Correcting robot mistakes in real time using EEG signals

Author(s)

Salazar-Gomez, Andres F.; DelPreto, Joseph; Gil, Stephanie; Guenther, Frank H.; Rus, Daniela

Abstract

© 2017 IEEE. Communication with a robot using brain activity from a human collaborator could provide a direct and fast feedback loop that is easy and natural for the human, thereby enabling a wide variety of intuitive interaction tasks. This paper explores the application of EEG-measured error-related potentials (ErrPs) to closed-loop robotic control. ErrP signals are particularly useful for robotics tasks because they are naturally occurring within the brain in response to an unexpected error. We decode ErrP signals from a human operator in real time to control a Rethink Robotics Baxter robot during a binary object selection task. We also show that utilizing a secondary interactive error-related potential signal generated during this closed-loop robot task can greatly improve classification performance, suggesting new ways in which robots can acquire human feedback. The design and implementation of the complete system is described, and results are presented for realtime closed-loop and open-loop experiments as well as offline analysis of both primary and secondary ErrP signals. These experiments are performed using general population subjects that have not been trained or screened. This work thereby demonstrates the potential for EEG-based feedback methods to facilitate seamless robotic control, and moves closer towards the goal of real-time intuitive interaction.

Date issued

2017-05

URI

https://hdl.handle.net/1721.1/137032

Department

Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory

Publisher

IEEE

Citation

Salazar-Gomez, Andres F., DelPreto, Joseph, Gil, Stephanie, Guenther, Frank H. and Rus, Daniela. 2017. "Correcting robot mistakes in real time using EEG signals."

Version: Author's final manuscript