Worst-case Satisfaction of STL Specifications Using Feedforward Neural Network Controllers: A Lagrange Multipliers Approach

2020 Information Theory and Applications Workshop (ITA) Pub Date : 2020-02-02 DOI:10.1109/ITA50056.2020.9244969
Shakiba Yaghoubi, Georgios Fainekos
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引用次数: 24

Abstract

In this paper, a reinforcement learning approach for designing feedback neural network controllers for nonlinear systems is proposed. Given a Signal Temporal Logic (STL) specification which needs to be satisfied by the system over a set of initial conditions, the neural network parameters are tuned in order to maximize the satisfaction of the STL formula. The framework is based on a max-min formulation of the robustness of the STL formula. The maximization is solved through a Lagrange multipliers method, while the minimization corresponds to a falsification problem. We present our results on a vehicle and a quadrotor model and demonstrate that our approach reduces the training time more than 50 percent compared to the baseline approach.
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使用前馈神经网络控制器的STL规范的最坏情况满足:一种拉格朗日乘法器方法
本文提出了一种用于非线性系统反馈神经网络控制器设计的强化学习方法。给定系统在一组初始条件下需要满足的信号时序逻辑(STL)规范,对神经网络参数进行调整,以最大限度地满足STL公式。该框架基于STL公式鲁棒性的最大最小公式。通过拉格朗日乘子法求解最大问题,而最小问题对应于证伪问题。我们提出了我们的车辆和四旋翼模型的结果,并证明我们的方法减少了训练时间超过50%的基线方法。
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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2020 Information Theory and Applications Workshop (ITA)
2020 Information Theory and Applications Workshop (ITA)
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