Designing robotic systems can be very challenging, yet controllers are often specified using informal notations with development driven primarily by simulations and physical experiments, without relation to abstract models of requirements. The ability to perform formal analysis and replicate results across different robotic platforms is hindered by the lack of well-defined formal notations. In this paper we present a timed state-machine based formal notation for robotics that is informed by current practice. We motivate our work with an example from swarm robotics and define a compositional CSP-based discrete timed semantics suitable for refinement. Our results support verification and, importantly, enable rigorous connection with sound sim...
International audienceSoftware constitutes a major part of the development of robotic and autonomous...
International audienceDue to the severe consequences of their possible failure, robotic systems must...
Industrial systems are made of interacting components, which evolve at very different speeds. This i...
Designing robotic systems can be very challenging, yet controllers are often specified using informa...
Controllers for autonomous robotic systems can be specified using state machines. However, these are...
The use of formal methods for synthesis has recently enabled the automated construction of verifiabl...
International audienceFormal verification of robotic functional components is extremely important. I...
International audienceThroughout the last few decades, researchers and practitioners are showing mor...
International audienceValidation and Verification (V&V) of autonomous robotic system software is bec...
Abstract. We present a novel formal verification approach for collective robotic systems that is bas...
Swarm robotics systems have the potential to tackle many interesting problems. Their control softwar...
We present a novel formal verification approach for collective robotic systems that is based on the ...
International audienceThe challenges of deploying robots and autonomous vehicles call for further ef...
There are many competing techniques for specifying robot policies, each having advantages in differe...
International audienceSoftware constitutes a major part of the development of robotic and autonomous...
International audienceDue to the severe consequences of their possible failure, robotic systems must...
Industrial systems are made of interacting components, which evolve at very different speeds. This i...
Designing robotic systems can be very challenging, yet controllers are often specified using informa...
Controllers for autonomous robotic systems can be specified using state machines. However, these are...
The use of formal methods for synthesis has recently enabled the automated construction of verifiabl...
International audienceFormal verification of robotic functional components is extremely important. I...
International audienceThroughout the last few decades, researchers and practitioners are showing mor...
International audienceValidation and Verification (V&V) of autonomous robotic system software is bec...
Abstract. We present a novel formal verification approach for collective robotic systems that is bas...
Swarm robotics systems have the potential to tackle many interesting problems. Their control softwar...
We present a novel formal verification approach for collective robotic systems that is based on the ...
International audienceThe challenges of deploying robots and autonomous vehicles call for further ef...
There are many competing techniques for specifying robot policies, each having advantages in differe...
International audienceSoftware constitutes a major part of the development of robotic and autonomous...
International audienceDue to the severe consequences of their possible failure, robotic systems must...
Industrial systems are made of interacting components, which evolve at very different speeds. This i...