Assistive robots have the potential to support motor recovery after an injury as well as to alleviate the burden of physical tasks for both impaired and able-bodied individuals. Over the last few decades assistive robots have become increasingly more capable. Many can now provide task-specific assistance and can be safe...
This thesis presents a new self-assembling robotic system that diverges from traditional approaches by enabling robots to build structures not constrained to a lattice and formed based on environmental conditions, rather than on a priori blueprints. Robot self-assembly is a class of behavior in swarm robotics in which many robots...
This thesis presents methods to improve the manipulation capabilities of robots. People and animals can effectively handle objects of many shapes, sizes, weights, and materials using a variety of manipulation primitives such as grasping, pushing, sliding, tipping, rolling, and throwing. In contrast, most robots manipulate objects by pick-and-place. Restricting robots...
In the current state of robotics, the systems we create are heavily reliant on our consistent guidance, programming of tasks, and oracle information that allow them to operate in the world that we inhabit. What happens to our robotic systems when we are unable to perform as an oracle, creating...
Assistive robotics focuses on human-robot systems that provide physical support and assistance to the elderly and people with motor-impairments. While assistive machines, such as the powered wheelchair, can significantly enhance the functional independence of individuals, many users are challenged by their direct operation, the manner in which such systems are...