基于机器学习的系统安全感知契约

IF 2.2 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING Proceedings of the ACM on Programming Languages Pub Date : 2023-10-16 DOI:10.1145/3622875

Angello Astorga, Chiao Hsieh, P. Madhusudan, Sayan Mitra

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引用次数: 3

摘要

我们引入了一种新的感知契约概念来推理使用神经感知与环境交互的控制器的安全性。感知契约捕获了当系统对其起作用时保留不变量的基础真值估计中的错误。我们发展了一种感知契约理论，并设计了符号学习算法，用于从有限的图像集合中合成它们。我们实现了我们的算法，并评估了两种基于现实视觉的控制系统的综合感知契约，一种是电动汽车的车道跟踪系统，另一种是跟踪作物行的农业机器人。我们的评估表明，我们的方法在综合感知契约方面是有效的，并且在对系统运行时监控期间获得的测试图像进行评估时泛化得很好。

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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Perception Contracts for Safety of ML-Enabled Systems

We introduce a novel notion of perception contracts to reason about the safety of controllers that interact with an environment using neural perception. Perception contracts capture errors in ground-truth estimations that preserve invariants when systems act upon them. We develop a theory of perception contracts and design symbolic learning algorithms for synthesizing them from a finite set of images. We implement our algorithms and evaluate synthesized perception contracts for two realistic vision-based control systems, a lane tracking system for an electric vehicle and an agricultural robot that follows crop rows. Our evaluation shows that our approach is effective in synthesizing perception contracts and generalizes well when evaluated over test images obtained during runtime monitoring of the systems.

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