Litcius/Paper detail

Multichannel haptic feedback unlocks prosthetic hand dexterity

Moaed A. Abd, Joseph Ingicco, Douglas T. Hutchinson, Emmanuelle Tognoli, Erik D. Engeberg

2022Scientific Reports40 citationsDOIOpen Access PDF

Abstract

Loss of tactile sensations is a major roadblock preventing upper limb-absent people from multitasking or using the full dexterity of their prosthetic hands. With current myoelectric prosthetic hands, limb-absent people can only control one grasp function at a time even though modern artificial hands are mechanically capable of individual control of all five digits. In this paper, we investigated whether people could precisely control the grip forces applied to two different objects grasped simultaneously with a dexterous artificial hand. Toward that end, we developed a novel multichannel wearable soft robotic armband to convey artificial sensations of touch to the robotic hand users. Multiple channels of haptic feedback enabled subjects to successfully grasp and transport two objects simultaneously with the dexterous artificial hand without breaking or dropping them, even when their vision of both objects was obstructed. Simultaneous transport of the objects provided a significant time savings to perform the deliveries in comparison to a one-at-a-time approach. This paper demonstrated that subjects were able to integrate multiple channels of haptic feedback into their motor control strategies to perform a complex simultaneous object grasp control task with an artificial limb, which could serve as a paradigm shift in the way prosthetic hands are operated.

Topics & Concepts

GRASPHaptic technologyComputer scienceTask (project management)Robotic handProsthetic handArtificial intelligenceObject (grammar)Human–computer interactionComputer visionArtificial limbsRobotHuman multitaskingWearable computerSimulationPhysical medicine and rehabilitationProsthesisPsychologyEngineeringMedicineCognitive psychologyProgramming languageSystems engineeringEmbedded systemMuscle activation and electromyography studiesEEG and Brain-Computer InterfacesTactile and Sensory Interactions