We develop a model-based framework which supports approximate quantitative verification of implantable cardiac pacemaker models over hybrid heart models. The framework is based on hybrid input–output automata and can be instantiated with user-specified pacemaker and heart models. For the specifications, we identify two property patterns which are tailored to the verification of pacemakers: “can the pacemaker maintain a normal heart behaviour?” and “what is the energy level of the battery after t time units?”. We implement the framework in Simulink based on the discrete-time simulation semantics and endow it with a range of basic and advanced quantitative property checks. The advanced property checks include the correction of pacemaker media...
Rate-adaptive pacemakers are cardiac devices able to automatically adjust the pacing rate in patient...
Abstract—Rate-adaptive pacemakers make use of sensors in order to automatically adjust the pacing ra...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...
We develop a model-based framework which supports approximate quantitative verification of implantab...
We develop a novel hybrid heart model in Simulink that is suitable for quantitative verification of ...
We develop a novel hybrid heart model in Simulink that is suitable for quantitative verification of ...
This poster paper reports on a model-based framework for software quality assurance for cardiac pace...
Abstract—Implantable medical devices, such as cardiac pace-makers, must be designed and programmed t...
This poster paper reports on a model-based framework for software quality assurance for cardiac pace...
Abstract. Embedded software is at the heart of implantable medical de-vices such as cardiac pacemake...
Abstract. Embedded software is at the heart of implantable medical de-vices such as cardiac pacemake...
Abstract. We are witnessing a huge growth in popularity of wearable and implantable devices equipped...
Probabilistic model checking is a powerful technique used to ensure the correct functioning of syste...
Implantable cardiac pacemakers are medical devices that can monitor and correct abnormal heart rhyth...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
Rate-adaptive pacemakers are cardiac devices able to automatically adjust the pacing rate in patient...
Abstract—Rate-adaptive pacemakers make use of sensors in order to automatically adjust the pacing ra...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...
We develop a model-based framework which supports approximate quantitative verification of implantab...
We develop a novel hybrid heart model in Simulink that is suitable for quantitative verification of ...
We develop a novel hybrid heart model in Simulink that is suitable for quantitative verification of ...
This poster paper reports on a model-based framework for software quality assurance for cardiac pace...
Abstract—Implantable medical devices, such as cardiac pace-makers, must be designed and programmed t...
This poster paper reports on a model-based framework for software quality assurance for cardiac pace...
Abstract. Embedded software is at the heart of implantable medical de-vices such as cardiac pacemake...
Abstract. Embedded software is at the heart of implantable medical de-vices such as cardiac pacemake...
Abstract. We are witnessing a huge growth in popularity of wearable and implantable devices equipped...
Probabilistic model checking is a powerful technique used to ensure the correct functioning of syste...
Implantable cardiac pacemakers are medical devices that can monitor and correct abnormal heart rhyth...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
Rate-adaptive pacemakers are cardiac devices able to automatically adjust the pacing rate in patient...
Abstract—Rate-adaptive pacemakers make use of sensors in order to automatically adjust the pacing ra...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...