Quick intro of the FluIDCoM lab @PSUMechEng - we combine experimental and fundamental flow physics with image and signal processing in order to improve analysis methods and current clinical understanding of neuro- and cardiovascular disease, injury, function, and treatment.
New paper:
Characterizing the onset of transitional and turbulent flow regimes in pipe flows using instantaneous time-frequency-based analysis
@NikhilShirdade led this effort with co-authors Jibin Joy Kolliyil and Baha Al-Deen T. El-Khader
https://t.co/wcUeKIDcLE
Check out our lab’s new paper:
Investigating intermittent behaviors in transitional flows using a novel time–frequency-based method
Great work by FluIDCoM Lab students Jibin Joy Kolliyil and @NikhilShirdade!
https://t.co/NJdCycutTy
Excited to share our paper “Effect of the Womersley number on transition to turbulence in pipe flow: An experimental study” - out now in Physics of Fluids.
https://t.co/F163gzIq7A
.@pvlachos leads a team at #Purdue helping to save babies' lives through their work with echocardiograms. Read here about it: https://t.co/09ir8KkhDw. #RCHE#Healthcare#Cardiology
Assistant Professor Melissa Brindise received an @American_Heart award to study the factors that may increase the risk of a brain aneurysm rupture. This research could help practitioners make more accurate clinical decisions on whether to treat aneurysms: https://t.co/GJpSfllh9P
Excited to announce that I received an @American_Heart Association Career Development Award to study complex flow environments in cerebral aneurysms!
@AHAScience@PSUMechEng
Our new preprint is available!
In this paper we introduce ProID, an automated left ventricle segmentation method for B-mode echos.
https://t.co/GiWMFzD3vq