Home /Research /Steady-State Visual Evoked Potentials-based Control of a Mobile Robot Platform as a Preamble to Support Paraplegics Mobility
SURGICAL

Steady-State Visual Evoked Potentials-based Control of a Mobile Robot Platform as a Preamble to Support Paraplegics Mobility

Dănuț-Constantin Irimia, Alexandru Mitocaru, Alina Baciu, Marian-Silviu Poboroniuc

Year
2019
Citations
2

Abstract

During the last decades, the robots started to play a crucial role in different fields that require human-machine interaction, e.g. robotics surgery, assistive robotics, space explorers. This paper presents the setup and results of testing a Brain-Computer Interface which controls a mobile robotic platform as a preamble to control a robotic wheelchair. The system was tested on two healthy users who gained a mean response time of the system of about 1.15 seconds. The applications are foreseen in assistive intelligent wheelchairs for high-level spinal cord injury paraplegics.

Keywords

WheelchairRoboticsRobotComputer scienceArtificial intelligencePreambleMobile robotBrain–computer interfaceSimulationHuman–computer interaction

Related papers

Browse all SURGICAL papers