Bibliographic Information: Zhao, Y., Chen, L., Schneider, J., Gao, Q., Kannala, J., Sch¨olkopf, B., Pajarinen, J., & B¨uchler, D. (2024). RP1M: A Large-Scale Motion Dataset for Piano Playing with Bi-Manual Dexterous Robot Hands. 8th Conference on Robot Learning (CoRL 2024), Munich, Germany. arXiv:2408.11048v2 [cs.RO] 18 Nov 2024
Research Objective: This paper introduces a novel large-scale dataset, RP1M, for robot piano playing and investigates its potential for training dexterous robot hands using imitation learning. The authors aim to overcome the limitations of previous datasets, which relied on time-consuming and potentially suboptimal human-annotated fingering, by proposing an automatic fingering method based on optimal transport.
Methodology: The authors created RP1M by training specialist RL agents on over 2,000 musical pieces using a simulated piano-playing environment. These agents were trained using a novel reward function that incorporates optimal transport to automatically determine efficient finger placement without human annotation. The resulting dataset contains over 1 million expert trajectories of bimanual robot piano playing. To evaluate the dataset's effectiveness, the authors benchmarked several imitation learning approaches, including Behavior Cloning, Behavior Transformer, and Diffusion Policy, on both in-distribution and out-of-distribution music pieces.
Key Findings: The proposed automatic fingering method based on optimal transport successfully enabled the RL agents to learn piano playing without human-annotated fingering labels. The learned fingering, while different from human fingering, proved effective and adaptable to different robot hand embodiments. Benchmarking results showed that imitation learning approaches, particularly Diffusion Policy, benefited from the scale and diversity of RP1M, achieving promising results in synthesizing motions for novel music pieces.
Main Conclusions: RP1M, with its large scale and diverse motion data, provides a valuable resource for advancing research in dexterous robot manipulation, particularly in the domain of piano playing. The proposed automatic fingering method effectively addresses the limitations of human annotation, enabling the creation of large and diverse datasets. The benchmarking results demonstrate the potential of RP1M for training generalist piano-playing agents through imitation learning.
Significance: This research significantly contributes to the field of robotics by providing a large-scale, high-quality dataset for robot piano playing, a complex task that demands high dexterity and dynamic control. The introduction of automatic fingering not only facilitates data collection but also opens up possibilities for exploring robot piano playing with diverse hand morphologies. The benchmarking of imitation learning approaches on RP1M provides valuable insights for developing more robust and generalizable robot manipulation policies.
Limitations and Future Research: While RP1M represents a significant advancement, the authors acknowledge limitations, including the reliance on proprioceptive observations only and the performance gap between multi-task agents and RL specialists. Future research could explore incorporating multimodal sensory inputs, such as vision and touch, to enhance the realism and performance of robot piano playing. Further investigation into bridging the performance gap between multi-task and specialist agents is crucial for developing truly generalist robot musicians.
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by Yi Z... lúc arxiv.org 11-19-2024
https://arxiv.org/pdf/2408.11048.pdfYêu cầu sâu hơn