Task-Specific Sensor Planning for Robotic Assembly Tasks

Author(s)

Rosman, Guy; Choi, Changhyun; Dogar, Mehmet; Fisher IIIl, John W.; Rus, Daniela

Abstract

© 2018 IEEE. When performing multi-robot tasks, sensory feedback is crucial in reducing uncertainty for correct execution. Yet the utilization of sensors should be planned as an integral part of the task planning, taken into account several factors such as the tolerance of different inferred properties of the scene and interaction with different agents. In this paper we handle this complex problem in a principled, yet efficient way. We use surrogate predictors based on open-loop simulation to estimate and bound the probability of success for specific tasks. We reason about such task-specific uncertainty approximants and their effectiveness. We show how they can be incorporated into a multi-robot planner, and demonstrate results with a team of robots performing assembly tasks.

Date issued

2018-05

URI

https://hdl.handle.net/1721.1/137247

Department

Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory

Publisher

IEEE

Citation

Rosman, Guy, Choi, Changhyun, Dogar, Mehmet, Fisher IIIl, John W. and Rus, Daniela. 2018. "Task-Specific Sensor Planning for Robotic Assembly Tasks."

Version: Author's final manuscript