Litcius/Paper detail

Model-Based Thermometry for Laser Ablation Procedure Using Kalman Filters and Sparse Temperature Measurements

N. Schulmann, M.A. Soltani-Sarvestani, M. De Landro, S. Korganbayev, S. Cotin, P. Saccomandi

2022IEEE Transactions on Biomedical Engineering17 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: We implement a data assimilation Bayesian framework for the reconstruction of the spatiotemporal profile of the tissue temperature during laser irradiation. The predictions of a physical model simulating the heat transfer in the tissue are associated with sparse temperature measurements, using an Unscented Kalman Filter. METHODS: We compare a standard state-estimation filtering procedure with a joint-estimation (state and parameters) approach: whereas in the state-estimation only the temperature is evaluated, in the joint-estimation the filter corrects also uncertain model parameters (i.e., the medium thermal diffusivity, and laser beam properties). We have tested the method on synthetic temperature data, and on the temperature measured on agar-gel phantom and porcine liver with fiber optic sensors. RESULTS: C in phantom 2D data. Our approach allows also suggesting a strategy for optimizing the temperature estimation based on the positions of the sensors. Under the constraint of using only two sensors, optimal temperature estimation is obtained when one sensor is placed in proximity of the source, and the other one is non-symmetrical. CONCLUSION: The joint-estimation significantly improves the predictive capability of the physical model. SIGNIFICANCE: This work opens new perspectives on the benefit of data assimilation frameworks for laser therapy monitoring.

Topics & Concepts

Kalman filterTemperature measurementLaserMaterials scienceLaser ablationAblationData acquisitionWork (physics)AcousticsData assimilationArtificial intelligenceOpticsComputer scienceLaser scanningBiomedical engineeringLaser beamsSignal processingPhotoacoustic and Ultrasonic ImagingGas Dynamics and Kinetic TheoryInfrared Thermography in Medicine