dc.description.abstract |
Robot control systems via human bio-potentials, such as electroencephalography (EEG), electrooculography
(EOG), and electromyography (EMG) signals offers unlimited opportunities to stakeholders. Research and development
of the technology essential for estimating and identifying the usable biological signals through sensors and signal
processing techniques, as well as their conversion into control scheme has been carried out in the recent past. The need
for bio-signal control is heightened by elderly and disabled people who through myriad of happenstances have lost
control of the environment. To promote quality of life and self-reliance, biotechnology joined with Man-Machine
interfaces are a promising undertaking. In this research, we utilize EOG, EMG and eye related information to control a
robot in 3D environment. By mapping gaze motions to corresponding inverse kinematics, the operator can control a robot
arm through his eye movements and facial muscles. The results prove the workability of the concept which on further
improvement, would avail a dynamic 3D bio-signal control system. |
en_US |