Estimating the arterial CO2 partial pressure by sensor fusion of end-tidal and transcutaneous CO2 measurements

Valerie Pfannschmidt; Sara Hillmann; Mark Schoberer; André Stollenwerk

doi:10.18416/AUTOMED.2026.2534

Proceedings on Automation in Medical Engineering
Vol. 3 No. 1 (2026): Proc AUTOMED

18th Interdisciplinary AUTOMED Symposium in Collaboration with the TC Medical Robotics, 2534

Estimating the arterial CO2 partial pressure by sensor fusion of end-tidal and transcutaneous CO2 measurements

Valerie Pfannschmidt , Sara Hillmann , Mark Schoberer , André Stollenwerk

This work is licensed under a Creative Commons Attribution 4.0 International License.

Abstract

Closed-loop control of the arterial CO₂ partial pressure (PaCO₂) could improve respiratory care in preterm neonates but requires an accurate, continuous, and noninvasive surrogate of PaCO₂. We propose fusing end-tidal and transcutaneous CO₂ measurements to obtain such a signal. We evaluate two fusion approaches: (i) a linear combination of the two measurements and (ii) a state-augmented Kalman filter. Both methods are tested on mechanical ventilation data from five preterm lambs. In this dataset, both fusion approaches improve PaCO₂ estimation compared with either end-tidal or transcutaneous CO₂ alone, supporting their potential for future closed-loop ventilation systems.

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