Add to ORKGModeling Cardiac Pacemaker Malfunctions With the Virtual Heart Model Implantable cardiac devices such as artificial pacemakers deliver therapies according to the timing information from the heart. Such devices work under the assumptions of perfect sensing, which are: (a) the pacemaker leads remain in place, and (b) the pacing therapy in one chamber (e.g. atrium) is insulated from the other chambers (e.g. ventricles). But there are common cases which violate these assumptions and the mechanisms for imperfect sensing cannot be captured by a simple signal generator. In this paper we use the Penn Virtual Heart Model (VHM) to investigate the spatial and temporal aspects of the electrical conduction system of the heart in a closed-loop with a pac...
Designing bug-free medical device software is dif- ficult, especially in complex implantable devices...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...
The design of bug-free and safe medical device software is challenging, especially in complex implan...
Implantable cardiac devices such as artificial pacemakers deliver therapies according to the timing ...
Implantable cardiac devices such as artificial pacemakers deliver therapies according to the timing ...
Designing bug-free medical device software is dif- ficult, especially in complex implantable devices...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
We developed a closed-loop model of cardiac stimulation using a finite element model of the whole-he...
We developed a closed-loop model of cardiac stimulation using a finite element model of the whole-he...
We developed a closed-loop model of cardiac stimulation using a finite element model of the whole-he...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Designing bug-free medical device software is dif- ficult, especially in complex implantable devices...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...
The design of bug-free and safe medical device software is challenging, especially in complex implan...
Implantable cardiac devices such as artificial pacemakers deliver therapies according to the timing ...
Implantable cardiac devices such as artificial pacemakers deliver therapies according to the timing ...
Designing bug-free medical device software is dif- ficult, especially in complex implantable devices...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
Designing bug-free medical device software is challenging, especially in complex implantable devices...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
We developed a closed-loop model of cardiac stimulation using a finite element model of the whole-he...
We developed a closed-loop model of cardiac stimulation using a finite element model of the whole-he...
We developed a closed-loop model of cardiac stimulation using a finite element model of the whole-he...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Artificial pacemakers are one of the most widely-used implantable devices today, with millions impla...
Designing bug-free medical device software is dif- ficult, especially in complex implantable devices...
Model-Based Closed-Loop Testing of Implantable Pacemakers The increasing complexity of software in i...
The design of bug-free and safe medical device software is challenging, especially in complex implan...