Robustness-guided temporal logic testing and verification for Stochastic Cyber-Physical Systems

机译：具有稳健性导向的时断网络物理系统的核心逻辑测试和验证

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We present a framework for automatic specification-guided testing for Stochastic Cyber-Physical Systems (SCPS). The framework utilizes the theory of robustness of Metric Temporal Logic (MTL) specifications to quantify how robustly an SCPS satisfies a specification in MTL. The goal of the testing framework is to detect system operating conditions that cause the system to exhibit the worst expected specification robustness. The resulting expected robustness minimization problem is solved using Markov chain Monte Carlo algorithms. This also allows us to use finite-time guarantees, which quantify the quality of the solution after a finite number of simulations. In a Model-Based Design (MBD) process, our framework can be combined with Statistical Model Checking (SMC). Finally, we present a case study on a high fidelity engine model where the goal is to verify the air-to-fuel ratio problem.

机译：我们为随机网络物理系统（SCPS）提出了一种自动规范导向测试的框架。该框架利用了公制时间逻辑（MTL）规范的鲁棒性理论，以量化SCPS在MTL中满足规范的鲁棒性。测试框架的目标是检测系统操作条件，使系统表现出最差预期的规范鲁棒性。通过马尔可夫链蒙特卡罗算法解决了所产生的预期鲁棒性最小化问题。这也允许我们使用有限时间保证，这在有限次数模拟后量化了解决方案的质量。在基于模型的设计（MBD）过程中，我们的框架可以与统计模型检查（SMC）组合。最后，我们展示了一个关于高保真发动机模型的案例研究，目标是验证空气到燃料比问题。

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《IEEE Annual International Conference on Cyber Technology in Automation, Control and Intelligent Systems》|2014年||共6页
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Abbas Houssam; Hoxha Bardh; Fainekos Georgios; Ueda Koichi;
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中图分类计算技术、计算机技术;
关键词
Atmospheric modeling; Engines; Mathematical model; Measurement; Probability; Robustness; Stochastic processes;

机译：大气建模;发动机;数学模型;测量;概率;坚固;随机过程;

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2. Mining parametric temporal logic properties in model-based design for cyber-physical systems [J] . Bardh Hoxha, Adel Dokhanchi, Georgios Fainekos International Journal on Software Tools for Technology Transfer . 2018,第1期

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3. Formal Requirement Debugging for Testing and Verification of Cyber-Physical Systems [J] . Dokhanchi Adel, Hoxha Bardh, Fainekos Georgios ACM Transactions on Embedded Computing Systems . 2018,第2期

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4. Robustness-guided temporal logic testing and verification for Stochastic Cyber-Physical Systems [C] . Abbas Houssam, Hoxha Bardh, Fainekos Georgios, IEEE Annual International Conference on Cyber Technology in Automation, Control and Intelligent Systems . 2014

机译：随机网络物理系统的鲁棒性时态逻辑测试和验证
5. A Virtual Cyber-Physical System Testbed for Use in Network Intrusion Detection and Prevention System Verification [D] . Griffith, SueAnne Nichole. 2020

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6. Formal Verification of Control Modules in Cyber-Physical Systems [O] . Iwona Grobelna 2020

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7. Temporal Logic Verification of Stochastic Systems Using Barrier Certificates [O] . Pushpak Jagtap, Sadegh Soudjani, Majid Zamani 2018

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Robustness-guided temporal logic testing and verification for Stochastic Cyber-Physical Systems

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