利用神经网络控制器对闭环系统进行近似一致性检查

IF 2.7 3区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems Pub Date : 2024-11-06 DOI:10.1109/TCAD.2024.3445813
P. Habeeb;Lipsy Gupta;Pavithra Prabhakar
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引用次数: 0

摘要

在本文中,我们考虑了检查具有相同工厂但不同神经网络 (NN) 控制器的闭环系统的近似一致性问题。首先,我们引入了神经网络近似一致性的概念,通过这一概念,我们可以从语义上量化不同神经网络控制器的闭环系统行为偏差。接下来,我们将考虑对两个 NN 的近似一致性概念进行计算检查的问题。我们将这一问题简化为对组合 NN 的可达性分析,从而使现有的 NN 验证工具能够用于一致性检查。我们在一个自主火箭着陆系统上的实验结果表明,在为相同动力学训练的不同 NN 上检查近似一致性是可行的,相应的闭环系统也表现出了实际的语义接近性。
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Approximate Conformance Checking for Closed-Loop Systems With Neural Network Controllers
In this article, we consider the problem of checking approximate conformance of closed-loop systems with the same plant but different neural network (NN) controllers. First, we introduce a notion of approximate conformance on NNs, which allows us to quantify semantically the deviations in closed-loop system behaviors with different NN controllers. Next, we consider the problem of computationally checking this notion of approximate conformance on two NNs. We reduce this problem to that of reachability analysis on a combined NN, thereby, enabling the use of existing NN verification tools for conformance checking. Our experimental results on an autonomous rocket landing system demonstrate the feasibility of checking approximate conformance on different NNs trained for the same dynamics, as well as the practical semantic closeness exhibited by the corresponding closed-loop systems.
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来源期刊
CiteScore
5.60
自引率
13.80%
发文量
500
审稿时长
7 months
期刊介绍: The purpose of this Transactions is to publish papers of interest to individuals in the area of computer-aided design of integrated circuits and systems composed of analog, digital, mixed-signal, optical, or microwave components. The aids include methods, models, algorithms, and man-machine interfaces for system-level, physical and logical design including: planning, synthesis, partitioning, modeling, simulation, layout, verification, testing, hardware-software co-design and documentation of integrated circuit and system designs of all complexities. Design tools and techniques for evaluating and designing integrated circuits and systems for metrics such as performance, power, reliability, testability, and security are a focus.
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