Formal verification techniques are used routinely in finite-state digital circuits. Theorem proving is also used successfully for infinite-state discrete systems. But many safety-critical computers are actually embedded in physical systems. Hybrid systems [1] model complex physical systems as dynamical systems with interacting discrete transitions and continuous evolutions along differential equations. They arise frequently in many application domains, including aviation, automotive, railway, and robotics. There is a well-understood theory for proving programs. But what about complex physical systems? How can we prove that a hybrid system works as expected, e.g., an aircraft does not crash into another one? This talk illustrates the complex...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...
Complex software systems are becoming increasingly prevalent in aerospace applications, in particula...
Abstract: "We introduce a fixedpoint algorithm for verifying safety properties of hybrid systems wit...
This thesis aims at the computer aided verification of hybrid systems using deductive techniques. We...
We introduce a first-order dynamic logic for reasoning about systems with discrete and continuous st...
Hybrid systems are a fusion of continuous dynamical systems and discrete dynamical systems. They fre...
Abstract. We address a fundamental mismatch between the combinations of dynamics that occur in cyber...
We address a fundamental mismatch between the combinations of dynamics that occur in cyber-physical ...
The design of hybrid systems controllers requires one to handle both discrete and continuous functio...
Cyber-physical systems are often safety-critical and their correctness is crucial, as in the case of...
Abstract. Hybrid systems with both discrete and continuous dynamics are an important model for real-...
Hybrid system theory lies at the intersection of the fields of engineering control theory and comput...
Hybrid systems tightly integrate software-based discrete control systems and continuous physical phe...
Hybrid systems air he/erogenous dynamical systems cliaracterized by interacting continuous and discr...
Complex software systems are becoming increasingly prevalent in aerospace applications: in particula...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...
Complex software systems are becoming increasingly prevalent in aerospace applications, in particula...
Abstract: "We introduce a fixedpoint algorithm for verifying safety properties of hybrid systems wit...
This thesis aims at the computer aided verification of hybrid systems using deductive techniques. We...
We introduce a first-order dynamic logic for reasoning about systems with discrete and continuous st...
Hybrid systems are a fusion of continuous dynamical systems and discrete dynamical systems. They fre...
Abstract. We address a fundamental mismatch between the combinations of dynamics that occur in cyber...
We address a fundamental mismatch between the combinations of dynamics that occur in cyber-physical ...
The design of hybrid systems controllers requires one to handle both discrete and continuous functio...
Cyber-physical systems are often safety-critical and their correctness is crucial, as in the case of...
Abstract. Hybrid systems with both discrete and continuous dynamics are an important model for real-...
Hybrid system theory lies at the intersection of the fields of engineering control theory and comput...
Hybrid systems tightly integrate software-based discrete control systems and continuous physical phe...
Hybrid systems air he/erogenous dynamical systems cliaracterized by interacting continuous and discr...
Complex software systems are becoming increasingly prevalent in aerospace applications: in particula...
Abstract. We show how theorem proving and methods for handling real algebraic constraints can be com...
Complex software systems are becoming increasingly prevalent in aerospace applications, in particula...
Abstract: "We introduce a fixedpoint algorithm for verifying safety properties of hybrid systems wit...