〒 560-85311-3, Machikaneyama-cho,Toyonaka, Osaka, Japan
We present a software interface that allows a user to control different types of robotic systems by using a Brain-Machine Interface. Unlike common device-specific BMI systems, our software architecture maps simple EEG-based commands to diverse functionalities depending on the robotic platform, so the user does not have learn to generate new EEG commands for different robots. The graphic user interface provides a mechanism that allows the user to navigate through menus using EMG signals (i.e. eye-blink), and then execute robot commands using EEG signals. Our software is based on a modular design that allows the integration of new robotic platforms with easy customization. Our current prototype explores the controllability of a humanoid robot, a flying robot and a pan-tilt robot using the proposed software interface.
Christian I. Penaloza, Yasushi Mae, Kenichi Ohara, and Tatsuo Arai: "Software Interface for Controlling Diverse Robotic Platforms using BMI", IEEE/SICE International Symposium on System Integration, Osaka, Japan. Fukuoka, Japan. December 16-18, 2012.