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Proprioceptive-visual correspondence enables self-other distinction in humanoid robots

Yurun Chen, Tianyuan Gao, Yizhong Ge, Shikun Ban, Yizhou Wang, Hongkai Xiong, Wenjun Zeng, Wentao Zhu

Year
2026
Access
Open access

Abstract

Distinguishing self from others is a prerequisite for social intelligence, yet humanoid robots that increasingly share workspaces with humans still lack this ability. Here we show that a humanoid robot can learn self-other distinction from proprioceptive-visual correspondence, without any identity labels or kinematic models. Once established, this distinction bootstraps a predictive self-model that maps joint configurations to three-dimensional body occupancy, capturing how the robot's body changes with action. In multi-agent scenes involving humans or morphologically identical robots, the system reliably identifies itself, learns a 3D self-model, and supports downstream tasks including target reaching, collision-aware motion planning, and human-to-robot motion retargeting. Together, these results outline a route toward bodily self-representation in robots that act and coordinate alongside others in shared physical environments. Project page: https://euron-zc.github.io/humanoid-self-model/.

Keywords

self-other distinctionproprioceptive-visual correspondencehumanoid robotself-modelmulti-agent

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