International audienceMode transition in any inappropriate mode can be a common cause of any mishap in a complex health-care system. This paper presents an approach for formalizing and reasoning about optimal mode transition in a health-care system that uses several operating modes in various operating states. Modes are formal- ized and their relation to a state-based formalism is established through a re- finement approach. The efficiency of this approach is presented by formalizing an ideal operating mode transition of a cardiac pacemaker case study. An incre- mental approach is used to develop the system and its detailed design is verified through a series of refinements. The consequence of this approach is to improve system structuring,...
Introduction: error occurrence in computer systems, can lead to irreparable damage, especially those...
<p>A pacemaker is a medical device that uses electrical impulses, delivered by electrodes contractin...
The verification of safety requirements is fundamental in many safety-critical domains. In order to ...
International audienceBuilding high quality and zero defects medical software-based devices is a cri...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Associated research group: Critical Systems Research GroupThe behavior of a complex system is freque...
International audienceTools and techniques based on formal methods have been recognized as a promisi...
International audienceFormal methods based tools and techniques have been recognised to be a promisi...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...
Abstract—Implantable medical devices, such as cardiac pace-makers, must be designed and programmed t...
International audienceFormal methods have emerged as an alternative approach to ensuring quality and...
Automatic mode switching (AMS) is now a programmable function in most contemporary dual chamber pace...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
While the hemodynamic and clinical significance of automatic mode switching (AMS) in patients with p...
As the physical world evolves with time, safety-critical systems are usually used with time-dependen...
Introduction: error occurrence in computer systems, can lead to irreparable damage, especially those...
<p>A pacemaker is a medical device that uses electrical impulses, delivered by electrodes contractin...
The verification of safety requirements is fundamental in many safety-critical domains. In order to ...
International audienceBuilding high quality and zero defects medical software-based devices is a cri...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Associated research group: Critical Systems Research GroupThe behavior of a complex system is freque...
International audienceTools and techniques based on formal methods have been recognized as a promisi...
International audienceFormal methods based tools and techniques have been recognised to be a promisi...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...
Abstract—Implantable medical devices, such as cardiac pace-makers, must be designed and programmed t...
International audienceFormal methods have emerged as an alternative approach to ensuring quality and...
Automatic mode switching (AMS) is now a programmable function in most contemporary dual chamber pace...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
While the hemodynamic and clinical significance of automatic mode switching (AMS) in patients with p...
As the physical world evolves with time, safety-critical systems are usually used with time-dependen...
Introduction: error occurrence in computer systems, can lead to irreparable damage, especially those...
<p>A pacemaker is a medical device that uses electrical impulses, delivered by electrodes contractin...
The verification of safety requirements is fundamental in many safety-critical domains. In order to ...