VeriPhy: verified controller executables from verified cyber-physical system models

Brandon Bohrer, Yong Kiam Tan, Stefan Mitsch, Magnus O. Myreen, André Platzer
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引用次数: 73

Abstract

We present VeriPhy, a verified pipeline which automatically transforms verified high-level models of safety-critical cyber-physical systems (CPSs) in differential dynamic logic (dL) to verified controller executables. VeriPhy proves that all safety results are preserved end-to-end as it bridges abstraction gaps, including: i) the gap between mathematical reals in physical models and machine arithmetic in the implementation, ii) the gap between real physics and its differential-equation models, and iii) the gap between nondeterministic controller models and machine code. VeriPhy reduces CPS safety to the faithfulness of the physical environment, which is checked at runtime by synthesized, verified monitors. We use three provers in this effort: KeYmaera X, HOL4, and Isabelle/HOL. To minimize the trusted base, we cross-verify KeYmaeraX in Isabelle/HOL. We evaluate the resulting controller and monitors on commodity robotics hardware.
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VeriPhy:从经过验证的网络物理系统模型中验证的控制器可执行文件
我们提出了VeriPhy,一个经过验证的管道,它可以自动将差分动态逻辑(dL)中安全关键网络物理系统(cps)的经过验证的高级模型转换为经过验证的控制器可执行文件。VeriPhy证明,所有的安全结果都是端到端保存的,因为它弥合了抽象的差距,包括:i)物理模型中的数学实数与实现中的机器算法之间的差距,ii)真实物理与其微分方程模型之间的差距,以及iii)不确定性控制器模型与机器码之间的差距。VeriPhy将CPS安全性降低到物理环境的可靠性,在运行时由合成的、经过验证的监视器进行检查。我们在此工作中使用了三个证明器:KeYmaera X、HOL4和Isabelle/HOL。为了最小化可信基础,我们在Isabelle/HOL中交叉验证KeYmaeraX。我们在商用机器人硬件上评估由此产生的控制器和监视器。
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