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Icarus Robotics has announced KULR Technology Group as the battery supplier for its autonomous free-flying robot, JOY, which is set to launch to the International Space Station (ISS) in early 2027. KULR will provide its KULR ONE Space (K1S) battery systems, engineered to NASA safety standards, ensuring reliable operation aboard the ISS. The partnership is significant as KULR’s battery technology has already been validated during the Artemis II lunar mission, which enhances the approval process with NASA. Icarus co-founder Ethan Barajas emphasized the importance of flight heritage in the space sector, stating that proven components expedite the approval process, crucial for a startup like Icarus. Looking ahead, JOY, powered by embodied AI, aims to assist astronauts with routine tasks and infrastructure maintenance, allowing them to concentrate on more critical research objectives. No further timeline was disclosed at the time of publication.
RoboticsBusinessReview.com By Brianna Wessling 6 hours ago Aerospace Batteries / Power Supplies Markets / Industries News Technologies Icarus
KULR Technology Group, Inc. has been selected by Icarus Robotics to provide its KULR ONE Space battery for the JOY autonomous free-flying robotic platform. This platform is set to be deployed on an upcoming mission to the International Space Station. The collaboration is significant as it highlights KULR's role in advancing energy systems for critical applications in space and robotics. The JOY platform represents a step forward in autonomous space robotics, showcasing the potential for innovative technologies in extraterrestrial environments. Looking ahead, the deployment of the JOY platform aboard the International Space Station will be a key milestone for both KULR and Icarus Robotics. No further timeline was disclosed at the time of publication.
RoboticsTomorrow.com 12 hours ago
In a recent conversation, Claire spoke with Jamie Palmer, co-founder and CTO of Icarus Robotics, about the company's innovative approach to creating a robotic workforce designed to handle routine and hazardous tasks in space. Palmer, who holds a Master’s degree in Robotics from Columbia University, has focused his research on intelligent and dexterous manipulation techniques. The discussion highlighted the growing need for automation in orbit, driven by the increasing complexity and risks associated with space missions. Icarus Robotics aims to enhance safety and efficiency in space operations by deploying advanced robotic systems capable of performing a variety of functions, thereby reducing the burden on human astronauts. The conversation underscored the potential impact of robotics on the future of space exploration, as well as the technological advancements that make such developments possible.
Robohub.org By Robot Talk Feb 27, 2026RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.