A single destination for timely, editor-curated robotics news from around the world.
JunTuo Robotics has formed an exclusive scientific advisory partnership with Professor Gerald E. Loeb, the founder of SynTouch, to advance the development of a new generation of humanoid haptic sensors utilizing BioTac technology. This collaboration aims to facilitate mass production of these innovative sensors in Suzhou by late 2026. The partnership is driven by the goal of enhancing robotic tactile perception, which is crucial for improving human-robot interactions and expanding the applications of robotics in various fields.
leaderobot.com By Leaderobot May 06, 2026 Haptic Sensors Robotics BioTac Technology Artificial Intelligence
Claire recently engaged in a conversation with Allison Okamura, a prominent figure in the field of engineering at Stanford University, where she holds the position of Richard W. Weiland Professor. The discussion centered on the development of advanced robotic systems designed for haptic interaction, which allows users to experience touch sensations through technology. Okamura's research encompasses a wide range of interests, including haptics, teleoperation, virtual reality, medical robotics, soft robotics, rehabilitation, and education. As the Director of Graduate Studies for Mechanical Engineering at Stanford, she is at the forefront of integrating these innovative technologies into various applications, aiming to enhance user experience and interaction in both medical and educational settings. The dialogue highlights the significance of haptic technology in creating more immersive and effective robotic systems, reflecting ongoing advancements in the field.
Robohub.org By Robot Talk Jun 19, 2026
In 2026, Daimon Robotics introduced the Daimon-Infinity dataset, which is recognized as the largest dataset of its kind, encompassing multimodal haptic data. This initiative, developed in collaboration with prominent research institutions, seeks to improve robotic tactile perception, a crucial aspect for advancing fine motor skills training in robotics. The dataset addresses a significant gap in haptic data availability, which is essential for enhancing the capabilities of robots in performing delicate tasks.
leaderobot.com By Leaderobot May 20, 2026 Haptic Technology Robotics AI Data Science
Recent discussions surrounding exoskeleton technology have predominantly centered on its applications in rehabilitation, industry, and defense, often overlooking its potential in education. Experts argue that this perspective may underestimate the transformative role exoskeletons could play in training environments. As the demand for innovative learning methods increases, the integration of exoskeletons and haptic guidance systems could revolutionize how movement and physical skills are taught. This shift in focus highlights the need for educational institutions to explore the benefits of these technologies, potentially enhancing the learning experience and improving outcomes for students. The exploration of exoskeletons in education represents a significant opportunity to redefine traditional teaching methods and foster a new generation of learners equipped with advanced skills.
ExoskeletonReport.com By Bobby Marinov Mar 19, 2026
Dutch haptic specialists have unveiled their latest hardware designed to enhance the performance of embodied AI and improve dexterous robot control. This innovative technology aims to deliver high-fidelity data crucial for the development of next-generation robotic systems. The announcement comes as the demand for advanced robotics continues to grow, driven by the increasing integration of AI in various industries. By providing more precise sensory feedback, this new hardware is expected to significantly advance the capabilities of robots, enabling them to perform complex tasks with greater accuracy and efficiency. The launch highlights the ongoing efforts within the tech community to push the boundaries of robotics and artificial intelligence, paving the way for smarter, more responsive machines.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Jan 21, 2026 Data Collection Dexterity hand Manus
Researchers from the National University of Singapore have developed a soft mechanical force sensor, named ME-SOFS, which allows robots to detect touch and respond instantly without electronics. This innovation transforms applied force into fluid flow, activating soft robotic actuators and creating a fully mechanical sensing-to-action process. The ME-SOFS sensor, made entirely from flexible materials, eliminates the need for traditional electronic sensors, reducing complexity and potential failure points. Its design is particularly beneficial for soft robots operating in extreme environments, such as underwater or inside the human body, where electronic systems may fail. Future applications of the ME-SOFS sensor include integration into soft robotic systems, such as a glove that measures grasping forces and a haptic pad for touch feedback. This technology could significantly enhance prosthetics and human-machine interfaces. No further timeline was disclosed at the time of publication.
InterestingEngineering.com By Jijo Malayil Jul 13, 2026 AI and Robotics
Engineers at the University of Bristol have developed a groundbreaking liquid-metal pump that promises to enhance the portability and agility of future soft robotics and wearable devices. This innovative technology, detailed in a recent publication in the journal Nature Communications, utilizes a low-voltage power source, which could revolutionize robotic systems across various applications, including robotic legs and haptic gloves utilized in medical and industrial environments. The advancement aims to address the growing demand for more efficient and versatile robotic solutions in diverse fields.
TechXplore:Robotics May 27, 2026 RoboticsRSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.