Abstract—Unsafe behavior of hybrid systems can have disas-trous consequences, motivating the need for formal verification of the software running on these systems. Foundational verification in a proof assistant such as Coq is a promising technique that can provide extremely strong, foundational, guarantees about software systems. In this paper, we show how to apply this technique to hybrid systems. We define a TLA-inspired formalism in Coq for reasoning about hybrid systems and use it to verify two quadcopter modules: the first limits the quadcopter’s velocity and the second limits its altitude. We ran both of these modules on an actual quadcopter, and they worked as intended. We also discuss lessons learned from our experience foundational...
The thesis describes an open modular semantic framework for the verification of hybrid systems in a ...
Abstract: In this paper we introduce two improvements to the method of verification of hybrid system...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...
Due to their safety-critical nature, cyber-physical systems (CPS) demand the most rigorous verificat...
Complex software systems are becoming increasingly prevalent in aerospace applications: in particula...
Abstract. Hybrid systems with both discrete and continuous dynamics are an important model for real-...
Complex software systems are becoming increasingly prevalent in aerospace applications, in particula...
Formal verification techniques are used routinely in finite-state digital circuits. Theorem proving ...
Abstract. This internship is intended to improve the abstraction method described by Alur in [2], an...
We have developed a hybrid system safety prover, implemented in Coq using the abstraction method int...
Hybrid system theory lies at the intersection of the fields of engineering control theory and comput...
Abstract. Hybrid systems is a mathematical model of embedded sys-tems, and has been widely used in t...
Abstract. There are numerous application examples for hybrid systems verifica-tion in recent literat...
We describe ongoing work on building an environment to support reasoning in proof assistants that re...
This thesis aims at the computer aided verification of hybrid systems using deductive techniques. We...
The thesis describes an open modular semantic framework for the verification of hybrid systems in a ...
Abstract: In this paper we introduce two improvements to the method of verification of hybrid system...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...
Due to their safety-critical nature, cyber-physical systems (CPS) demand the most rigorous verificat...
Complex software systems are becoming increasingly prevalent in aerospace applications: in particula...
Abstract. Hybrid systems with both discrete and continuous dynamics are an important model for real-...
Complex software systems are becoming increasingly prevalent in aerospace applications, in particula...
Formal verification techniques are used routinely in finite-state digital circuits. Theorem proving ...
Abstract. This internship is intended to improve the abstraction method described by Alur in [2], an...
We have developed a hybrid system safety prover, implemented in Coq using the abstraction method int...
Hybrid system theory lies at the intersection of the fields of engineering control theory and comput...
Abstract. Hybrid systems is a mathematical model of embedded sys-tems, and has been widely used in t...
Abstract. There are numerous application examples for hybrid systems verifica-tion in recent literat...
We describe ongoing work on building an environment to support reasoning in proof assistants that re...
This thesis aims at the computer aided verification of hybrid systems using deductive techniques. We...
The thesis describes an open modular semantic framework for the verification of hybrid systems in a ...
Abstract: In this paper we introduce two improvements to the method of verification of hybrid system...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...