Smoothed finite element methods (S-FEM): an overview and recent developments
The smoothed finite element methods (S-FEM) are a family of methods formulated through
carefully designed combinations of the standard FEM and some of the techniques from the …
carefully designed combinations of the standard FEM and some of the techniques from the …
Smoothed particle hydrodynamics and its applications in fluid-structure interactions
In ocean engineering, the applications are usually related to a free surface which brings so
many interesting physical phenomena (eg water waves, impacts, splashing jets, etc.). To …
many interesting physical phenomena (eg water waves, impacts, splashing jets, etc.). To …
Space–time interface-tracking with topology change (ST-TC)
To address the computational challenges associated with contact between moving
interfaces, such as those in cardiovascular fluid–structure interaction (FSI), parachute FSI …
interfaces, such as those in cardiovascular fluid–structure interaction (FSI), parachute FSI …
Space–time VMS method for flow computations with slip interfaces (ST-SI)
K Takizawa, TE Tezduyar, H Mochizuki… - … Models and Methods …, 2015 - World Scientific
We present the space–time variational multiscale (ST-VMS) method for flow computations
with slip interfaces (ST-SI). The method is intended for fluid–structure interaction (FSI) …
with slip interfaces (ST-SI). The method is intended for fluid–structure interaction (FSI) …
Multiscale space–time methods for thermo-fluid analysis of a ground vehicle and its tires
We present the core and special multiscale space–time (ST) methods we developed for
thermo-fluid analysis of a ground vehicle and its tires. We also present application of these …
thermo-fluid analysis of a ground vehicle and its tires. We also present application of these …
An ultrasound-exclusive non-invasive computational diagnostic framework for personalized cardiology of aortic valve stenosis
Aortic stenosis (AS) is an acute and chronic cardiovascular disease and If left untreated,
50% of these patients will die within two years of developing symptoms. AS is characterized …
50% of these patients will die within two years of developing symptoms. AS is characterized …
Numerical methods for fluid–structure interaction models of aortic valves
G Marom - Archives of Computational Methods in Engineering, 2015 - Springer
In the recent years, fluid structure interaction (FSI) models of the aortic valve and root have
become increasingly common for two main reasons. The medical reason is that millions of …
become increasingly common for two main reasons. The medical reason is that millions of …
Space–time fluid mechanics computation of heart valve models
Fluid mechanics computation of heart valves with an interface-tracking (moving-mesh)
method was one of the classes of computations targeted in introducing the space–time (ST) …
method was one of the classes of computations targeted in introducing the space–time (ST) …
Space–time computational analysis of MAV flapping-wing aerodynamics with wing clapping
Computational analysis of flapping-wing aerodynamics with wing clapping was one of the
classes of computations targeted in introducing the space–time (ST) interface-tracking …
classes of computations targeted in introducing the space–time (ST) interface-tracking …
ST and ALE-VMS methods for patient-specific cardiovascular fluid mechanics modeling
This paper provides a review of the space–time (ST) and Arbitrary Lagrangian–Eulerian
(ALE) techniques developed by the first three authors' research teams for patient-specific …
(ALE) techniques developed by the first three authors' research teams for patient-specific …