© 2015 IEEE.We consider the problem of verification of software implementations of linear time-invariant controllers. Commonly, different implementations use different representations of the controller's state, for example due to optimizations in a third-party code generator. To accommodate this variation, we exploit input-output controller specification captured by the controller's transfer function and show how to automatically verify correctness of C code controller implementations using a Frama-C/Why3/Z3 toolchain. Scalability of the approach is evaluated using randomly generated controller specifications of realistic size
International audienceProgrammable logic controllers (PLCs) are complex cyber-physical systems which...
Associated research group: Critical Systems Research GroupWithin the context of model-based developm...
This thesis deals with Programmable Logic Controller (PLC) programs in the manufacturing industry, t...
We consider the problem of verification of software implementations of linear time-invariant control...
We consider the problem of verifying software implementations of linear time-invariant controllers a...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
We consider the problem of verifying finite precision implementation of linear time-invariant contro...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
In the model-based development of controller software, the use of an unverified code generator/trans...
Abstract: Functional safety, as addressed in the standard IEC 61508, is a key requirement for a high...
As cyber-physical systems (CPS) become more complex, the verification of CPS control software become...
International audienceblocks, and relies on a dataflow semantics: an (un)specified sampling time is ...
Formal methods is a discipline of using a collection of mathematical techniques and formalisms to mo...
Programmable Logic Controllers (PLCs) are control devices used in industry to control, operate and m...
This dissertation proposes formal representations for programmable logic controllers that aim at imp...
International audienceProgrammable logic controllers (PLCs) are complex cyber-physical systems which...
Associated research group: Critical Systems Research GroupWithin the context of model-based developm...
This thesis deals with Programmable Logic Controller (PLC) programs in the manufacturing industry, t...
We consider the problem of verification of software implementations of linear time-invariant control...
We consider the problem of verifying software implementations of linear time-invariant controllers a...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
We consider the problem of verifying finite precision implementation of linear time-invariant contro...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
In the model-based development of controller software, the use of an unverified code generator/trans...
Abstract: Functional safety, as addressed in the standard IEC 61508, is a key requirement for a high...
As cyber-physical systems (CPS) become more complex, the verification of CPS control software become...
International audienceblocks, and relies on a dataflow semantics: an (un)specified sampling time is ...
Formal methods is a discipline of using a collection of mathematical techniques and formalisms to mo...
Programmable Logic Controllers (PLCs) are control devices used in industry to control, operate and m...
This dissertation proposes formal representations for programmable logic controllers that aim at imp...
International audienceProgrammable logic controllers (PLCs) are complex cyber-physical systems which...
Associated research group: Critical Systems Research GroupWithin the context of model-based developm...
This thesis deals with Programmable Logic Controller (PLC) programs in the manufacturing industry, t...