Towards an Intelligent Framework for Personalized Simulation-enhanced Surgery Assistance: Linking a Simulation Ontology to a Reinforcement Learning Algorithm for Calibration of Numerical Simulations

Abstract:

Evolving our previous research results in the context of cognition-guidance and patient-specifity for simulation-enhanced cardiac surgery assistance, in this work we further investigate on (1) a machine learning framework which allows to patient-individually calibrate soft tissue material parameters for subsequent simulation, and (2) a profound knowledge management framework which may enhance the ontology-driven overall setup of the cognition-guided surgery simulation in a clinic environment. Rather than being a closed research work with an in-depth theory backup and a complete evaluation, we here present a technical report and some interesting experimental works that are to serve for further research and development.

SEEK ID: https://publications.h-its.org/publications/236

DOI: 10.11588/emclpp.2017.05.42079

Research Groups: Data Mining and Uncertainty Quantification

Publication type: Journal

Journal: Preprint Series of the Engineering Mathematics and Computing Lab

Citation: Preprint Series of the Engineering Mathematics and Computing Lab, vol. 0(05)

Date Published: 2017

Registered Mode: imported from a bibtex file

Authors: Nicolai Schoch, Vincent Heuveline

Citation
Schoch, N., & Heuveline, V. (2017). Towards an Intelligent Framework for Personalized Simulation-enhanced Surgery Assistance: Linking a Simulation Ontology to a Reinforcement Learning Algorithm for Calibration of Numerical Simulations. Preprint Series of the Engineering Mathematics and Computing Lab, No 05 (2017): Towards an Intelligent Framework for Personalized Simulation-enhanced Surgery Assistance: Linking a Simulation Ontology to a Reinforcement Learning Algorithm for Calibration of Numerical Simulations. https://doi.org/10.11588/EMCLPP.2017.05.42079
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Created: 7th Sep 2019 at 10:40

Last updated: 5th Mar 2024 at 21:23

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