Time Domain Estimation of Arterial Parameters using the Windkessel Model and the Monte Carlo Method
Time Domain Estimation of Arterial Parameters using the Windkessel Model and the Monte Carlo Method
Archivos
Fecha
2016
Autores
Gostuski, Vladimir
Pastore, Ignacio
Rodriguez Palacios, Gaspar
Vaca Diez, Gustavo
Moscoso-Vasquez, Marcela
Risk, Marcelo
Título de la revista
ISSN de la revista
Título del volumen
Editor
IOP Publishing Ltd
Resumen
"Numerous parameter estimation techniques exist for characterizing the arterial system using electrical circuit analogs. However, they are often limited by their requirements and usually high computational burdain. Therefore, a new method for estimating arterial parameters based on Monte Carlo simulation is proposed. A three element Windkessel model was used to represent the arterial system. The approach was to reduce the error between the calculated and physiological aortic pressure by randomly generating arterial parameter values, while keeping constant the arterial resistance. This last value was obtained for each subject using the arterial flow, and was a necessary consideration in order to obtain a unique set of values for the arterial compliance and peripheral resistance. The estimation technique was applied to in vivo data containing steady beats in mongrel dogs, and it reliably estimated Windkessel arterial parameters. Further, this method appears to be computationally efficient for on-line time-domain estimation of these parameters."
Descripción
Palabras clave
Citación
Gostuski, V. et al (2016) Time Domain Estimation of Arterial Parameters using the Windkessel Model and the Monte Carlo Method. J. Phys.: Conf. Ser. 705 012028