Torso-Based Control Interface for Standing Mobility-Assistive Devices

Wheelchairs and mobility devices have transformed our bodies into cybernic systems, extending our well-being by enabling individuals with reduced mobility to regain freedom. Notwithstanding, current interfaces of control require to use the hands, therefore constraining the user from performing functional activities of daily living. In this work, we present a unique design of torso-based control interface with compliant coupling support for standing mobility assistive devices. We take the coupling between the human and robot into consideration in the interface design. The design includes a compliant support mechanism and a mapping between the body movement space and the velocity space. We present experiments including multiple conditions, with a joystick for comparison with the proposed torso control interface. The results of a path-following experiment showed that users were able to control the device naturally using the hands-free interface, and the performance was comparable with the joystick, with 10% more consumed time, an average cross error of 0.116 m and 4.9% less average acceleration. The result of an object-transferring experiment showed the advantage of using the proposed interface in case users needed to manipulate objects while locomotion. The torso control scored 15% less in the System Usability Scale than the joystick in the path following task but 3.3% more in the object transferring task.