A Digital Twin Setup for Safety-aware Optimization of a Cyber-physical System

2010 2nd International Asia Conference on Informatics in Control, Automation and Robotics (CAR 2010) Pub Date : 2022-01-01 DOI:10.5220/0011272100003271

Jalil Boudjadar, M. Tomko

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Abstract

: Digital twin technology offers a sophisticated and ﬂexible methodology to design high ﬁdelity models of cyber-physical systems for simulation, optimization, formal veriﬁcation and validation purposes. This has made such a technology a nascent process being currently adopted in many industries. This paper introduces a digital twin setup for safety-aware performance optimization of a cyber-physical system ( Energy Buck converter EBC). This is achieved by designing a high ﬁdelity digital twin model of the Buck converter through synchronization of the model with the physical system, namely calibration. The behavior model is originally built in MATLAB to identify potential runtime optimization patterns using a genetic algorithm. Such a model is translated to a Uppaal model to perform formal veriﬁcation of the safety properties. The behavior patterns from optimization are provided as inputs to the veriﬁcation engine for approval, where only valid and feasible patterns are pushed into the actual control loop of EBC. The proposed setup has led to maintain the system safety while optimizing the performance and reducing the output errors.

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网络物理系统安全感知优化的数字孪生设置

数字孪生技术提供了一种复杂而灵活的方法来设计用于仿真、优化、正式验证和验证目的的高保真网络物理系统模型。这使得这种技术成为目前许多行业采用的新兴工艺。本文介绍了一种用于网络物理系统(能量Buck转换器EBC)安全感知性能优化的数字孪生装置。这是通过与物理系统同步，即校准，设计一个高保真的Buck转换器数字孪生模型来实现的。该行为模型最初是在MATLAB中构建的，用于使用遗传算法识别潜在的运行时优化模式。这样的模型被转换为Uppaal模型，以执行安全属性的形式化验证。来自优化的行为模式作为输入提供给验证引擎进行审批，其中只有有效和可行的模式被推入EBC的实际控制回路。所提出的设置在优化性能和减少输出错误的同时保持了系统的安全性。

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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2010 2nd International Asia Conference on Informatics in Control, Automation and Robotics (CAR 2010)

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