A single destination for timely, editor-curated robotics news from around the world.
XSTO Mobility has unveiled the X12 all-terrain mobility robot, priced at $27,999, designed to assist wheelchair users in overcoming stairs and other obstacles. Weighing approximately 115 kg and capable of carrying up to 136 kg, the X12 features a hybrid wheel-track chassis that allows it to navigate stairs autonomously, with a climbing speed of 25 steps per minute and descending speed of 30 steps per minute. The robot utilizes LiDAR and AI algorithms for real-time terrain perception, enabling it to adjust its driving mode and power output dynamically. The introduction of the X12 is significant as it addresses mobility challenges faced by individuals with disabilities, particularly in environments lacking accessibility features. With the ability to climb slopes of up to 40 degrees and traverse gaps of 300 mm, the X12 offers a solution that goes beyond traditional mobility aids. XSTO Mobility, based in Zhongshan, Guangdong, has been developing embodied mobile robots for over a decade, and the X12 represents a substantial advancement in this field, emphasizing user independence and safety. Looking ahead, XSTO Mobility has reported that orders for the X12 are already booked until April 2026, indicating strong market demand. The robot is currently available in over 70 countries, and its innovative design has garnered multiple awards. No further timeline was disclosed at the time of publication regarding additional product releases or enhancements.
leaderobot.com By Leaderobot 1 hour ago Mobility Robots Assistive Technology AI Healthcare Innovation
Academician Yin Zhouping has highlighted the significant advancements in humanoid robots, noting a transformative shift from basic mobility to sophisticated intelligent interaction. During a recent discussion, he emphasized the critical role of tactile sensing and emotional computing in facilitating more natural interactions between humans and robots. Yin outlined a strategic development pathway that aims to enhance these capabilities, underscoring the importance of integrating advanced technologies to create robots that can better understand and respond to human emotions. This evolution in robotics is poised to redefine human-robot relationships, making them more intuitive and effective in various applications.
leaderobot.com By Leaderobot May 13, 2026 Humanoid Robots Tactile Sensing AI Interaction Robotics Technology
Researchers and engineers are advancing the next frontier of artificial intelligence, focusing on the development of machines capable of movement, visual perception, and autonomous decision-making. This initiative, which has gained momentum in recent months, aims to enhance the functionality and adaptability of AI systems across various sectors, including healthcare, transportation, and robotics. The push for these advancements is driven by the increasing demand for intelligent systems that can operate in dynamic environments and perform complex tasks without human intervention. By integrating advanced sensors and machine learning algorithms, developers are working to create AI that not only processes information but also interacts with the physical world in real-time. This evolution in AI technology is taking place in research laboratories and tech hubs around the globe, with significant contributions from universities, private companies, and government agencies. As these entities collaborate, they are exploring innovative applications that could revolutionize industries and improve everyday life. The ongoing research is expected to culminate in prototypes and pilot programs by early 2024, showcasing the potential of these intelligent machines. As the field progresses, ethical considerations and safety measures are also being prioritized to ensure responsible deployment and integration into society. The ultimate goal is to create AI systems that enhance human capabilities and contribute positively to various aspects of life.
InterestingEngineering.com By Aamir Khollam Jun 09, 2026
In a growing trend within the hospitality industry, businesses are increasingly utilizing robots in restaurants and hotels, while also fostering inclusivity by employing individuals with disabilities to operate these machines. These telepresence robots, often referred to as avatar robots, feature the operator's face displayed on a screen, ensuring a human connection in service delivery. This innovative approach not only enhances customer experience but also provides meaningful job opportunities for those with mobility challenges. By integrating technology with a commitment to inclusivity, these establishments are redefining service roles and promoting accessibility in the workforce.
SCMPTech By Advertising partner Jul 05, 2026
Hello Robot has announced the launch of Stretch 4, a new version of its mobile robot designed for practical household tasks. This announcement comes as the company aims to transition from research-focused robotics to a deployable solution for home use, particularly for individuals with severe mobility impairments. The unveiling took place today, with the robot's design emphasizing mobility and manipulation over humanoid features. Stretch 4 features an advanced omnidirectional base allowing it to move in any direction, enhancing user control. The robot is equipped with a sophisticated sensor suite for improved navigation and autonomy, including cameras and lidar technology. Co-founders Aaron Edsinger and Charlie Kemp highlighted the challenges faced during the design process, aiming to avoid overcomplicating the robot while ensuring it meets real-world needs. The robot is intended for pilot deployments in homes, with the goal of gathering data to refine its capabilities for everyday use. Unlike humanoid robots, which may not effectively serve individuals with disabilities, Stretch 4's wheeled design is seen as more practical and safer for home environments. Priced at $29,950, Stretch 4 is positioned as an affordable option in the mobile manipulation market, with plans for further development leading to a commercially viable assistive robot in the near future.
Spectrum.ieee.orgAutomaton By Evan Ackerman May 12, 2026 Hello-robot Home-robots Humanoid-robots Mobile-manipulator Mobility-impaired
Robotics firm 1X has revealed the advanced reinforcement learning system that drives the movement of its NEO humanoid, following the introduction of its Redwood AI brain. This innovative unified controller allows the robot to perform a variety of human-like actions, including walking, running, and climbing stairs, utilizing only stereo vision for navigation. The announcement highlights 1X's commitment to enhancing robotic mobility and intelligence, showcasing the potential for humanoid robots to interact more naturally within human environments.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Jun 11, 2025 reinforcement-learning 1X-technologies Redwood humanoid-robots locomotion robotics-ai
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 12 hours ago Research Robotics Autonomous vehicles Artificial intelligence Computer science and technology Machine learning
Researchers are delving into the intricate field of humanoid robot locomotion, focusing on the technological advancements that facilitate walking, running, and jumping. This exploration, which has gained momentum in recent months, emphasizes innovations in joint mechanics, control systems, and materials that contribute to enhanced mobility in robots. Despite these advancements, the study also underscores the ongoing challenges in replicating human-like movement and stability, highlighting the complexity of achieving fluid and reliable locomotion in robotic designs. As the field progresses, experts aim to bridge the gap between current capabilities and the sophisticated movements characteristic of human beings, paving the way for more versatile and functional humanoid robots in the future.
leaderobot.com By Leaderobot Jul 09, 2026 Humanoid Robots Robot Mobility AI Technology Robotics Innovation
RuShen Robotics has announced a major funding round aimed at advancing the use of embodied intelligent robots in elderly care facilities. The company specializes in creating robots designed to assist with a range of caregiving tasks, addressing the challenges presented by real-life scenarios. Their newest innovation, the QiCare robot, is engineered to effortlessly switch between mobility and caregiving functions, with the goal of optimizing the elderly care experience. This funding will enable RuShen Robotics to further develop and deploy these advanced robotic solutions, enhancing support for caregivers and improving the quality of life for elderly individuals.
leaderobot.com By Leaderobot Jul 06, 2026 Elderly Care Robots Healthcare Robotics AI Technology Robotics Innovation
China's robotics industry has achieved significant advancements in humanoid robots and physical artificial intelligence, marking a pivotal moment in the sector's development. These breakthroughs were reported in October 2023, showcasing the country's commitment to enhancing its technological capabilities. The innovations include improved mobility and functionality in humanoid robots, which are now capable of performing complex tasks that were previously thought to be the domain of human workers. This progress is driven by a combination of increased investment in research and development, collaboration between universities and tech companies, and a growing demand for automation across various industries. As China aims to position itself as a global leader in robotics, these developments not only highlight the nation's technological prowess but also its strategic focus on integrating AI into everyday applications. The advancements are expected to have far-reaching implications, potentially transforming sectors such as manufacturing, healthcare, and service industries. By leveraging cutting-edge technology, China is setting the stage for a future where robots play an integral role in both the economy and society.
PanDaily.com By [email protected] (Pandaily) Jun 23, 2026 Robotics
A research team from China has successfully created the HUSKY framework, which empowers humanoid robots to learn and perform skateboarding skills, such as propulsion and steering. This groundbreaking development, unveiled recently, demonstrates the robots' ability to maintain balance and stability across different terrains. The HUSKY framework employs advanced dynamic control techniques, marking a significant advancement in robotic mobility and agility. This innovation not only highlights the potential for humanoid robots in recreational activities but also paves the way for future applications in various fields requiring enhanced movement and coordination.
leaderobot.com By Leaderobot May 20, 2026 Humanoid Robots Robotics Control AI Skateboarding Technology
Researchers from Virginia Tech and Cornell University have unveiled the Kiri-Spoon, a groundbreaking eating utensil tailored for assistive robots. This innovative spoon, inspired by the intricate art of Kirigami, features a unique design that allows it to change shape, enabling it to securely grasp various types of food. The development aims to enhance the feeding experience for individuals with mobility challenges, making mealtime more accessible and manageable. The Kiri-Spoon represents a significant advancement in assistive technology, addressing the needs of those who require support during meals.
leaderobot.com By Leaderobot May 20, 2026 Assistive Robotics Eating Assistance Robotic Utensils Healthcare Technology
As the manufacturing and logistics sectors evolve, JAKA is pioneering advancements in cobot palletizing, emphasizing flexibility and autonomy. Customers are increasingly demanding systems that can adapt to varying layouts, product types, and throughput requirements without extensive reconfiguration. The integration of six-axis robot arms is central to this shift, enabling dynamic handling of mixed loads and pallet patterns. A key trend in this field is the combination of autonomous mobile robots with collaborative manipulators. This integration allows for palletizing tasks to occur beyond fixed stations, enabling cobots to move between production lines and adjust to seasonal shifts or temporary capacity needs. The use of modular mechanical interfaces and standardized communication protocols facilitates scalable system development, transforming cobot palletizing into a shared resource that enhances operational efficiency and investment planning. Advanced control capabilities are also crucial for the future of cobot palletizing. Features such as precise path planning, responsive motion control, and adaptable force management enable collaborative robots to handle various packaging formats consistently. For instance, the JAKA Zu7 robot can seamlessly transition between palletizing and secondary tasks like automated screwdriving, adjusting torque settings as needed. Looking forward, JAKA envisions a future where cobot palletizing is characterized by autonomous mobility, modular design, and intelligent control. This approach aims to ensure that palletizing solutions evolve alongside production demands, rather than limiting them. By aligning collaborative robots with mobile platforms and adaptable end-effectors, JAKA is committed to developing systems that integrate into broader automation strategies, supporting reliable operations and sustainable growth in modern automated facilities.
jaka.com By JAKA Apr 13, 2026
Honda's Prototype 2 (P2), a groundbreaking autonomous humanoid robot, will be honored as an IEEE Milestone during a dedication ceremony on April 28 at the Honda Collection Hall in Japan. Developed in 1996, P2 was the first robot capable of walking without falling, marking a significant advancement in robotics. The IEEE Nagoya Section highlighted that P2 demonstrated the feasibility of humanlike locomotion, setting new standards in the field. The journey to create P2 began in 1986 when Honda researchers aimed to develop a "domestic robot" that could assist with household tasks. Through extensive analysis of human movement and numerous prototypes, the team successfully engineered P2 to walk, climb stairs, and perform various tasks autonomously. This innovation shifted the focus of robotics from industrial applications to designs centered on human interaction. P2's influence extends beyond its initial release, inspiring advancements in humanoid robots and contributing to research in biomechanics and artificial intelligence. The recognition as an IEEE Milestone underscores P2's role in propelling the field of humanoid robotics forward, demonstrating the potential for robots to assist humans in meaningful ways. The plaque commemorating this achievement will be installed at the Honda Collection Hall, celebrating the technical benchmarks set by P2 in mobility, autonomy, and human-robot interaction.
Spectrum.ieee.orgAutomaton By Joanna Goodrich Mar 25, 2026 Ieee-history Ieee-milestone Honda Robotics Asimo Type-ti
KUKA is advancing sustainable mobility through innovative technology by securing a significant follow-up order from a major automotive manufacturer in the United States. This new order includes 12 additional friction welding cells equipped with integrated robots, aimed at supporting the expansion of electric vehicle production. This development comes after KUKA's successful delivery of 23 similar cells last year, highlighting the company's commitment to enhancing efficiency and sustainability in the automotive sector. The strategic partnership underscores the growing demand for electric vehicles and the need for advanced manufacturing solutions to meet this demand.
kuka.com By KUKA Jul 09, 2025
On Saturday, Beijing hosted the inaugural half-marathon exclusively for humanoid robots, marking a significant intersection of technology and athletics. The event featured 20 teams from various Chinese universities, enterprises, and research institutions, showcasing their robotic innovations. Alongside the robots, approximately 12,000 human runners participated, creating a unique atmosphere of competition and collaboration. The Tiangong Robot Ultra, one of the standout competitors, maintained a steady pace of seven to eight kilometers per hour, demonstrating the advancements in robotic mobility and endurance. This pioneering event not only highlighted the capabilities of humanoid robots but also aimed to inspire further research and development in robotics and artificial intelligence. The successful execution of the race reflects the growing interest in integrating technology into sports, paving the way for future competitions that blend human and robotic participation.
TechNode.com By Jessie Wu Apr 21, 2025 Heavy Hitters Content and entertainment E-commerce and New Retail Highlight News
Researchers at Carnegie Mellon University's Robotics Institute have unveiled a new learning-based control framework named Agile But Safe (ABS). This innovative framework, developed by a team including Tairan He, Chong Zhang, Wenli Xiao, Guanqi He, Changliu Liu, and Guanya Shi, allows quadrupedal robots to navigate both indoor and outdoor environments without the risk of collisions. The introduction of ABS aims to enhance the safety and efficiency of robotic movement in confined spaces, addressing a critical challenge in robotics. By implementing this framework, the researchers have demonstrated that robots can achieve high-speed mobility while maintaining secure and obstacle-free navigation.
ri.cmu.edu By Mallory Lindahl Jun 13, 2024 Uncategorized
A California-based startup has unveiled the fourth generation of its home assistance robot, Stretch. This latest model was introduced to the public in October 2023, showcasing advancements in technology aimed at enhancing household efficiency. The robot is designed to assist with various tasks around the home, reflecting the company's commitment to improving daily living through innovative automation solutions. The launch event highlighted the robot's upgraded features, which include improved mobility and enhanced user interaction capabilities, making it a more effective tool for homeowners. The development of Stretch is part of a broader trend in the tech industry, where companies are increasingly focusing on smart home devices to meet the growing demand for convenience and support in everyday life.
TechCrunch By Tim Fernholz Jun 04, 2026 AI Robotics Startups Exclusive hello robot
Massimo Group has officially launched the prototype development of autonomous patrol electric vehicles, aiming to penetrate the $50.4 billion U.S. security services industry. This initiative, which began in October 2023, focuses on integrating artificial intelligence into patrol and intelligent security mobility systems. By leveraging advanced technology, the company seeks to enhance security operations and improve efficiency in monitoring and response capabilities. The move is part of Massimo Group's broader strategy to innovate within the security sector, addressing growing demands for smarter and more effective security solutions.
RoboticsTomorrow.com May 29, 2026
LG Group Chairman Koo Kwang-mo and Nvidia CEO Jensen Huang convened on Monday at LG Twin Towers in Yeouido, western Seoul, to explore potential collaborations in robotics, AI data centers, and mobility. The meeting, characterized by LG as a top management discussion, was attended by LG Vice Chairman and COO Kwon Bong-seok and LG Electronics CEO Lyu Jae-cheol. This encounter marked the second meeting between Koo and Huang within three days, following a dinner on Friday in Hongdae that included the chairmen of SK and Naver. The discussions reflect a growing interest in leveraging advanced technologies to enhance operational capabilities and foster innovation in various sectors.
KoreaHerald.com By The Korea Herald Jun 08, 2026 All News
Researchers from various Chinese universities have unveiled ExoTendon, an innovative bionic exoskeleton tendon designed to mimic human muscle sensors. This groundbreaking development enables robotic muscles to autonomously adjust their force, which is expected to greatly improve walking balance and speed for stroke patients. The project highlights the potential for advanced rehabilitation technologies to enhance mobility and quality of life for individuals recovering from strokes. The announcement comes as part of ongoing efforts to integrate robotics and healthcare, showcasing how technology can address specific medical challenges.
leaderobot.com By Leaderobot May 20, 2026 Bionic Exoskeletons Artificial Muscles Rehabilitation Technology Biomedical Engineering
Path Robotics has unveiled Rove™, a mobile robotic welding system that integrates its advanced Obsidian™ physical AI model with a quadruped robot, marking a significant advancement in welding automation. Announced on April 16, 2026, this innovative system allows for intelligent welding directly at the workpiece, rather than requiring the part to be moved to a fixed welding cell. This development comes at a crucial time as industries face skilled welder shortages and the challenges of large-scale fabrication environments, such as shipbuilding and heavy construction. Rove is designed to operate effectively in high-variability settings, overcoming the traditional limitations of legged robots in precision welding. Early adopter Saronic Technologies, a leader in autonomous maritime vessels, is set to evaluate Rove's capabilities in its shipbuilding operations in Franklin, Louisiana. John Morgan, Head of Manufacturing at Saronic, emphasized the importance of adaptable tooling in modernizing shipyard operations. The Rove system will be showcased at the Sea-Air-Space 2026 maritime expo in National Harbor, Maryland, from April 19 to 22, where attendees can witness its capabilities firsthand. Path Robotics aims to revolutionize manufacturing processes by combining artificial intelligence, machine learning, and computer vision to enhance production quality and efficiency. For more information, interested companies can visit Path Robotics' website.
RoboticsTomorrow.com Apr 16, 2026
In May 2026, the Journal of Field Robotics published a significant study examining advancements in autonomous robotic systems. The research, conducted by a team of engineers and scientists, focuses on the integration of artificial intelligence in field robotics, aiming to enhance operational efficiency and adaptability in various environments. The study highlights the application of these technologies in agriculture, disaster response, and environmental monitoring, showcasing their potential to revolutionize traditional practices. The research was motivated by the increasing demand for automation in sectors facing labor shortages and the need for more efficient resource management. By employing advanced machine learning algorithms, the team demonstrated how robots can learn from their surroundings and make real-time decisions, improving their functionality and effectiveness in complex tasks. The findings were presented at a conference held in a leading robotics research facility, where experts gathered to discuss the implications of these innovations. The study not only contributes to the academic discourse on robotics but also offers practical insights for industries looking to implement autonomous solutions. As the field continues to evolve, this research underscores the importance of interdisciplinary collaboration in driving technological advancements that address contemporary challenges.
JournalofFieldRobotics By Joanne Yoon, Ye‐Lin Kim, Sung‐Joon Ye, Young‐bong Bang Apr 08, 2026 RESEARCH ARTICLE
A new approach to rehabilitation is emerging as healthcare professionals explore the benefits of hippotherapy, which aims to help patients regain mobility and independence following serious illnesses. Traditionally reliant on horses, this therapeutic method is now being enhanced through the integration of innovative technologies and robotics, allowing patients to experience the benefits of therapeutic riding without the need for live animals. This advancement is particularly significant for individuals who may not have access to horses or who require a more controlled environment for their therapy sessions. As the healthcare community continues to prioritize patient-centered care, the incorporation of these modern techniques is expected to broaden the scope of rehabilitation options available, ultimately improving outcomes for patients.
kuka.com By KUKA Aug 18, 2025
XPeng, a leading Chinese electric vehicle manufacturer, is intensifying its focus on physical AI as competition in the EV sector escalates. CEO He Xiaopeng will assume control of the company's robotics division, coinciding with the anticipated mass production and commercialization of its humanoid IRON robots. This strategic move aims to diversify XPeng's offerings beyond electric vehicles, with plans to launch commercial sales in China and internationally next year. The announcement comes amid challenges for XPeng, including a significant decline in vehicle deliveries and stock performance, with a 24.34% drop over the past year. In the first quarter of 2026, the company reported a 33.3% decrease in vehicle deliveries compared to the same period in 2025, alongside a 295.9% increase in net losses. Despite these setbacks, XPeng's gross margin improved, and analysts have mixed but generally favorable views on the company's stock, with several upgrades following its recent earnings report. XPeng aims to deliver between 100,000 and 106,000 vehicles in the second quarter of 2026, projecting revenue growth of approximately 7.3% to 13.8% year-over-year. As XPeng ventures into robotics, it seeks to position itself as a leader in intelligent mobility solutions, leveraging advanced technology to enhance customer experiences.
YahooFinance Jun 14, 2026
In 1987, British photographer Richard Greenhill, driven by a passion for robotics, initiated a weekly gathering in his attic to develop a life-size humanoid robot, the Shadow Walker, capable of performing practical tasks like carrying luggage. Unable to secure support from his startup, Intergalactic Robots, Greenhill enlisted the help of a group of DIY enthusiasts, known as the Shadow Group, who met every Wednesday to work on the project, fueled by homemade spaghetti dinners. With contributions from robotics expert David Buckley, the team designed the robot using a simplified skeletal structure and pneumatic "air-muscles" for movement, aiming to achieve balance and mobility. Despite their efforts, the Shadow Walker struggled to walk, ultimately failing to compete effectively at the 1st International Robot Olympics held in Glasgow in September 1990, where it was outperformed by other entries. The Olympics showcased over 50 robots from various countries, highlighting both the advancements and limitations in robotics at the time. While the Shadow Walker did not succeed in its primary goal, it laid the groundwork for future developments in robotics. In 1997, the Shadow Group transitioned into a registered company, Shadow Robot, which now focuses on creating advanced robotic hands, reflecting a shift from walking robots to specialized dexterity in robotic technology. Despite significant progress in robotics, the journey toward creating truly functional humanoid robots continues.
Spectrum.ieee.orgAutomaton By Allison Marsh May 31, 2026 Past-forward Type-departments Humanoid-robots Shadow-robot Walking-robots Pneumatic-robots
IEEE Spectrum robotics has released its latest edition of "Video Friday," showcasing a variety of innovative robotics videos and announcing upcoming robotics events scheduled for 2026. Notable events include ICRA 2026 in Vienna from June 1-5, and the Summer School on Multi-Robot Systems in Prague from July 29 to August 4. Among the highlights, Boston Dynamics' Atlas robot demonstrates significant advancements in strength and adaptability, showcasing its ability to lift heavy objects and navigate complex environments using advanced reinforcement learning and control systems. This marks a pivotal moment for humanoid robots as they transition from laboratory settings to dynamic industrial applications. Additionally, the SpikerBot, a robot designed to be programmed by wiring neurons instead of traditional coding, has successfully reached its funding goal on Kickstarter. Other innovations include wheeled-legged robots that enhance mobility and a biomimetic robotic hummingbird developed at the Advanced Vertical Flight Laboratory, which mimics natural flight dynamics. The release also features advancements in construction technology, with Dusty Robotics introducing the FieldPrinter 2, a more efficient and intelligent version of its predecessor, and Noble Machines showcasing their autonomous robots designed for hazardous industrial tasks at NVIDIA GTC 2026. These developments reflect a broader trend in robotics, where technology is increasingly integrated into real-world applications, enhancing efficiency and safety across various industries.
IEEESpectrumRobotics By Evan Ackerman May 22, 2026 Humanoid-robots Video-friday Robot-videos Educational-robots Biomimetics Quadruped-robots
Asia's premier smart manufacturing innovation expo, Automation World 2026 (AW2026), will be held at Coex in Seoul from March 4 to 6. JAKA Robotics will showcase its cutting-edge technologies at Booth D711, featuring the JAKA Lumi Embodied AI Platform and the JAKA K1 Dual-arm Robot. Attendees will have the opportunity to see firsthand how advancements in AI vision, smart mobility, and external axes are pushing the limits of robotic capabilities. The event aims to highlight the versatility of JAKA robots across various sectors, including education and commerce, and invites industry professionals and enthusiasts to explore the future of smart factories.
jaka.com By JAKA Feb 06, 2026
IEEE Spectrum robotics has released its latest edition of Video Friday, showcasing a variety of innovative robotics videos and announcing upcoming events in the field. Among the highlights is the Robotic Autonomy in Complex Environments with Resiliency (RACER) program, which is nearing completion after extensive collaboration with the U.S. Army and Marine Corps. This program is expected to leave a lasting impact on military operations and stimulate private-sector investment in autonomous technologies. Notable advancements include the introduction of COSA, a cognitive operating system that enhances humanoid robots' capabilities for high-level cognition and motion control. Meanwhile, the 1X World Model has made significant strides in robot learning, allowing its NEO model to perform tasks autonomously based on voice or text prompts, even for unfamiliar objects. In assistive technology, the GuideData Dataset has been launched to improve interactions between guide dog trainers and visually impaired individuals, aiming to enhance mobility and safety. Additionally, Fourier's Care-Bot prototype is gaining attention for its interactive features at CES 2026. In environmental monitoring, ETH Zurich has developed an autonomous quadruped robot for volcanic gas measurements, successfully tested on Mount Etna. Humanoid robots have also made progress in industrial logistics, completing proof-of-concept testing at Siemens's factory in Erlangen. Columbia Engineers have created a robot capable of learning facial lip motions for speech and singing through observational learning, marking a significant milestone in robotics. Lastly, DEEP Robotics showcased its quadruped robots' capabilities in complex firefighting scenarios, while Synapticon introduced its POSITRON platform to enhance safety in humanoid robots for real-world applications.
Spectrum.ieee.orgAutomaton By Evan Ackerman Jan 16, 2026 Robotics Video-friday Bipedal-robots Humanoid-robots Quadruped-robots Industrial-robots
ABB Robotics completes its AI-powered Visual SLAM AMR portfolio with new autonomous forklift Visit http://go.abb/robotics for further information -The new Flexley Stack F712 extends ABB Robotics’ AI-powered Visual SLAM technology to autonomous forklifts, enabling pallet transport and high-density storage. -Customers can now deploy mixed fleets of Visual SLAM-powered tugs, movers and forklifts on a common navigation, fleet management and software platform. -Powered by ABB Robotics' AMR Studio, the portfolio enables up to 20% faster commissioning while ensuring seamless interoperability and safe, reliable operation. 07/07/26, 07:10 AM | Industrial Robotics, Mobile Robots | ABB Inc. ABB Robotics is expanding its Autonomous Mobile Robotics (AMR) portfolio with the launch of the Flexley® Stack F712, creating a complete interoperable ecosystem across all major Visual SLAM AMR types. Combining autonomous forklifts, tugs and movers on one platform, ABB Robotics enables customers to automate a broader range of material-handling and intralogistics processes. Offering market-leading accuracy, the F712 is designed for demanding material handling, end-of-line storage and warehouse operations across industries including automotive manufacturing, helping increase efficiency, flexibility and scalability. More Headlines A3's Automate 2026 Breaks Records as Demand for Robotics, AI and Automation Grows NVIDIA and Hugging Face Bring New Models and Frameworks to LeRobot for the Open Robotics Community Palladyne AI Executes $4.2 Million U.S. Air Force Contract to Advance Swarming Capabilities for Integrated Cross-Domain Operations UMA Unveils Its Vision for the Next Generation of Humanoid Robots Robbyant Unveils LingBot-Depth 2.0 and LingBot-Vision to Redefine Robotic Spatial Perception Articles Unleash AI Innovation: The Power of NVIDIA RTX PRO 6000 Blackwell Workstation Edition Fueled by PNY-Supplied GPUs Automate 2026 Q&A with DESTACO Automate 2026 Q&A with Roboteon Advances in Robots to See & Interpret within Warehouse Environments Building Resilient Fulfillment Networks with Robotics and Real-Time Logistics Data "Across intralogistics operations, businesses are being asked to process greater volumes in less time, while working with increasingly limited resources," said Marc Segura, President, ABB Robotics. "They are under pressure to move goods faster and with greater flexibility, while labour availability is becoming a critical constraint. As part of our journey to more autonomous and versatile robotics (AVRTM), we have combined advanced vision, mobility and intelligence in the Flexley Stack F712 forklift AMR, completing our scalable, AI-powered AMR portfolio." F712 is versatile, capable of handling multiple load types and sizes - including open and closed pallets, containers or racks- up to 2,000 kg and reaching heights of 8.5 meters. The Flexley Stack AMR F712 joins the Flexley Tug and Flexley Mover in ABB Robotics' growing Visual SLAM AMR portfolio. Applications include intralogistics tasks such as warehouse storage and retrieval, as well as line supply, end-of-line handling, body- and press-shop and drive-in and light buffer in the automotive and industries sector. Unlike conventional AMR forklifts on the market, F712 uses Visual SLAM to map and navigate its environment, eliminating the need for pre-installed infrastructure like markers or reflectors. The AI-enabled Visual SLAM supports the autonomous decisions required to operate in complex, dynamic warehouse operations with a market-leading positional accuracy of ±10 mm. Together with AMR Studio®, this shortens commissioning times by up to 20 percent and creates a versatile and reliable system that can adapt instantly when a warehouse or production floor layout changes. Certified to the latest ISO and ANSI safety standards, Flexley Stack F712 can safely operate at class-leading speeds of up to 1.7 m/s while loaded. F712 is fully integrated with AMR Studio and is VDA5050 compatible, enabling seamless integration with ABB Robotics' Visual SLAM AMRs and existing systems within a unified project. This makes it easy to manage complex projects and integrate different types of mobile robots. The no-code, drag-and-drop software suite supports rapid setup, fleet coordination, traffic management and real-time visualization, allowing ABB Robotics' tugs, movers and forklifts to operate together in the same layout for scalable turnkey automation projects. ABB Robotics as one of the world's leading robotics companies, is the only company with a comprehensive and integrated AI-powered portfolio covering robots, cobots and Autonomous Mobile Robots (AMRs), designed and orchestrated by our value-creating software. We help companies of all sizes and sectors - from automotive to electronics and logistics - to outperform by becoming more resilient, flexible and efficient. ABB Robotics is at the forefront of developing and commercializing a new generation of Autonomous Versatile Robotics
RoboticsTomorrow.com Jul 07, 2026
Genesis AI, a French startup backed by former Google CEO Eric Schmidt, has introduced Eno, a non-humanoid robot engineered for practical use in various industries. Unveiled recently, Eno distinguishes itself from traditional humanoid robots with its wheeled base and foldable panels, emphasizing mobility and adaptability for tasks in manufacturing and logistics. The startup's mission is to transform robotic design by prioritizing functionality over human-like features, aiming to enhance efficiency in real-world applications.
leaderobot.com By Leaderobot Jun 18, 2026 Robotics AI Industrial Automation Non-Humanoid Robots
At Automate 2026, ABB Robotics will showcase its latest advancements in physical AI, including the debut of its Physical AI Toolchain, designed to enhance the capabilities of industrial robots. The event, taking place at Booth #1241 on June 17, 2026, will feature demonstrations of the Autonomous Versatile Robotics (AVR™) system, which equips robots with advanced sensory and mobility functions to operate more efficiently across various applications. Marc Segura, President of ABB Robotics, emphasized that physical AI is transforming traditional robotic operations, allowing for faster, safer, and smarter performance. The new toolchain facilitates the training of robots using simulated and real-world data, bridging the gap between simulation and practical application with high precision. This initiative follows ABB's partnership with NVIDIA, which aims to enhance robot training through advanced simulation technologies. Among the highlights will be the introduction of ABB's high-speed PoWa™ cobot family and a collaboration with Aura Sensae, integrating intelligent sensing technology for improved human-robot interaction. Visitors can expect to see demonstrations of AI-powered palletizing systems, intuitive interfaces, and real-time interaction capabilities, showcasing ABB's commitment to human-centric robotics. Additionally, ABB Robotics will host special events focused on automotive and software innovations on June 23 and 24, respectively, further engaging with industry stakeholders.
RoboticsTomorrow.com Jun 17, 2026
Cornell University engineers have unveiled an innovative robotic collective known as the Cross-Link Collective, which operates with a unique fluidity reminiscent of natural materials rather than traditional machines. This groundbreaking system comprises numerous small robots that, while individually limited in mobility, demonstrate remarkable coordination and adaptability when functioning as a cohesive unit. The development aims to enhance the robots' ability to reshape and respond to their environment without the need for centralized control, showcasing a significant advancement in robotics and collective behavior. The research highlights the potential for these robots to be utilized in various applications, from environmental monitoring to search and rescue missions, emphasizing their versatility and efficiency in dynamic settings.
Robohub.org By Cornell University Jun 15, 2026
In a recent conversation, Claire spoke with Ahti Heinla, co-founder and CEO of Starship Technologies, a pioneer in the field of autonomous delivery. The discussion focused on the company's innovative AI-powered delivery robots, which are designed to navigate streets and pavements independently. Starship Technologies has established itself as a leader in the autonomous delivery market, leveraging advanced technology to create robots that operate seamlessly in real-world environments. Heinla, who was also instrumental in the development of Skype, highlighted the growing demand for efficient delivery solutions and the role of AI in transforming logistics. The conversation underscored the potential of these robots to enhance urban mobility and streamline last-mile delivery services, reflecting a significant shift in how goods are transported in increasingly congested cities.
Robohub.org By Robot Talk May 29, 2026
The 2026 Smart Elderly Care Robot Competition took place in Langfang, where 57 teams presented cutting-edge robotic solutions designed to improve the quality of care for the elderly. The event highlighted various technologies, including exoskeletons and care robots, which were tested in real-life scenarios to tackle challenges such as mobility assistance and emotional support for seniors. This competition aims to foster innovation in elderly care, addressing the growing need for effective solutions as the population ages. Participants showcased their advancements, demonstrating how robotics can play a vital role in enhancing the lives of older adults.
leaderobot.com By Leaderobot May 29, 2026 Elderly Care Robots Healthcare Technology Robotics Assistive Technology
The 2026 Smart Elderly Care Robot Application Competition commenced in Langfang, featuring innovative robots aimed at aiding the elderly in daily tasks. Participants showcased their designs, which included solutions for mobility support, health management, and emotional companionship, all targeting the pressing challenges encountered in elderly care. The competition prioritizes practical applications and safety, focusing on the real-world effectiveness of these technologies rather than just theoretical concepts.
leaderobot.com By Leaderobot May 25, 2026 Elderly Care Robots Healthcare Robotics Assistive Technology Robotics Competitions
Engineers at Cornell University have introduced an innovative robotic collective known as the Cross-Link Collective, which operates with a unique approach that mimics the behavior of natural materials. This system, unveiled recently, comprises numerous small robots that, while individually limited in mobility, can work together to achieve coordinated and sustained motion. The development aims to enhance adaptability in robotics, allowing these machines to reshape and respond to their environment without the need for centralized control. This breakthrough could pave the way for more versatile applications in various fields, including manufacturing, search and rescue operations, and environmental monitoring.
TechXplore:Robotics May 21, 2026 Robotics
Engineers at Cornell University have unveiled an innovative robotic system that mimics the behavior of flowing liquids. This groundbreaking development, announced in October 2023, aims to enhance the versatility and adaptability of robots in various applications. By incorporating principles of fluid dynamics, the team has created a robot capable of navigating complex environments with unprecedented ease. The motivation behind this project stems from the desire to improve robotic mobility and functionality, particularly in scenarios where traditional rigid robots struggle. The researchers utilized advanced algorithms and soft materials to enable the robot to change shape and move fluidly, allowing it to overcome obstacles and traverse challenging terrains. This new robotic system has the potential to revolutionize fields such as search and rescue, environmental monitoring, and even medical applications, where flexibility and adaptability are crucial. The team's findings highlight the importance of interdisciplinary approaches in robotics, merging concepts from engineering, biology, and physics to create more efficient and capable machines.
InterestingEngineering.com By Neetika Walter May 20, 2026
Beijing's TianGong 3.0 humanoid robot has achieved a remarkable victory at the inaugural Robot Warrior Challenge, demonstrating its advanced autonomous navigation skills in complex environments. This triumph builds on its earlier success in a marathon event, highlighting a significant evolution from basic mobility to practical applications in real-world situations. The competition showcased cutting-edge robotics technology and emphasized the potential for humanoid robots to perform tasks that require adaptability and problem-solving in dynamic settings.
leaderobot.com By Leaderobot May 20, 2026 Humanoid Robots Robotics Competitions AI Autonomous Navigation
Faraday Future Intelligent Electric Inc. (FFAI), a California-based company specializing in AI-driven mobility and robotics, has emerged as a notable penny stock under $1, according to a recent report by TheFly. The company announced its Q1 2026 results on May 14, revealing initial sales revenue from its Embodied AI robotics division, which generated $512,000, nearly matching its total revenue for all of 2025. As of April 30, 2026, FFAI shipped 68 EAI robots and aims to deliver 200 units in the first quarter and over 1,500 throughout the year. Despite a net loss from operations of $35.9 million, the company reported a significant increase in stockholders’ equity by 148% to $19.2 million. In a strategic move to bolster its AI robotics initiatives, FFAI signed a memorandum of understanding on May 8 with Boston International Business School to establish the BIBS–FF AI Robotics Institute. This partnership, announced during the Berkshire Hathaway annual shareholders meeting in Omaha, aims to enhance education and development in the fields of robotics and artificial intelligence. While the agreement is currently non-binding and pending board approval, it reflects FFAI's commitment to expanding its technological ecosystem through academic collaborations. As the company continues to scale its operations, it remains to be seen how these developments will impact its market position and investment potential in the competitive AI landscape.
YahooFinance May 19, 2026
The Atlas perception team at Boston Dynamics recently provided valuable insights into the development of agile and adaptable humanoid robots. This initiative, which aims to enhance the capabilities of robots in various environments, showcases the company's commitment to advancing robotics technology. By focusing on improving perception and mobility, the team is working to create robots that can navigate complex terrains and perform tasks that require human-like agility. The insights were shared during a presentation held in October 2023, highlighting the team's innovative approaches and the challenges they face in the evolving field of robotics. This effort is part of Boston Dynamics' broader mission to push the boundaries of what robots can achieve, ultimately aiming to integrate them more seamlessly into everyday life and various industries.
BostonDynamicsBlog May 13, 2026
Hello Robot has launched Stretch 4, a new open-source robotics platform aimed at enhancing the integration of robots into everyday life. Announced on May 12, 2026, in Martinez, California, Stretch 4 is priced at $29,950 and is designed for researchers and developers working on Physical AI applications. The robot focuses on safe, intuitive human-robot interaction, making it suitable for assisting individuals with mobility impairments. Co-founder and CEO Aaron Edsinger emphasized that Stretch 4 is built to operate alongside people, featuring a compact and lightweight design that prioritizes user safety. The robot is equipped with advanced sensors, including 3D LiDAR and high-resolution cameras, enabling it to navigate complex environments and perform tasks like fetching drinks or closing blinds through a mobile app. The development of Stretch 4 reflects Hello Robot's commitment to creating robots that enhance the quality of life for various users, including children and older adults. By addressing the challenges of human-robot collaboration, the company aims to pave the way for robots to become a familiar presence in homes and workplaces. Charlie Kemp, CTO and co-founder, highlighted that the redesign of Stretch 4 was informed by customer feedback, resulting in a versatile platform that supports a wide range of applications.
RoboticsTomorrow.com May 12, 2026
Unitree Robotics has marked a significant advancement in robot mobility with a captivating demonstration of its latest technology. The event took place recently, showcasing the company's innovative capabilities in the field of robotics. This demonstration is part of Unitree's ongoing efforts to push the boundaries of what robotic systems can achieve, particularly in terms of mobility and functionality. By integrating advanced algorithms and cutting-edge hardware, the company aims to enhance the versatility and efficiency of its robots, making them more applicable in various industries. The unveiling not only highlights Unitree's commitment to innovation but also positions the company as a leader in the rapidly evolving robotics sector.
InterestingEngineering.com By Jijo Malayil Apr 24, 2026
Coco's delivery robots are now providing live data to enhance BlindSquare alerts, a navigation tool designed for individuals who are blind, visually impaired, or have mobility limitations. This integration aims to improve safety by helping users identify and avoid hazards on sidewalks. The collaboration between Coco and BlindSquare represents a significant advancement in assistive technology, enabling a more accessible urban environment. By utilizing real-time data from the delivery robots, the system enhances situational awareness for users, allowing them to navigate more confidently and independently. This initiative reflects a growing commitment to inclusivity and the use of innovative technology to address the challenges faced by those with disabilities.
RoboticsTomorrow.com Apr 21, 2026
A research team at KAIST has made significant advancements in quadrupedal robot technology, enabling these robots to navigate varied terrains without relying solely on visual input. This innovative system allows the robots to assess their surroundings using cameras and LiDAR sensors, enabling them to make autonomous decisions while walking, akin to how animals adapt their movements based on visual terrain analysis. The team anticipates that this technology will be applicable to a range of robotic platforms, including wheeled-legged robots and humanoid robots, potentially broadening the scope of robotic mobility and functionality.
TechXplore:Robotics Apr 13, 2026 Robotics
PNDBotics has unveiled a new video demonstrating the impressive advancements of its Adam humanoid robot, which has progressed from tethered laboratory prototypes to successfully navigating complex outdoor stairs. This significant development highlights the rapid evolution of the robot's capabilities in 2026. The video showcases the robot's enhanced mobility and adaptability, marking a pivotal moment in the field of robotics as it moves towards real-world applications. The demonstration reflects ongoing efforts to improve humanoid robots for various tasks, emphasizing the potential for future integration into everyday environments.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Apr 09, 2026 pndbotics China adam
In a recent study published in the Journal of Field Robotics, researchers have explored advancements in robotic navigation systems, focusing on improving the efficiency and accuracy of autonomous vehicles. Conducted in May 2026, the research aimed to address challenges faced by robots in dynamic environments, such as urban areas and disaster zones. The team, comprising experts in robotics and artificial intelligence, utilized a combination of machine learning algorithms and real-time data processing to enhance the decision-making capabilities of these vehicles. By integrating sensor data and environmental feedback, the robots demonstrated a significant increase in their ability to navigate complex terrains while avoiding obstacles. This research is particularly relevant as the demand for autonomous systems continues to rise in various sectors, including transportation, logistics, and emergency response. The findings highlight the potential for these technologies to improve safety and operational efficiency in real-world applications. As cities become more congested and the need for rapid response in emergencies grows, the advancements in robotic navigation could play a crucial role in shaping the future of autonomous mobility.
JournalofFieldRobotics By Hepeng Qu, Minglai Yang, Xuemei Liang, Helong Yu, Lina Zhang Apr 08, 2026 RESEARCH ARTICLE
JAKA, a leader in robotic solutions, is guiding manufacturers in selecting the ideal automated polishing systems tailored to their specific needs. The company emphasizes that choosing a collaborative robot (cobot) involves more than just mobility; it requires aligning technical capabilities with materials, part shapes, and production objectives. In a recent guide, JAKA highlights key factors for integrating cobots into finishing processes, including the necessity for consistent precision and repeatability in surface finishing. Their robotic platforms are designed for high repeatability and smooth trajectory control, ensuring a flawless finish across all parts. The guide also addresses workspace constraints, advocating for compact and flexible cobots like the JAKA S series, which can adapt to tight layouts and be easily repositioned. This adaptability is crucial as polishing often involves complex shapes and varying part sizes. Additionally, JAKA underscores the importance of force-sensing capabilities, allowing robots to adjust pressure in real-time for optimal polishing results. Safety features are also prioritized, with the S series designed for collaborative operation, enabling safe human-robot interaction in shared workspaces. Finally, JAKA stresses the need for quick deployment and ease of integration, promoting user-friendly technologies that enhance productivity and reduce reliance on manual labor. Their solutions aim to accelerate the return on investment for manufacturers by streamlining the polishing process, ultimately improving production efficiency and product quality.
jaka.com By JAKA Feb 28, 2026
JAKA Robotics is guiding teams in selecting the right 6 axis robot arm for automation needs, highlighting two main models: the S Series and the Zu Series. Both are collaborative robots designed for safe interaction but cater to different applications. The Zu Series serves as a general-purpose automation tool, suitable for tasks ranging from simple pick-and-place operations to precise assembly, making it accessible and versatile. In contrast, the S Series is engineered for advanced applications requiring sensitive force feedback, ideal for delicate tasks like polishing and intricate assembly. The S Series features sophisticated force control technology, allowing it to respond to external forces with precision, while the Zu Series boasts a lightweight, compact design that enhances mobility and ease of integration into various production environments. Both models support user-friendly graphical programming, but the Zu Series is designed for quick setup across a broad spectrum of industrial tasks. The S Series, although intuitive, requires additional software engagement to fully utilize its advanced capabilities for complex operations. Ultimately, the choice between the Zu and S Series hinges on specific operational requirements. The Zu Series is recommended for those needing a flexible, easy-to-move robot for general tasks, while the S Series is suited for processes demanding refined force sensitivity. JAKA aims to align its robotic solutions with production goals, ensuring optimal performance and investment value.
jaka.com By JAKA Feb 28, 2026
Apptronik's CEO, Jeff Cardenas, recently outlined the company's strategic approach to deploying humanoid robots, emphasizing a "pragmatic" roadmap designed to facilitate mass-market adoption. During a presentation, Cardenas revealed plans that include the development of wheeled variants of humanoid robots, which are expected to enhance mobility and functionality. The deployment strategy is structured into three distinct phases, aimed at gradually introducing these advanced robots to various sectors. The initiative comes in response to growing interest and demand for robotic solutions across industries, as businesses seek innovative ways to improve efficiency and productivity. By focusing on practical applications and scalability, Apptronik aims to position itself as a leader in the evolving robotics market. The timeline for this ambitious plan remains under development, but the company is committed to advancing its technology to meet the needs of potential users.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Feb 19, 2026 US Apollo Jeff Cardenas ApptronikRSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.