two hours. This achievement has sparked interest in the technology behind its performance, particularly in comparison to competitors like Unitree, which struggled with overheating issues during the race. The Lightning's success can be attributed to its innovative design, particularly its advanced liquid cooling system that prevents overheating during prolonged exertion. Unlike traditional air cooling methods, the robot utilizes capillary-like liquid cooling pipes that circulate over four liters of coolant per minute through its motors, allowing it to maintain optimal performance without succumbing to heat-related limitations. While the robot's motor specifications remain undisclosed, its engineering emphasizes an optimal gear ratio of 45:1, which balances torque and speed effectively for running. This design contrasts with other humanoid robots, which may be optimized for walking but struggle with the demands of running, resulting in higher power consumption and inefficiencies. Honor's achievement highlights not only the potential of humanoid robots in athletic endeavors but also the engineering trade-offs necessary for different tasks. While the Lightning excels in speed, it may not be as versatile for other applications, underscoring the importance of targeted engineering in robotics. The event has reignited discussions about the capabilities of machines versus humans, emphasizing that comparisons between the two should be approached with caution, as their strengths and limitations differ significantly.

Robotics Running-robots Robot-sports Humanoid-robots
JAKA và Intel hợp tác để đưa Trí tuệ nhân tạo thể hiện (Embodied AI) từ phòng thí nghiệm đến các ngành công nghiệp toàn cầu.

JAKA và Intel hợp tác để đưa Trí tuệ nhân tạo thể hiện (Embodied AI) từ phòng thí nghiệm đến các ngành công nghiệp toàn cầu.

On January 7, 2026, in Shanghai, China, JAKA Robotics and Intel China signed a Memorandum of Understanding (MoU) aimed at accelerating the commercialization of Embodied AI, transitioning this advanced technology from research labs to practical applications. JAKA Robotics, known for its comprehensive product range including the JAKA Kargo wheeled humanoid robot and the JAKA Lumi Embodied AI platform, is collaborating with Intel to leverage Intel's leadership in advanced computing and AI alongside JAKA's robotic capabilities. The partnership will focus on three strategic pillars: 1. Joint technical innovation, integrating Intel's hardware platforms, such as the Intel® Core™ Ultra processors, with JAKA's robotics technology to explore critical integration pathways and establish a shared development roadmap. 2. Scalable industrial solutions, aimed at creating easily deployable robotic solutions for industrial manufacturing and commercial services, turning AI concepts into tangible productivity gains. 3. Ecosystem development, fostering an open industrial ecosystem through joint marketing initiatives and support programs for academic and industrial partners. Wang Jingjia, General Manager of Intel China's Industry and Solutions Division, emphasized the importance of deep integration between robust open computing platforms and advanced robotic technology for the widespread application of Embodied AI. This collaboration marks a significant step toward scaling Embodied AI from concept to production, enabling smarter interactions and greater precision with a real impact on the global economy.

Boston Dynamics Deep Dives into the ''Robot Brain'': Why Generalist Droids Are the Only Fix for Manufacturing

Boston Dynamics Deep Dives into the ''Robot Brain'': Why Generalist Droids Are the Only Fix for Manufacturing

Atlas leadership has recently addressed the shortcomings of "hard automation" in the automotive industry during a comprehensive technical discussion. They highlighted the limitations of traditional automation methods, which have struggled to keep pace with the evolving demands of the sector. In response to these challenges, Atlas has unveiled a three-pillared data strategy aimed at enhancing the capabilities of their robots through advanced artificial intelligence. This new approach is designed to improve efficiency and adaptability in manufacturing processes, addressing the industry's need for more flexible and intelligent automation solutions. The discussion took place in October 2023, underscoring Atlas's commitment to innovation in a rapidly changing market landscape.

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Japan Pioneered Humanoid Robots—Can It Now Catch China?

Japan Pioneered Humanoid Robots—Can It Now Catch China?

“In the future, the relationship between humans and robots will deepen, and the distinction between them will probably disappear.” This prediction, from one of the attendees at the recent Humanoids Summit in Tokyo, might have been unremarkable had it not come directly from an android that was first introduced to the world 20 years ago. Geminoid HI-6 is the sixth-generation of a robot originally designed in 2006. The mechanical twin of Osaka University professor Hiroshi Ishiguro, Geminoid HI-6 is now equipped with a large language model trained on Ishiguro’s own writings and interviews. It has advanced conversational skills and can even have a chat with its creator, an eerie spectacle. But at the Humanoids Summit, Geminoid was one of the few humanoid robots from Japan, the country that pioneered the form factor.While the event in Tokyo only had about 40 robots on display, Chinese systems outnumbered Japanese by roughly three to one. Some Japanese robotics firms were even using Chinese robots in their own technology demonstrations, something that would have been unthinkable in the recent past—one Japanese engineer described the situation as “sad.” The conference was a stark reminder of how Japan has ceded its early lead in humanoid robot development to overseas competitors, and the challenge it now faces to secure a place in an ecosystem increasingly dominated by general-purpose robots powered by AI. Twenty-five years ago, Japan was turning out groundbreaking humanoids that were showstopping in their abilities, but they were not commercialized as practical machines in any meaningful way. Heavily influenced by science fiction and lacking practical applications, they were mostly expensive technology demonstrations that were eventually mothballed. What Japan retains, however, is robotics design and know-how, which it must leverage to be a key player in the rapidly evolving humanoid ecosystem. Learning to Walk—Then Standing StillTo anyone who has seen recent videos of Chinese humanoids doing kung-fu and synchronized acrobatics, as well as half-marathon races, China’s remarkable progress in the field is nothing new. At the Humanoids Summit, Toyota showed a video of its latest basketball-playing robot, and Honda exhibited its latest robot hand, but the full-scale humanoids on the floor were mostly Chinese–the kid-size K1 machines from Booster Robotics of Beijing were dancing to Michael Jackson tunes. The full-scale G1 humanoid from Unitree Robotics of Hangzhou was also doing demos. “You cannot sell these bipedal systems in Japan for safety and compliance reasons,” says Shuichi Nagao, a frequent visitor to China as CTO of Omakase Robotics, a division of Zeals, a Japanese humanoid robot developer. Omakase was exhibiting a G1 modified with an external PC controller, a dextrous hand, a suction-cup manipulator and a sensor “hat” with an extra speaker, mic and camera. “In China, the government is pushing humanoid development. They didn’t have an industry 20 years ago. The people pushing it are young, in their 20s and 30s. It’s a really different mentality out there,” says Nagao. “Big players in Japan are still looking for use cases for humanoids. In China, they’re already doing mass production and reducing the cost, so other countries can’t compete with them anymore.”Another Japanese company showing off G1 bots was summit sponsor GMO AI & Robotics, a subsidiary of Japanese internet company GMO. It’s using the robots in partnership with Japan Airlines to load and unload cargo containers at Tokyo’s Haneda airport. The cargo project is a trial—like many other humanoid experiments—but the fact that Chinese machines have penetrated so far into Japan’s ecosystem upends a long history. In 1973, scientists at Waseda University in Tokyo built WABOT-1, considered the first full-scale humanoid robot and capable of slow bipedal locomotion, grasping objects and simple communication. It inspired Honda’s groundbreaking Asimo humanoid, but it was never commercialized. Asimo was eventually retired in 2022, the year ChatGPT was released. Two years later, Unitree’s G1 went on sale for US $16,000. China’s High Torque Technology Co. showed off its Mini Pi biped, customized with an anime-inspired head, at Humanoids Summit in Tokyo. The regular version is priced at $3,500. Tim HornyakSupply and DemandJapan’s development of humanoids happened before practical applications or widespread demand were in place, but bad timing is only part of the story—Japan also has a history of developing technologies that might appeal to domestic consumers but not necessarily those overseas. For example, decades after they first appeared, its highly engineered, multifunction toilets have only recently found a following abroad. Japan’s humanoid prowess was partly built on the back of its legendary industrial automation, yet even that stronghold has eroded. Ani Kelkar, a partner from McKinsey & Company in Boston who produces analytical reports about the robotics industry, told the summit audience that while Japan occupied the top spot in the world in manufacturing robot density (the number of multipurpose industrial robots in operation per 10,000 employees) from at least 1994 to 2009, it then slipped to second in 2014, third in 2019 and fifth in 2024. In that year, South Korea was at the top of the leaderboard with a robot density of 1,220 compared to Japan’s 446. The International Federation of Robotics estimates China now has the most operational industrial robots in the world, with around 2 million total units, approximately 4.5 times more than Japan. “The annual installation numbers are impressive too: 54 percent of all robots installed worldwide in 2024 were deployed in China,” the IFR said in a release in April 2026. “I think the loss of Japanese leadership is more to do with the rise of China as a manufacturing powerhouse including for sectors that Japan had high export levels,” Kelkar said in an email interview. “The recovery has not yet happened as Japan ‘missed’ the rapid acceleration in AI for robotics and is now playing catchup.”How Japan Can Adapt Kelkar believes Japan has a US $100 billion opportunity in general-purpose robotics, which are machines that can perform a wide variety of tasks, and it cannot rely on the slower-growing industrial robot market, which is centered on factory machines that do one simple and predictable task like welding car parts. He points to a McKinsey white paper suggesting that while Japan has much of the hardware and technology experience needed to support general purpose robot development, it must change its strategy to capture more share in AI, software, data collection and robotics platforms.Tetsuya Ogata is a professor of engineering and director of the Institute for AI and Robotics at Waseda University, the birthplace of humanoids in Japan. He briefed the summit on how a nonprofit he chairs, the AI Robot Association (AIRoA), is working with Toyota and other members to develop foundational technologies for collaborative use. For instance, AIRoA has collected some 80,000 hours of data on remote operation of mobile manipulators, and Ogata believes it’s the largest dataset of its kind. Using the data, it built and verified Vision-Language-Action (VLA) models, and it has also started data collection for dual-arm mobile manipulation. In an interview, Ogata acknowledged Japan’s struggle to find its place in the changing landscape. “The world of AI is inherently a game of scale,” says Ogata. “Therefore, Japan’s absolute prerequisite is to secure a competitive baseline of scale—in data, computing resources, and talent. Beyond that, what I consider most critical is a mindset shift: rather than trying to hoard scale within a single nation or company, we must grow stronger by collaborating with a diverse ecosystem of domestic and international players.” Specifically, this means creating a ‘collaborative domain’ to address data—the single biggest bottleneck—through industry-wide cooperation rather than data-siloing. By collectively nurturing a pre-competitive, shared data infrastructure and foundation model, individual companies can then compete on top of it with their own applications. “By offering this open ‘data ecosystem’ to the world, we can engage global players and establish a ‘third pole’ alongside the US and China,” says Ogata. “I believe this is how Japan can reclaim its global presence.”In 1999, Japan introduced the world’s first mobile internet services platform. But being first didn’t turn Japan into a smartphone manufacturing or design center—it’s now merely a supplier of parts to other countries who are leading the smartphone industry. If Japan can avoid a repeat of that experience and successfully deregulate, diversity, and commercialize its original humanoid dreams, it stands a better chance of influencing the direction of the industry and reaping billions in value. As automobiles and electronics were pillars of Japan’s industrial strategy in the last century, Japan could make humanoid robots one of its key value generators in the 21st century, an approach that would not only deliver economic benefits but give Japan greater clout in how the industry will evolve. Just like Japanese cars, electronics, and even toilets, Japanese humanoids could stand for craftsmanship and reliability. It’s a legacy that Japan can’t afford to give up.

Japan Robotics Humanoids Humanoid-robots
Singapore Team Develops ME-SOFS: A Mechanical Sensor for Touch Perception Without Electronics

Singapore Team Develops ME-SOFS: A Mechanical Sensor for Touch Perception Without Electronics

A research team from the National University of Singapore has introduced a groundbreaking soft force sensor called ME-SOFS, which converts touch into fluid-driven motion without any electronic components. This innovative sensor features a 3D-printed soft porous structure with a central pillar connected to five fluid-filled chambers. When pressure is applied, the pillar tilts, compressing the corresponding chamber and driving fluid to actuators, enabling the detection of forces in multiple directions. The significance of ME-SOFS lies in its ability to operate without electronic interference, making it ideal for applications in medical training and elderly care. The sensor can generate readable signals through integrated magnets and coils, allowing it to measure force without external power. This technology has been successfully demonstrated in a soft glove that detects grip strength and predicts object weight, as well as in a tactile feedback system that enables operators to control robotic arms through force feedback. Looking ahead, the ME-SOFS sensor demonstrates robust performance under extreme conditions, such as high temperatures and underwater pressures. Its unique design allows it to function effectively in various environments, making it a valuable tool for soft robotics that require safe interaction with humans. No further timeline was disclosed at the time of publication.

Soft Robotics Fluid Sensors Mechanical Systems Robotics Technology
Mesoware raises $1.5 million funding to build AI-powered robots for manufacturing

Mesoware raises $1.5 million funding to build AI-powered robots for manufacturing

Mesoware has secured $1.5 million in funding to advance its development of AI-powered robotics solutions aimed at automating manufacturing processes. The pre-seed funding round was spearheaded by Pillar VC. Joe Mattekatt, co-founder and CEO of Mesoware, emphasized the significance of this investment, stating that as hardware costs decrease and AI technology progresses, the primary challenge in robotics lies in integrating these advancements at scale. This funding will enable Mesoware to address that challenge and further its mission in the robotics industry.

Artificial Intelligence Industrial robots AI-powered robots automation news factory automation industrial robotics
As Open Models Spark AI Boom, NVIDIA Jetson Brings It to Life at the Edge

As Open Models Spark AI Boom, NVIDIA Jetson Brings It to Life at the Edge

Caterpillar has introduced the Cat 306 CR mini-excavator, a compact machine weighing just under eight tons, designed for tight job sites such as utility trenches near foundations and basement digs in densely populated areas. This innovative excavator can easily fit inside a standard shipping container, making it a practical choice for contractors facing space constraints. The launch of the Cat 306 CR aims to provide a versatile solution for construction professionals who require efficient equipment to navigate challenging environments. With its compact size and powerful capabilities, the mini-excavator is expected to enhance productivity on various projects, allowing for greater maneuverability in restricted spaces.

AI, Robotics and Automated Mining: The Future of Excavators and Mining Machinery Parts

AI, Robotics and Automated Mining: The Future of Excavators and Mining Machinery Parts

The global mining industry is undergoing a significant transformation as it increasingly integrates artificial intelligence, robotics, and full automation into its operations. This shift has led to the widespread adoption of intelligent excavators and driverless mining trucks, which are now considered standard equipment in modern mining practices. These advancements are not only improving operational safety but also significantly boosting production efficiency. As mining machinery evolves, there is a corresponding rise in the standards and demands for high-quality professional mining machinery parts, reflecting the industry's commitment to enhancing performance and reliability in the face of technological change.

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RobotToday Initiative

Robotics needs a service framework.

RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.