DynaMo: In-Domain Dynamics Pretraining for Visuo-Motor Control

arXiv - CS - Robotics Pub Date : 2024-09-18 DOI:arxiv-2409.12192

Zichen Jeff Cui, Hengkai Pan, Aadhithya Iyer, Siddhant Haldar, Lerrel Pinto

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Abstract

Imitation learning has proven to be a powerful tool for training complex visuomotor policies. However, current methods often require hundreds to thousands of expert demonstrations to handle high-dimensional visual observations. A key reason for this poor data efficiency is that visual representations are predominantly either pretrained on out-of-domain data or trained directly through a behavior cloning objective. In this work, we present DynaMo, a new in-domain, self-supervised method for learning visual representations. Given a set of expert demonstrations, we jointly learn a latent inverse dynamics model and a forward dynamics model over a sequence of image embeddings, predicting the next frame in latent space, without augmentations, contrastive sampling, or access to ground truth actions. Importantly, DynaMo does not require any out-of-domain data such as Internet datasets or cross-embodied datasets. On a suite of six simulated and real environments, we show that representations learned with DynaMo significantly improve downstream imitation learning performance over prior self-supervised learning objectives, and pretrained representations. Gains from using DynaMo hold across policy classes such as Behavior Transformer, Diffusion Policy, MLP, and nearest neighbors. Finally, we ablate over key components of DynaMo and measure its impact on downstream policy performance. Robot videos are best viewed at https://dynamo-ssl.github.io

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DynaMo：针对视觉运动控制的域内动力学预训练

事实证明，模仿学习是训练复杂视觉运动策略的有力工具。然而，目前的方法往往需要数百到数千个专家示范才能处理高维视觉观察。造成这种数据效率低下的一个关键原因是，视觉呈现主要是在域外数据上进行预训练，或者直接通过行为克隆目标进行训练。在这项工作中，我们提出了一种用于学习视觉呈现的全新域内自我监督方法--DynaMo。给定一组专家示范，我们在图像嵌入序列上联合学习恒定的反向动力学模型和正向动力学模型，在潜空间中预测下一帧，而无需增强、对比采样或访问地面真实动作。重要的是，DynaMo 不需要任何域外数据，如互联网数据集或交叉嵌入数据集。在一套六种模拟和真实环境中，我们发现与之前的自我监督学习目标和预训练表征相比，使用 DynaMo 学习到的表征显著提高了下游模仿学习性能。使用 DynaMohold 所带来的收益跨越了行为转换器、扩散策略、MLP 和近邻等策略类别。最后，我们消减了 DynaMo 的关键组件，并测量了它对下游策略性能的影响。机器人视频最佳观看地址：https://dynamo-ssl.github.io

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arXiv - CS - Robotics

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