Human-robot collaborative task planning using anticipatory brain responses
Artikel i vetenskaplig tidskrift, 2023

Human-robot interaction (HRI) describes scenarios in which both human and robot work as partners, sharing the same environment or complementing each other on a joint task. HRI is characterized by the need for high adaptability and flexibility of robotic systems toward their human interaction partners. One of the major challenges in HRI is task planning with dynamic subtask assignment, which is particularly challenging when subtask choices of the human are not readily accessible by the robot. In the present work, we explore the feasibility of using electroencephalogram (EEG) based neuro-cognitive measures for online robot learning of dynamic subtask assignment. To this end, we demonstrate in an experimental human subject study, featuring a joint HRI task with a UR10 robotic manipulator, the presence of EEG measures indicative of a human partner anticipating a takeover situation from human to robot or vice-versa. The present work further proposes a reinforcement learning based algorithm employing these measures as a neuronal feedback signal from the human to the robot for dynamic learning of subtask-assignment. The efficacy of this algorithm is validated in a simulation-based study. The simulation results reveal that even with relatively low decoding accuracies, successful robot learning of subtask-assignment is feasible, with around 80% choice accuracy among four subtasks within 17 minutes of collaboration. The simulation results further reveal that scalability to more subtasks is feasible and mainly accompanied with longer robot learning times. These findings demonstrate the usability of EEG-based neuro-cognitive measures to mediate the complex and largely unsolved problem of human-robot collaborative task planning.

Författare

Stefan K. Ehrlich

Technische Universität München

Emmanuel Dean

Chalmers, Elektroteknik, System- och reglerteknik

Nicholas Tacca

Battelle

Simon Armleder

Technische Universität München

Viktorija Dimova-Edeleva

Technische Universität München

Gordon Cheng

Technische Universität München

PLoS ONE

1932-6203 (ISSN) 19326203 (eISSN)

Vol. 18 7

Ämneskategorier

Robotteknik och automation

Datorseende och robotik (autonoma system)

DOI

10.1371/journal.pone.0287958

PubMed

37432954

Mer information

Senast uppdaterat

2023-07-26