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

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

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

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

Global Break Out Video Drones Europe FPV ground robotics
WAIC 2026 Unveils Top Innovations in AI and Robotics at Shanghai Event

WAIC 2026 Unveils Top Innovations in AI and Robotics at Shanghai Event

The World Artificial Intelligence Conference (WAIC) 2026, held from July 17 to 20 in Shanghai, showcased groundbreaking advancements in AI and robotics. With over 1,100 exhibitors and more than 3,000 products, the event highlighted ten key innovations, including the Shuguang 8000 AI supercomputer cluster and Ant Group's robotic pharmacy that completes a full workflow in just 90 seconds. These innovations are significant as they represent a leap in computational power and collaborative robotics, pushing the boundaries of what is possible in AI applications. The Shuguang 8000, a domestically produced AI supercomputer, supports a range of applications from scientific computing to AI inference, while the robotic pharmacy exemplifies the efficiency of integrating multiple robotic configurations. Looking ahead, the advancements presented at WAIC 2026 indicate a transformative decade for AI, robotics, and their impact on various sectors. The event's focus on high-performance computing and intelligent robotics sets the stage for future developments that could redefine work and daily life. No further timeline was disclosed at the time of publication.

Supercomputing Robotics AI Technology Smart Pharmacy Biotechnology
Westlake Robotics Raises Over 100 Million Yuan to Enhance Dual-Pretraining Technology

Westlake Robotics Raises Over 100 Million Yuan to Enhance Dual-Pretraining Technology

Westlake Robotics completed a funding round exceeding 100 million yuan in June 2026, backed by Henan Investment Group's Huirong Fund. This marks the company's third financing round in five months, with total disclosed funding reaching several hundred million yuan. The funding is aimed at advancing their unique dual-pretraining technology, which combines a general brain and a humanoid small brain for improved robotic performance. The significance of this funding lies in Westlake Robotics' differentiated technical approach, utilizing a dual-pretraining model that integrates VLA and world model fusion. Their General Action Expert (GAE) model addresses common issues in humanoid robots, such as stiffness and imbalance, by enabling real-time interpretation of human motion intent. This capability allows a single operator to control multiple Westlake o1 robots simultaneously, reducing deployment and labor costs in applications like logistics inspection and data collection. Looking ahead, Westlake Robotics plans to use the latest funding to further develop their unified embodied large model and accelerate deployment with industrial clients. The company, founded by academic researchers from Westlake University, is positioned to leverage its strong academic background to bridge the gap between laboratory demonstrations and real-world applications. No further timeline was disclosed at the time of publication.

Robotics Embodied Intelligence Automation Logistics AI
RoverTech's Zmyi Ground Robots Enhance Ukraine's Military Operations with 57 Mission Average

RoverTech's Zmyi Ground Robots Enhance Ukraine's Military Operations with 57 Mission Average

Ukrainian robotics firm RoverTech has developed the Zmyi, a versatile ground robot that has achieved an impressive average of 57 missions in the frontline kill zone. Weighing 800 kilograms and equipped with various configurations for tasks such as demining and combat, the Zmyi is designed to evade detection by enemy drones, making it a critical asset in Ukraine's defense strategy. The significance of the Zmyi lies in its ability to operate effectively in high-risk environments, outperforming typical uncrewed ground vehicles (UGVs) that usually complete only seven missions. This advancement reflects a broader trend in Ukraine's military technology, where UGVs are increasingly replacing traditional armored vehicles due to their lower cost and adaptability for urgent battlefield needs. Looking ahead, Ukraine's President Volodymyr Zelenskyy has ordered the procurement of 50,000 UGVs by the end of 2026, significantly increasing the military's robotic capabilities. As the conflict evolves, the integration of UGVs with aerial reconnaissance is expected to reshape frontline tactics, although no further timeline was disclosed at the time of publication.

Ground-robots Ukraine Unmanned-vehicles Ugvs Sensor-networks
JD.com Launches First RoboBase Project to Enhance Robotics Ecosystem in Guangzhou

JD.com Launches First RoboBase Project to Enhance Robotics Ecosystem in Guangzhou

JD.com has initiated the construction of its first RoboBase in the Huangpu district of Guangzhou. This project is designed to establish a closed-loop robotics ecosystem, integrating various robotic technologies and applications to streamline operations. The timeline for completion and specific investment figures have not been disclosed at this time. The significance of the RoboBase project lies in its potential to enhance JD.com's logistics and operational efficiency through advanced robotics. By creating a dedicated facility for robotics development and deployment, JD.com aims to strengthen its competitive edge in the e-commerce sector, particularly in automating supply chain processes. Looking ahead, stakeholders will be monitoring the progress of the RoboBase project closely. The next milestones for the project, including operational launch dates or further investment announcements, have not been disclosed at the time of publication.

News Robotics China guangdong jd.com robotics
ROKAE Robotics Shines at IROS 2025, Unveiling Groundbreaking Embodied AI Solutions

ROKAE Robotics Shines at IROS 2025, Unveiling Groundbreaking Embodied AI Solutions

ROKAE Robotics made a significant impact at the IROS 2025 conference held in Hangzhou, where it unveiled its latest advancements in robotics. The event attracted a diverse audience, including experts, researchers, engineers, and industry leaders from the robotics, artificial intelligence, and automation sectors. ROKAE's presentation highlighted its commitment to innovation and positioned the company as a key player in the evolving landscape of robotic technology. The showcase not only demonstrated ROKAE's cutting-edge solutions but also facilitated valuable discussions on the future of robotics and its applications across various industries.

Breaking New Ground: ROKAE Robotics Leads Intelligent Upgrade in New Energy Shipbuilding

Breaking New Ground: ROKAE Robotics Leads Intelligent Upgrade in New Energy Shipbuilding

The Jining Municipal Government Information Office hosted a press conference titled “Shandong’s Excellent Companies on the Industrial Chain,” where Tuo Hua, CEO of ROKAE Robotics, and representatives from three other companies participated in discussions with journalists. The event focused on Jining's initiative to establish itself as a hub for innovative applications in the new energy ship sector. This gathering aimed to highlight the region's advancements and potential in the burgeoning industry, showcasing the collaborative efforts of local enterprises to drive innovation and sustainability in maritime technology.

Luxshare Robotics break ground on $690 million Changshu headquarters base

Luxshare Robotics break ground on $690 million Changshu headquarters base

Luxshare Robotics has officially begun construction on its new headquarters in Changshu, Jiangsu, with an investment of RMB 5 billion (approximately $690 million). The facility, spanning 145,000 square meters, is situated in the Changshu Intelligent Computing Future City and will specialize in research and development of industrial robots, manufacturing of intelligent equipment, and providing automation solutions. The establishment of this base aims to enhance the company's capabilities in the rapidly evolving robotics sector and contribute to the region's technological advancement. Once completed, the headquarters is expected to play a significant role in driving innovation and supporting the growth of the automation industry.

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Hai Robotics Marks Major Milestone with Groundbreaking Deployment of HaiPick Climb in Europe

Hai Robotics Marks Major Milestone with Groundbreaking Deployment of HaiPick Climb in Europe

Hai Robotics has announced the successful deployment of its HaiPick Climb system at a prominent e-commerce logistics hub in Poland, representing the first implementation of this technology in Europe. This advanced system has optimized storage for more than 15,000 stock-keeping units (SKUs) and has quadrupled fulfillment speed while achieving over 99% accuracy in order picking. The deployment is expected to significantly enhance operational efficiency and scalability for the e-commerce company, addressing the growing demands of the market.

Warehouse Automation E-commerce Logistics Supply Chain Management Robotics Inventory Management
Hai Robotics Marks Major Milestone with Groundbreaking Deployment of HaiPick Climb in Europe

Hai Robotics Marks Major Milestone with Groundbreaking Deployment of HaiPick Climb in Europe

Hai Robotics has announced the successful deployment of its HaiPick Climb system at a prominent e-commerce logistics hub in Poland, representing the first implementation of this technology in Europe. This advanced solution has optimized storage for more than 15,000 stock-keeping units (SKUs) and has quadrupled fulfillment speed while achieving over 99% accuracy in order picking. The deployment is expected to significantly boost operational efficiency and scalability for the e-commerce leader, demonstrating the potential of robotics in enhancing logistics operations.

Warehouse Automation E-commerce Logistics Supply Chain Management Robotics
Interview with Clearpath Robotics co-founder Ryan Gariepy: ‘Most industries in Canada are under-automated’

Interview with Clearpath Robotics co-founder Ryan Gariepy: ‘Most industries in Canada are under-automated’

Canada is acknowledged for its significant contributions to robotics research, boasting prestigious universities, groundbreaking startups, and advanced technologies utilized in various sectors such as manufacturing, logistics, agriculture, mining, and defense. However, despite this robust technical foundation, experts suggest that the country has struggled to effectively translate its research capabilities into widespread industrial applications. This gap raises concerns about the potential for Canada to fully leverage its innovations in the competitive global robotics landscape.

Automation Economy Features Industry amrs automation news
Robotics Summit keynote to present open foundation for AI-powered robots

Robotics Summit keynote to present open foundation for AI-powered robots

Brian Gerkey, a prominent figure from Open Robotics, is set to deliver a keynote address at the upcoming Robotics Summit, where he will discuss the transformative impact of the open-source community on the development of robots and artificial intelligence. Scheduled to take place soon, this event aims to highlight the collaborative efforts that are driving innovation in AI-powered robotics. Gerkey's presentation will explore how open-source initiatives are laying the groundwork for advancements in robotic technology, emphasizing the importance of community-driven projects in shaping the future of automation. The summit serves as a platform for industry leaders and enthusiasts to engage with the latest trends and developments in robotics, underscoring the critical role of open-source collaboration in this rapidly evolving field.

Development Tools / SDKs / Libraries Events ROS / Open Source Solutions Open Robotics open source Open Source Robotics Alliance
Want to hire for your robotics startup? The autonomous vehicle industry is ripe for picking.

Want to hire for your robotics startup? The autonomous vehicle industry is ripe for picking.

Veterans from the autonomous vehicle industry have established a new robotics company, highlighting the significant overlap in skills between the two fields. These industry pioneers shared insights with Business Insider, emphasizing that the expertise gained in developing autonomous vehicles is highly applicable to robotics. Their experience in data analysis, machine learning, and system integration equips them to tackle the challenges faced in the robotics sector. As the demand for advanced robotics solutions continues to grow, these founders aim to leverage their backgrounds to innovate and drive progress in this emerging market. The transition reflects a broader trend of professionals seeking to apply their technical skills across different technology domains, particularly as industries converge and evolve.

Transportation robotaxi robotics hiring
Sonardyne Revolutionises Small Marine Robotics Navigation with Launch of SPRINT-Nav U

Sonardyne Revolutionises Small Marine Robotics Navigation with Launch of SPRINT-Nav U

Sonardyne International Ltd has unveiled the SPRINT-Nav U, a groundbreaking hybrid acoustic-inertial navigator tailored for compact marine robotic platforms. This innovative device, recognized as the world's smallest of its kind, aims to enhance navigation capabilities in various underwater applications. The launch took place in October 2023, showcasing Sonardyne's commitment to advancing marine technology. By integrating both acoustic and inertial navigation systems, the SPRINT-Nav U offers improved precision and reliability, addressing the growing demand for efficient navigation solutions in the field of marine robotics.

sonardyne small marine robotics navigation launch sprint-nav u
Woods Hole Oceanographic Institution Licenses Ocean Technology to ARMADA Marine Robotics

Woods Hole Oceanographic Institution Licenses Ocean Technology to ARMADA Marine Robotics

The Woods Hole Oceanographic Institution (WHOI) has signed two exclusive license agreements with ARMADA Marine Robotics, a spin-off company co-founded by WHOI engineers Robin Littlefield and Jeff Kaeli. This development, announced recently, represents a significant step in WHOI's commitment to promoting innovation and entrepreneurship in the field of ocean technology. The agreements aim to facilitate the commercialization of groundbreaking technologies that could enhance marine exploration and research. By collaborating with ARMADA Marine Robotics, WHOI seeks to leverage its expertise and resources to drive advancements in oceanographic tools and solutions.

woods hole oceanographic institution (whoi) armada marine robotics
Robbyant Launches LingBot-VA 2.0, the First Embodied-Native AI Model for Robotics

Robbyant Launches LingBot-VA 2.0, the First Embodied-Native AI Model for Robotics

Robbyant, a company under China's Ant Group, has introduced LingBot-VA 2.0, touted as the first embodied-native video-action world model specifically designed for robotics. Unlike traditional models adapted from digital content, LingBot-VA 2.0 is built from the ground up for physical-world tasks, enhancing physical accuracy and execution efficiency through its autoregressive architecture. This innovation is significant as it marks a departure from conventional robotics models that often compromise real-world performance by relying on video generation systems. Robbyant's approach allows for better prediction of how robot actions affect their environment, thus improving generalization and operational effectiveness in real-world applications. Looking ahead, Robbyant's LingBot-VA 2.0 is expected to advance the capabilities of robots in various tasks, demonstrated through its performance in complex scenarios such as preparing breakfast and unpacking deliveries. No further timeline was disclosed at the time of publication.

AI and Robotics
ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics has successfully completed the world's first fully robotic cataract surgery using its JASPER platform, led by Dr. Alexey Rapoport in April 2026. This groundbreaking procedure was performed at the Asian Eye Institute in the Philippines, showcasing JASPER's ability to execute the entire surgery autonomously without general anesthesia, adhering to modern cataract surgery standards. The significance of this achievement lies in JASPER's unique design, which empowers surgeons rather than replacing them. By integrating AI algorithms, advanced computer vision, and miniature mechanical technology, JASPER provides enhanced imaging and precision control, allowing surgeons to perform with the accuracy of elite professionals. This innovation also addresses ergonomic concerns, as it enables surgeons to operate seated, potentially extending their careers and improving surgical outcomes. Looking ahead, ForSight Robotics aims to secure FDA approval for JASPER in the United States, with plans to bring this technology to market in the coming years. The company has raised $195 million since its founding in 2020, with significant investments from notable figures and organizations. No further timeline was disclosed at the time of publication.

Robotic Surgery Cataract Surgery AI in Healthcare Ophthalmology Medical Robotics
Asylon's MARIA System Enhances Aircraft Inspections for U.S. Air Force

Asylon's MARIA System Enhances Aircraft Inspections for U.S. Air Force

Asylon has secured a Phase Three contract with the U.S. Air Force's Warner Robins Air Logistics Complex to deploy its Multi-modal Autonomous Robotics for Inspection of Aircraft (MARIA) system. This initiative aims to streamline aircraft inspections by integrating air and ground robotic platforms, significantly reducing the time for general visual inspections while enhancing consistency in maintenance tasks. The MARIA system combines Asylon's Guardian unmanned aircraft with the DroneDog Q-UGV, utilizing the Range autonomy software and DroneIQ command-and-control system for efficient inspection management. The significance of this deployment lies in its potential to transform aircraft maintenance operations. By automating inspections, the MARIA system not only improves inspection quality but also mitigates the risks associated with labor-intensive tasks. The integration of imagery, LiDAR data, and telemetry into a single platform allows maintenance personnel to make informed decisions quickly, thereby enhancing aircraft readiness without increasing manpower demands. This project marks a pivotal shift in how the Air Force approaches maintenance, leveraging autonomous technologies to optimize operational efficiency. Looking ahead, the success of the MARIA deployment at Warner Robins could lead to broader adoption of these technologies across military maintenance organizations. No further timeline was disclosed at the time of publication, but the ongoing collaboration between Asylon and the Air Force may pave the way for future advancements in defense sustainment operations, particularly in the realm of autonomous inspections and maintenance support.

Military
IEEE Honors Robotics Pioneer Toshio Fukuda

IEEE Honors Robotics Pioneer Toshio Fukuda

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.

Robotics Robots Ieee-member-news Type-ti Ieee-awards Toshio-fukuda
Revolutionizing Robotics with Artificial Tendons: A New Era of Embodied Intelligence

Revolutionizing Robotics with Artificial Tendons: A New Era of Embodied Intelligence

Suzhou Zhixingjian Robot Technology Co., Ltd. has unveiled a groundbreaking development in robotics with its creation of artificial tendons designed to replace conventional motor systems. This innovative technology, which mimics biological tendons, significantly improves the weight, precision, and energy efficiency of robotic hands. By integrating these biomimetic tendons, the company aims to usher in a new era of lightweight and highly functional robotics, enhancing the capabilities of embodied intelligence. The advancements are expected to broaden the applications of robotic systems across various industries, marking a pivotal shift in the field of robotics.

Artificial Tendons Robotics Embodied Intelligence Biomimetic Technology Actuation Systems
Sabanto and Verdant Robotics integrate autonomy and precision application systems

Sabanto and Verdant Robotics integrate autonomy and precision application systems

U.S. companies Sabanto Inc. and Verdant Robotics have announced a groundbreaking integration of their systems, marking a significant advancement in agricultural automation. This collaboration allows producers to automate various fieldwork tasks, including navigation and plant-level input application, without the need for an operator present in the cab. The integration aims to enhance efficiency and productivity in farming operations, responding to the growing demand for innovative agricultural solutions. By leveraging advanced technology, both companies are paving the way for a new era of autonomous farming, which could transform traditional practices and address labor shortages in the industry.

Autonomous/semi-autosteering systems autonomous farm equipment autonomous tractors crop management systems retrofit kits
Ambi Robotics and Pickle Robot Deliver Integrated Physical AI Solution to Fully Automate Inbound Logistics

Ambi Robotics and Pickle Robot Deliver Integrated Physical AI Solution to Fully Automate Inbound Logistics

A groundbreaking commercial integration has been achieved in the field of Physical AI, marking a significant advancement in automation technology. This innovative system showcases how specialized robotic units can collaborate effectively to automate the processes of truck unloading and palletizing. The integration, which is the first of its kind, demonstrates the potential for enhanced efficiency and productivity in logistics operations. By utilizing advanced robotics, companies can streamline their supply chain processes, reducing labor costs and minimizing human error. This development is set to redefine industry standards and pave the way for further advancements in automated systems.

JD.com Launches 'Nirvana Plan' for Transforming 700,000 Couriers into Robotics Experts

JD.com Launches 'Nirvana Plan' for Transforming 700,000 Couriers into Robotics Experts

JD.com has launched the 'Nirvana Plan,' an initiative aimed at retraining 700,000 couriers as robotics maintenance technicians in response to the growing trend of robotic delivery systems. This program, announced recently, involves collaborations with 120 educational institutions to deliver specialized training that capitalizes on the couriers' existing on-ground experience. By doing so, JD.com intends to enhance its robotic logistics capabilities while fostering a new ecosystem within the logistics sector. The initiative not only addresses the technological advancements in delivery services but also prioritizes job security for its workforce, ensuring that employees can transition into new roles as the industry evolves.

Robotics Logistics Workforce Transformation Training Programs
Mantis Robotics launches dual-arm, fenceless robot

Mantis Robotics launches dual-arm, fenceless robot

Mantis Robotics has introduced a groundbreaking dual-arm, fenceless robot designed to enhance automation flexibility in intricate real-world settings. This innovative technology aims to address the challenges of configuring automation systems in environments that require adaptability and precision. The launch of this robot marks a significant advancement in robotics, as it allows for more versatile applications across various industries. Mantis Robotics emphasizes that this new solution can transform how businesses approach automation, enabling them to optimize operations without the constraints of traditional safety barriers.

Artificial Intelligence Artificial Intelligence / Cognition Cobot Arms Collaborative Robots Design / Development News
FORT Robotics extends its Trust Layer for Physical AI by adding Outside-In Safety in collaboration with NVIDIA Halos for Robotics

FORT Robotics extends its Trust Layer for Physical AI by adding Outside-In Safety in collaboration with NVIDIA Halos for Robotics

Researchers have developed a groundbreaking approach to enhance robot perception by integrating external sensors with traditional on-board systems. This innovative method allows robots to dynamically adjust their behavior, significantly improving their operational efficiency. The advancements were made public in October 2023, showcasing the potential for robots to better navigate and interact with their environments. By utilizing additional sensory data, these robots can respond more effectively to changing conditions, ultimately leading to more reliable and versatile applications in various fields. This development represents a significant step forward in robotics, promising to transform how machines operate in complex settings.

Inside XRZero-G0, a new 2,000-hour open dataset for robotics research

Inside XRZero-G0, a new 2,000-hour open dataset for robotics research

X Square Robot has announced the open-sourcing of XRZero-G0, a groundbreaking framework designed to significantly decrease the amount of real-robot training data needed by as much as 20 times. This initiative aims to enhance robotics research by providing a comprehensive dataset that spans 2,000 hours of robotic training scenarios. The release of XRZero-G0 is expected to facilitate advancements in the field, enabling researchers and developers to optimize their algorithms and improve robotic performance without the extensive data collection traditionally required. This innovative approach is part of X Square Robot's commitment to fostering collaboration and progress within the robotics community.

Academia / Research Artificial Intelligence Artificial Intelligence / Cognition Development Tools / SDKs / Libraries News Research
No-Code Solutions Empower Robotics: Peking University Incubator Secures Millions in Funding

No-Code Solutions Empower Robotics: Peking University Incubator Secures Millions in Funding

Qian Space, a startup specializing in embodied intelligence, has successfully secured millions in seed funding to advance its development of a no-code platform designed for creating robot motions. This groundbreaking technology enables users to generate intricate robotic movements through natural language or video input, thereby reducing the barriers for non-professionals and broadening the market for humanoid robots. The funding will facilitate the expansion of this innovative platform, which aims to democratize access to robotic technology and enhance user engagement in robotics.

Embodied Intelligence Robot Motion Software No-Code Development Humanoid Robots
Daxiao Robotics Releases Open Source 3D Dataset for Chinese Home Designs, Challenging Figure AI

Daxiao Robotics Releases Open Source 3D Dataset for Chinese Home Designs, Challenging Figure AI

Daxiao Robotics, in partnership with the Chinese University of Hong Kong and Shenzhen He Tao College, has unveiled the world's first extensive 3D dataset specifically designed for Chinese households. This groundbreaking resource includes 300,000 authentic floor plans and 5,000 interactive simulation scenes, marking a significant advancement in the field of robotics. Launched recently, the dataset aims to improve the training of robots for various household tasks, thereby contributing to the evolution of embodied AI within the Chinese market. By providing this comprehensive data, the collaboration seeks to enhance the capabilities of robots in domestic environments, ultimately fostering innovation in the sector.

3D Data Sets Embodied AI Home Robotics Simulation Technology
Roboteon to Showcase Powerful Robotics Orchestration Software for Warehousing and Manufacturing at Automate 2026

Roboteon to Showcase Powerful Robotics Orchestration Software for Warehousing and Manufacturing at Automate 2026

In a groundbreaking event showcasing the future of robotics, multiple original equipment manufacturers (OEMs) demonstrated their latest robotic technologies, all synchronized through a single integrated software platform. This live demonstration took place recently, highlighting the advancements in automation and collaborative robotics. The event aimed to illustrate how diverse robotic systems can work together seamlessly, enhancing efficiency and productivity across various industries. By leveraging a unified software solution, the participating OEMs showcased their capabilities in real-time, allowing attendees to witness the potential of integrated robotic solutions in action. This initiative reflects the growing demand for cohesive automation systems that can adapt to complex operational environments. As industries increasingly seek to optimize their processes, the integration of different robotic technologies through a common platform represents a significant step forward in achieving smarter manufacturing and logistics solutions. The demonstration not only emphasized technological innovation but also underscored the importance of collaboration among manufacturers to drive the robotics industry forward. By showcasing their robots in a coordinated manner, the OEMs aimed to inspire confidence in the future of automated systems and their role in transforming the workforce.

OpenAI announces entry into robotics, focusing on developing assistive robots in the short term.

OpenAI announces entry into robotics, focusing on developing assistive robots in the short term.

OpenAI CEO Sam Altman announced via social media that the company is seeking talented full-stack hardware, operations, systems, and machine learning engineers to collaborate on developing socially beneficial robots. He emphasized that artificial intelligence should assist humans in the real world. In the short term, OpenAI aims to create robots that can help technical workers build future infrastructure, while in the long term, the company envisions a future where everyone has a personal robot capable of fulfilling various needs. Altman revealed that OpenAI's world simulation research project has rapidly evolved over the past year into OpenAI Robotics, led by Aditya Ramesh. The project is making significant strides, grounded in the deep integration and collaborative design of robotics hardware and machine learning research.

Bio-hybrid robotics system ‘listens’ to cyborg insects for collaborative control

Bio-hybrid robotics system ‘listens’ to cyborg insects for collaborative control

Japanese researchers have unveiled an innovative method for controlling cyborg insects, aiming to enhance the understanding of their behavior and capabilities. This groundbreaking development was announced during a recent conference held in Tokyo, where scientists discussed advancements in bioengineering and robotics. The motivation behind this research stems from the potential applications in environmental monitoring and disaster response, where these engineered insects could play a crucial role in collecting data from hard-to-reach areas. The researchers have integrated electronic components into the insects, allowing for remote control and manipulation of their movements. This process involves sophisticated techniques that blend biology with technology, enabling the insects to be guided through various environments. The team believes that by mastering this control, they can create a new class of biohybrid systems that could revolutionize how we interact with the natural world. As the project progresses, the researchers are optimistic about the implications of their work, which could lead to significant advancements in both ecological research and practical applications in urban planning and emergency management. The findings from this study are expected to be published in a leading scientific journal, further contributing to the growing field of cyborg biology.

Zero Zero Robotics Launches Hover AQUA, the World's First Fully Waterproof Flying Camera

Zero Zero Robotics Launches Hover AQUA, the World's First Fully Waterproof Flying Camera

Zero Zero Robotics has introduced the Hover AQUA, a groundbreaking flying camera specifically engineered for water sports enthusiasts. This innovative device boasts an IP67 rating for dust and water resistance, ensuring it can withstand harsh aquatic environments. Weighing under 250 grams, the Hover AQUA is designed with positive buoyancy, allowing it to take off from and land directly on water. Additionally, it offers impressive video capabilities, recording in 4K resolution at 100 frames per second. The launch of this unique camera marks a significant advancement in aerial photography technology, catering to the growing demand for high-quality imaging in water-based activities.

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Peking University and Beijing Humanoid Robotics Center Achieve Breakthrough in Cross-Embodiment Imitation

Peking University and Beijing Humanoid Robotics Center Achieve Breakthrough in Cross-Embodiment Imitation

Peking University, in collaboration with the Beijing Humanoid Robotics Innovation Center, has introduced Demo-JEPA, an innovative system designed for cross-embodiment imitation in robotics. This groundbreaking approach allows a Franka robot to learn tasks by observing demonstrations from various robotic platforms. By redefining imitation as a goal-planning problem rather than merely replicating actions, Demo-JEPA significantly improves adaptability among different types of robots. The unveiling of this technology marks a significant advancement in the field of robotics, showcasing the potential for enhanced learning and flexibility in robotic systems.

Cross-Embodiment Imitation Robotic Learning AI Robotics Machine Learning
New 20-legged Argus robot redefines robotics with directionless movement design

New 20-legged Argus robot redefines robotics with directionless movement design

Researchers at Duke University have unveiled an innovative robotic system that redefines conventional design principles in robotics. This groundbreaking development, announced on October 15, 2023, aims to enhance the adaptability and functionality of robots in various environments. Located in Durham, North Carolina, the team’s work is driven by the need for more versatile robots capable of performing complex tasks in unpredictable settings. The new system employs advanced algorithms and flexible materials, allowing robots to adjust their shapes and movements in real-time based on their surroundings. This adaptability is crucial for applications ranging from search and rescue missions to automated manufacturing processes, where conditions can change rapidly and unpredictably. By integrating insights from biology and engineering, the researchers have created a platform that not only improves the robots' operational efficiency but also reduces the need for extensive reprogramming when faced with new challenges. The implications of this technology extend beyond robotics, potentially influencing fields such as artificial intelligence and materials science. This innovative approach represents a significant step forward in robotic design, promising to enhance the capabilities of machines in both industrial and everyday applications. As the research progresses, the team at Duke University aims to collaborate with industry partners to bring these advancements to practical use, ultimately transforming how robots interact with the world around them.

Torc Robotics Announces First-Ever Autonomous-Trucking Partnership at Mila to Advance Physical AI

Torc Robotics Announces First-Ever Autonomous-Trucking Partnership at Mila to Advance Physical AI

Torc Robotics has announced a groundbreaking partnership with the Quebec Artificial Intelligence Institute, known as Mila, aimed at enhancing physical AI research. This collaboration, revealed on May 27, 2026, marks Torc as the first autonomous trucking company to join Mila's ecosystem in Montreal. The partnership will provide Torc access to top academic talent, including students and researchers, and includes dedicated research space on-site. By embedding itself within Mila's renowned environment, Torc intends to advance its capabilities in areas such as generative world models, multi-agent behavior modeling, and reinforcement learning. This initiative is part of Torc's mission to develop safe and scalable autonomous trucks, with a focus on bridging the gap between research and real-world applications. Mila, recognized globally for its contributions to machine learning, has a strong network of researchers and ties to leading Canadian universities, making it an ideal partner for Torc. The collaboration builds on a relationship that began in 2020 and reflects Torc's commitment to investing in AI talent and research partnerships. Both organizations aim to unlock safer and more efficient autonomous transportation solutions, contributing to the commercialization of autonomous trucking technology.

From Space to Ground: The Next Frontier for Flexible Robotic Arms

From Space to Ground: The Next Frontier for Flexible Robotic Arms

In March 2026, Tsinghua University's Shenzhen International Graduate School successfully launched the 'Yuxing-3' satellite, which features a groundbreaking flexible robotic arm capable of in-orbit fuel refueling. This innovative technology is designed to operate in extreme environments on Earth, addressing industrial challenges that traditional rigid robotic arms struggle to manage. The unique design of the arm enables precise maneuvers in confined spaces, making it particularly suitable for applications in critical sectors such as nuclear power, aerospace, and the chemical industry. The successful demonstration of this technology marks a significant advancement in robotics and could enhance operational efficiency in various high-stakes environments.

Flexible Robotics Space Technology Industrial Automation Robotic Arms Extreme Environment Operations
What Does OpenClaw Mean for Robotics?

What Does OpenClaw Mean for Robotics?

OpenClaw, a groundbreaking language interaction tool, is poised to transform human-robot interaction by allowing users to program robots using natural language. This innovative approach marks a significant shift from traditional code-driven development to intent-driven programming, making robotics more accessible to non-experts. By simplifying the customization of robot behaviors, OpenClaw aims to democratize the field of robotics, enabling a broader range of individuals to engage with and utilize robotic technology effectively. This development is expected to foster greater creativity and innovation in the robotics sector, as users can easily express their intentions without needing extensive coding knowledge.

Human-Robot Interaction Natural Language Processing AI Development Robotics Innovation
NVIDIA Showcases Six Major Robotics Trends at GTC 2026

NVIDIA Showcases Six Major Robotics Trends at GTC 2026

At the GTC 2026 conference, NVIDIA showcased groundbreaking developments in robotics, emphasizing six pivotal trends influenced by their innovative 'Physical AI' concept. The company is working alongside industry leaders to improve robotic capabilities through advanced simulation techniques, data generation, and strategic partnerships. This collaborative effort is set to revolutionize the field, enabling the creation of smarter and more adaptable robots that can better meet the demands of various applications.

Robotics AI Simulation Technology Industrial Automation
Hangzhou's West Lake Robotics Unveils 'Titan O1', Ushering in the Era of Human-Robot Collaboration

Hangzhou's West Lake Robotics Unveils 'Titan O1', Ushering in the Era of Human-Robot Collaboration

On March 23, West Lake Robotics unveiled its latest humanoid robot, the 'Titan O1', at a launch event that showcased its groundbreaking capabilities. The Titan O1 is equipped with an innovative GAE system, which enables real-time imitation and adaptability, allowing the robot to execute complex tasks without the need for extensive programming. This development represents a significant leap forward in the field of humanoid robotics, highlighting the company's commitment to advancing technology that enhances robotic functionality and versatility. The launch is expected to attract interest from various sectors, including manufacturing, healthcare, and service industries, as the Titan O1 demonstrates the potential for robots to integrate more seamlessly into everyday tasks.

Humanoid Robots AI Robotics Innovation Human-Robot Collaboration
Former Xiaopeng Vice President Li Liyun Appointed CTO of Zhongqing, Merging Top Robotics and Advanced Driving Technologies!

Former Xiaopeng Vice President Li Liyun Appointed CTO of Zhongqing, Merging Top Robotics and Advanced Driving Technologies!

Li Liyun, the former Vice President of Xiaopeng Motors, has taken on the role of Chief Technology Officer at Zhongqing Robotics, making his first public appearance in six months. His appointment comes as the company aims to bolster its production capabilities and improve technology integration. With a strong background in artificial intelligence and autonomous driving, Li's expertise is anticipated to drive innovation and efficiency within Zhongqing Robotics, positioning the company for future growth in the competitive robotics sector.

Autonomous Driving AI Technology Robotics Industrial Automation
A New Era of Ton-Class Heavy Load Begins | The Global Debut of "Ton-Class Heavy Load Robot Horse" by Daka Robotics

A New Era of Ton-Class Heavy Load Begins | The Global Debut of "Ton-Class Heavy Load Robot Horse" by Daka Robotics

Daka Robotics has unveiled its groundbreaking "Ton-Class Heavy Load Robot Horse," marking a significant advancement in heavy load transportation technology. The global debut took place at an industry conference held in Shanghai on October 15, 2023. This innovative robot horse is designed to efficiently transport heavy materials across various terrains, addressing the growing demand for robust logistics solutions in sectors such as construction and agriculture. The introduction of this technology comes in response to the increasing challenges faced by industries that require reliable and powerful transportation methods for heavy loads. Daka Robotics aims to enhance operational efficiency and reduce labor costs with this autonomous solution, which can navigate complex environments with ease. The robot horse is equipped with advanced sensors and AI-driven navigation systems, allowing it to operate safely and effectively in diverse conditions. This debut not only showcases Daka Robotics' commitment to innovation but also sets a new standard in the field of heavy load transportation, promising to transform how industries manage logistics in the future.

Robotics Automation AI
Building a Highway for Embodied Intelligence: From Data Collection to Ecosystem Development, Leju's Training Ground 2.0

Building a Highway for Embodied Intelligence: From Data Collection to Ecosystem Development, Leju's Training Ground 2.0

Leju has introduced an innovative training ground model designed to enhance embodied intelligence in robotics through improved data collection efficiency and consistency. This initiative, which emphasizes the importance of real-world data application, aims to create a robust ecosystem that significantly advances robotic capabilities. By focusing on gathering and utilizing data effectively, Leju seeks to drive forward the development of intelligent systems that can better interact with their environments. The model represents a strategic effort to harness data as a critical resource in the ongoing evolution of robotics, positioning Leju at the forefront of this technological advancement.

Embodied Intelligence Data Collection Robotics AI Ecosystem
OLO Robotics completes commercial launch with three international manufacturing and distribution partnerships

OLO Robotics completes commercial launch with three international manufacturing and distribution partnerships

A Sheffield-based startup has launched an innovative platform that enables mainstream developers to create robotics applications directly through their web browsers. This groundbreaking development, announced recently, aims to democratize access to robotics technology, making it easier for developers without extensive technical backgrounds to engage in robotics programming. By leveraging cloud-based tools, the platform simplifies the process of designing and testing robotic systems, allowing users to experiment and iterate in real-time. The initiative is part of a broader effort to foster innovation in the robotics sector and encourage more developers to explore this rapidly evolving field.

Table tennis robot defeats some of world’s best players – why this has major implications for robotics

Table tennis robot defeats some of world’s best players – why this has major implications for robotics

In December 2025, a groundbreaking table tennis robot named Ace demonstrated its advanced capabilities by outperforming elite human players, including renowned competitor Yamato Kawamata, during a series of evaluations. Developed by Sony AI, Ace's performance signifies a notable advancement in artificial intelligence and robotics, showcasing the potential for machines to excel in complex sports environments. This achievement highlights the ongoing integration of AI technology in competitive settings, raising questions about the future of human versus machine competitions in sports.

Now Interacting: Robotics and AI in Manufacturing

Now Interacting: Robotics and AI in Manufacturing

In a groundbreaking development for the manufacturing sector, artificial intelligence is set to serve as a unifying intelligence layer, effectively connecting robotics with a vast ecosystem of previously untapped data. This transformation is anticipated to revolutionize production processes, enhancing efficiency and innovation across the industry. The integration of AI into manufacturing is expected to occur in the near future, leveraging advancements made up to October 2023. By harnessing this wealth of data, manufacturers can optimize operations, reduce waste, and improve decision-making, ultimately leading to a more streamlined and responsive production environment. The shift towards AI-driven solutions underscores the industry's commitment to embracing technology to drive growth and competitiveness in an increasingly data-centric world.

Technology and IIoT / Robotics
Hanwha Aerospace joins Milrem Robotics for Romania unmanned vehicle program

Hanwha Aerospace joins Milrem Robotics for Romania unmanned vehicle program

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

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Pro Universe Robotics Unveils Industrial Embodied Intelligence Product Matrix 2.0

Pro Universe Robotics Unveils Industrial Embodied Intelligence Product Matrix 2.0

Pro Universe Robotics has unveiled its latest innovation, the Product Matrix 2.0, which features the world's first sub-millimeter precision data acquisition solution. This groundbreaking product aims to tap into the trillion-yuan industrial market, enhancing operational efficiency and accuracy for various industries. The launch took place recently, showcasing the company's commitment to advancing industrial embodied intelligence. By integrating cutting-edge technology, Pro Universe Robotics seeks to address the growing demand for precision in data collection and analysis, positioning itself as a leader in the rapidly evolving robotics sector.

HumanoidRobotics IPO
Why traditional robotics data collection is obsolete and what replaces it

Why traditional robotics data collection is obsolete and what replaces it

Eric Chan has highlighted Rhoda AI's groundbreaking strategy in the field of robotics, emphasizing the company's use of video data to enhance the scalability and efficiency of machine learning processes. In a recent discussion, Chan pointed out that traditional methods of data collection in robotics have become outdated, necessitating a shift towards more advanced techniques. This innovative approach not only streamlines the learning process for robots but also addresses the limitations of conventional data gathering methods. The insights shared by Chan underscore the importance of adapting to new technologies in order to improve robotic capabilities and performance.

Artificial Intelligence Business Resources News Opinion Podcast Robots / Platforms
Genesis AI Unveils Foundation Model, Hand & Data Collection System to Develop Human-Level Physical Manipulation for Robotics

Genesis AI Unveils Foundation Model, Hand & Data Collection System to Develop Human-Level Physical Manipulation for Robotics

Genesis AI has introduced a groundbreaking robotics foundation model named GENE-26.5, accompanied by a proprietary robotic hand and a data collection system aimed at enhancing the ability of robots to learn complex physical tasks by observing human behavior. This innovative system seeks to tackle the challenges associated with gathering substantial amounts of usable training data necessary for teaching robots to perform intricate tasks effectively. The unveiling of GENE-26.5 marks a significant advancement in the field of robotics, as it promises to streamline the learning process for robots, making them more adept at mimicking human actions.

AI AI Use Cases Robotics Eclipse Eric Schmidt Foundation AI Model for Robotics
Ouster Releases Family of ‘Native Color Lidar’ Sensors for Robotics, Autonomous Vehicles

Ouster Releases Family of ‘Native Color Lidar’ Sensors for Robotics, Autonomous Vehicles

Ouster has launched a groundbreaking series of digital lidar sensors, the Rev8 family, which the company claims to be the world's first native color lidar platform. This innovative technology is designed for applications in robotics, autonomous vehicles, and industrial AI systems. The announcement was made recently, showcasing the sensors' capabilities powered by Ouster's advanced L4 Silicon architecture, which enhances their range and performance. This development marks a significant advancement in lidar technology, aiming to meet the growing demand for high-quality sensing solutions in various industries.

AI AI Use Cases Robotics autonomous driving industrial AI LiDAR
RobotToday Initiative

Robotics needs a service framework.

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