Automated Computation of Therapies Using Failure Mode and Effects Analysis in the Medical Domain
Failure mode and effects analysis (FMEA) is a systematic approach to identify and analyse potential failures and their effects in a system or process. The FMEA approach, however, requires domain experts to manually analyse the FMEA model to derive risk-reducing actions that should be applied. In thi...
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| creator | Luttermann, Malte Baake, Edgar Bouchagiar, Juljan Gebel, Benjamin Grüning, Philipp Manikwadura, Dilini Schollemann, Franziska Teifke, Elisa Rostalski, Philipp Möller, Ralf |
| description | Failure mode and effects analysis (FMEA) is a systematic approach to identify
and analyse potential failures and their effects in a system or process. The
FMEA approach, however, requires domain experts to manually analyse the FMEA
model to derive risk-reducing actions that should be applied. In this paper, we
provide a formal framework to allow for automatic planning and acting in FMEA
models. More specifically, we cast the FMEA model into a Markov decision
process which can then be solved by existing solvers. We show that the FMEA
approach can not only be used to support medical experts during the modelling
process but also to automatically derive optimal therapies for the treatment of
patients. |
| doi_str_mv | 10.48550/arxiv.2405.03406 |
| format | Article |
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and analyse potential failures and their effects in a system or process. The
FMEA approach, however, requires domain experts to manually analyse the FMEA
model to derive risk-reducing actions that should be applied. In this paper, we
provide a formal framework to allow for automatic planning and acting in FMEA
models. More specifically, we cast the FMEA model into a Markov decision
process which can then be solved by existing solvers. We show that the FMEA
approach can not only be used to support medical experts during the modelling
process but also to automatically derive optimal therapies for the treatment of
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and analyse potential failures and their effects in a system or process. The
FMEA approach, however, requires domain experts to manually analyse the FMEA
model to derive risk-reducing actions that should be applied. In this paper, we
provide a formal framework to allow for automatic planning and acting in FMEA
models. More specifically, we cast the FMEA model into a Markov decision
process which can then be solved by existing solvers. We show that the FMEA
approach can not only be used to support medical experts during the modelling
process but also to automatically derive optimal therapies for the treatment of
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and analyse potential failures and their effects in a system or process. The
FMEA approach, however, requires domain experts to manually analyse the FMEA
model to derive risk-reducing actions that should be applied. In this paper, we
provide a formal framework to allow for automatic planning and acting in FMEA
models. More specifically, we cast the FMEA model into a Markov decision
process which can then be solved by existing solvers. We show that the FMEA
approach can not only be used to support medical experts during the modelling
process but also to automatically derive optimal therapies for the treatment of
patients.</abstract><doi>10.48550/arxiv.2405.03406</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Artificial Intelligence |
| title | Automated Computation of Therapies Using Failure Mode and Effects Analysis in the Medical Domain |
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