PickNik Robotics Secures Two New NASA SBIR Contracts for Advancing Autonomous Robotic Systems

PickNik Robotics, a leading provider of advanced robotic solutions, is pleased to announce its success in securing two Small Business Innovation Research (SBIR) contracts with NASA. These prestigious contracts highlight PickNik Robotics’ continued expertise in developing cutting-edge technologies for autonomous robotic manipulation, utilization, and maintenance, as well as integrated mission planning and execution for space operations.

The first SBIR award focuses on a groundbreaking project titled “A Framework for Failure Management and Recovery for Remote Autonomous Task Planning and Execution.” With NASA’s increasing need for highly autonomous robotic systems to maintain critical spaceflight hardware, PickNik Robotics is pioneering a novel fault detection and reporting system. This system will empower remote operators to diagnose and resolve failures in real-time, allowing them to adjust task specifications and guide the in situ robot to recover and complete the objective. By developing comprehensive software tools and user interfaces, PickNik Robotics aims to enhance the capabilities of NASA’s robotic endeavors, including the Artemis program and other projects such as Dexterous Robotics Lab, Robonaut, SPHERES, Astrobee, and OSAM servicing missions. Furthermore, the versatility of this system extends beyond NASA, presenting potential applications in commercial space flight, defense, and other terrestrial industries.

The second SBIR award centers around the project “Task and Motion Planning for Space Operations, with Human-Assisted Recovery.” As space operations increasingly rely on Persistent Assets, which demand repeated visits and regular maintenance, the need for autonomous systems becomes paramount. PickNik Robotics proposes integrating Task and Motion Planning into its MoveIt Studio product, allowing remote operators to provide high-level task specifications while the autonomous system generates and executes action sequences to meet those specifications. To address unforeseen errors, a mechanism for autonomous failure identification and remote operator intervention will be implemented. This system not only enhances the autonomy capabilities of robotic systems in space but also reduces the cognitive load on remote operators by elevating their role in human-machine teams to higher-level goal specifications and task monitoring. The potential NASA applications span zero-gravity systems, extraplanetary surface systems, habitats, laboratories, construction sites, and more. Outside of NASA, this innovation holds promise for logistics, manufacturing, home service, hospitality, public safety, and asset inspection industries.

PickNik Robotics is excited to embark on these transformative projects in collaboration with NASA. “We are pushing the boundaries of autonomous robotic systems in order to revolutionize space operations,” said Dr. Dave Coleman, PickNik’s CEO. “We believe this will also open new horizons for commercial applications.”