Object Transfer Point Estimation for Fluent human-Robot Handovers

Handing over objects is the foundation of many human-robot interaction and collaboration tasks. In the scenario where a human is handing over an object to a robot, the human chooses where the object needs to be transferred. The robot needs to accurately predict this point of transfer to reach out proactively, instead of waiting for the final position to be presented. This work presents an efficient method for predicting the Object Transfer Point (OTP), which synthesizes (1) an offline OTP calculated based on human preferences observed in a human-robot motion study with (2) a dynamic OTP predicted based on the observed human motion. Our proposed OTP predictor is implemented on a humanoid nursing robot and experimentally validated in human-robot handover tasks. Compared to only using static or dynamic OTP estimators, it has better accuracy at the earlier phase of handover (up to 45% of the handover motion) and can render fluent handovers with a reach-to-grasp response time (about 3.1 secs) close to natural human receiver’s response. In addition, the OTP prediction accuracy is maintained across the robot’s visible workspace by utilizing a user-adaptive reference frame.

Demo

Publication

  • Heramb Nemlekar, Dharini Dutia, Zhi Li, “Object Transfer Point Estimation for Fluent Human-Robot Handovers”, Accepted by 2019 IEEE International Conference on Robotics and Automation (ICRA). PDF