Enhancement of flow measurements using fluid-dynamic constraints

Abstract: Novel experimental modalities acquire spatially resolved velocity measurements for steady state and transient flows which are of interest for engineering and biological applications. One of the drawbacks of such high resolution velocity data is their susceptibility to measurement errors. In this paper, we propose a novel filtering strategy that allows enhancement of noisy measurements to obtain reconstruction of smooth divergence free velocity and corresponding pressure fields, which together approximately com… Show more

“…This does not affect the estimates in vitro, due to the highly accurate geometry identification, but requires careful adjustments of the region growing parameters of the magnitude pre-processing in vivo. Furthermore, the accuracy of the velocity reconstruction may be further enhanced by including fluid dynamical models in the smoothing process [45].…”

Parametric Sequential Method for MRI-Based Wall Shear Stress Quantification

“…This does not affect the estimates in vitro, due to the highly accurate geometry identification, but requires careful adjustments of the region growing parameters of the magnitude pre-processing in vivo. Furthermore, the accuracy of the velocity reconstruction may be further enhanced by including fluid dynamical models in the smoothing process [45].…”

Parametric Sequential Method for MRI-Based Wall Shear Stress Quantification

Comparison of wall shear stress estimates obtained by laser Doppler velocimetry, magnetic resonance imaging and numerical simulations