Learning Robotic Manipulation Policies from Point Clouds with Conditional Flow Matching

Eugenio Chisari, Nick Heppert, Max Argus, Tim Welschehold, Thomas Brox, Abhinav Valada
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Abstract

Learning from expert demonstrations is a promising approach for training robotic manipulation policies from limited data. However, imitation learning algorithms require a number of design choices ranging from the input modality, training objective, and 6-DoF end-effector pose representation. Diffusion-based methods have gained popularity as they enable predicting long-horizon trajectories and handle multimodal action distributions. Recently, Conditional Flow Matching (CFM) (or Rectified Flow) has been proposed as a more flexible generalization of diffusion models. In this paper, we investigate the application of CFM in the context of robotic policy learning and specifically study the interplay with the other design choices required to build an imitation learning algorithm. We show that CFM gives the best performance when combined with point cloud input observations. Additionally, we study the feasibility of a CFM formulation on the SO(3) manifold and evaluate its suitability with a simplified example. We perform extensive experiments on RLBench which demonstrate that our proposed PointFlowMatch approach achieves a state-of-the-art average success rate of 67.8% over eight tasks, double the performance of the next best method.
利用条件流匹配从点云学习机器人操纵策略
从专家示范中学习是一种从有限数据中训练机器人操纵策略的有前途的方法。然而,模仿学习算法需要一系列设计选择,包括输入模式、训练目标和 6-DoF 末端执行器姿势表示。基于扩散的方法能够预测长视角轨迹并处理多模态动作分布,因此广受欢迎。最近,有人提出了条件流匹配(ConditionalFlow Matching,CFM)(或整流)方法,作为扩散模型更灵活的概括。在本文中,我们研究了 CFM 在机器人策略学习中的应用,并特别研究了它与构建动画学习算法所需的其他设计选择之间的相互作用。我们的研究表明,CFM 与点云输入观测结果相结合时性能最佳。此外,我们还研究了 SO(3) 流形上 CFM 表述的可行性,并通过一个简化示例对其适用性进行了评估。我们在 RLBench 上进行了大量实验,结果表明我们提出的点流匹配方法在八项任务中取得了 67.8% 的最新平均成功率,是次佳方法的两倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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