English

Robot to Human Object Handover using Vision and Joint Torque Sensor Modalities

Robotics 2022-10-28 v1 Computer Vision and Pattern Recognition

Abstract

We present a robot-to-human object handover algorithm and implement it on a 7-DOF arm equipped with a 3-finger mechanical hand. The system performs a fully autonomous and robust object handover to a human receiver in real-time. Our algorithm relies on two complementary sensor modalities: joint torque sensors on the arm and an eye-in-hand RGB-D camera for sensor feedback. Our approach is entirely implicit, i.e., there is no explicit communication between the robot and the human receiver. Information obtained via the aforementioned sensor modalities is used as inputs to their related deep neural networks. While the torque sensor network detects the human receiver's "intention" such as: pull, hold, or bump, the vision sensor network detects if the receiver's fingers have wrapped around the object. Networks' outputs are then fused, based on which a decision is made to either release the object or not. Despite substantive challenges in sensor feedback synchronization, object, and human hand detection, our system achieves robust robot-to-human handover with 98\% accuracy in our preliminary real experiments using human receivers.

Keywords

Cite

@article{arxiv.2210.15085,
  title  = {Robot to Human Object Handover using Vision and Joint Torque Sensor Modalities},
  author = {Mohammadhadi Mohandes and Behnam Moradi and Kamal Gupta and Mehran Mehrandezh},
  journal= {arXiv preprint arXiv:2210.15085},
  year   = {2022}
}

Comments

Note: This paper is submitted to RITA 2022 conference and waiting for results

R2 v1 2026-06-28T04:36:29.873Z