Safe Robot Learning in Assistive Devices through Neural Network Repair

Conference on Robot Learning Pub Date : 2023-03-08 DOI:10.48550/arXiv.2303.04431
K. Majd, Geoffrey Clark, Tanmay Khandait, Siyu Zhou, S. Sankaranarayanan, Georgios Fainekos, H. B. Amor
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Abstract

Assistive robotic devices are a particularly promising field of application for neural networks (NN) due to the need for personalization and hard-to-model human-machine interaction dynamics. However, NN based estimators and controllers may produce potentially unsafe outputs over previously unseen data points. In this paper, we introduce an algorithm for updating NN control policies to satisfy a given set of formal safety constraints, while also optimizing the original loss function. Given a set of mixed-integer linear constraints, we define the NN repair problem as a Mixed Integer Quadratic Program (MIQP). In extensive experiments, we demonstrate the efficacy of our repair method in generating safe policies for a lower-leg prosthesis.
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基于神经网络修复的辅助设备安全机器人学习
由于需要个性化和难以建模的人机交互动力学,辅助机器人设备是神经网络(NN)特别有前途的应用领域。然而,基于神经网络的估计器和控制器可能会对先前未见过的数据点产生潜在的不安全输出。在本文中,我们引入了一种算法来更新神经网络控制策略以满足给定的一组形式安全约束,同时也优化了原始损失函数。给定一组混合整数线性约束,我们将神经网络修复问题定义为混合整数二次规划(MIQP)。在大量的实验中,我们证明了我们的修复方法在为下肢假体生成安全策略方面的有效性。
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Conference on Robot Learning
Conference on Robot Learning
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MResT: Multi-Resolution Sensing for Real-Time Control with Vision-Language Models Lidar Line Selection with Spatially-Aware Shapley Value for Cost-Efficient Depth Completion Safe Robot Learning in Assistive Devices through Neural Network Repair COACH: Cooperative Robot Teaching Learning Goal-Conditioned Policies Offline with Self-Supervised Reward Shaping
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