English

Sim-and-Human Co-training for Data-Efficient and Generalizable Robotic Manipulation

Robotics 2026-01-28 v1 Artificial Intelligence

Abstract

Synthetic simulation data and real-world human data provide scalable alternatives to circumvent the prohibitive costs of robot data collection. However, these sources suffer from the sim-to-real visual gap and the human-to-robot embodiment gap, respectively, which limits the policy's generalization to real-world scenarios. In this work, we identify a natural yet underexplored complementarity between these sources: simulation offers the robot action that human data lacks, while human data provides the real-world observation that simulation struggles to render. Motivated by this insight, we present SimHum, a co-training framework to simultaneously extract kinematic prior from simulated robot actions and visual prior from real-world human observations. Based on the two complementary priors, we achieve data-efficient and generalizable robotic manipulation in real-world tasks. Empirically, SimHum outperforms the baseline by up to 40%\mathbf{40\%} under the same data collection budget, and achieves a 62.5%\mathbf{62.5\%} OOD success with only 80 real data, outperforming the real only baseline by 7.1×7.1\times. Videos and additional information can be found at \href{https://kaipengfang.github.io/sim-and-human}{project website}.

Keywords

Cite

@article{arxiv.2601.19406,
  title  = {Sim-and-Human Co-training for Data-Efficient and Generalizable Robotic Manipulation},
  author = {Kaipeng Fang and Weiqing Liang and Yuyang Li and Ji Zhang and Pengpeng Zeng and Lianli Gao and Jingkuan Song and Heng Tao Shen},
  journal= {arXiv preprint arXiv:2601.19406},
  year   = {2026}
}
R2 v1 2026-07-01T09:21:58.401Z