Fauci, Lisa J.
Overview
Works:  5 works in 14 publications in 1 language and 248 library holdings 

Genres:  Conference papers and proceedings 
Roles:  Editor, Author 
Publication Timeline
.
Most widely held works by
Lisa J Fauci
Computational modeling in biological fluid dynamics by
Lisa J Fauci(
Book
)
2 editions published in 2001 in English and held by 215 WorldCat member libraries worldwide
This volume contains invited and refereed papers based upon presentations given in the IMA workshop on Computational Modeling in Biological Fluid Dynamics during January of 1999, which was part of the yearlong program "Mathematics in Biology." This workshop brought together biologists, zoologists, engineers, and mathematicians working on a variety of issues in biological fluid dynamics. A unifying theme in biological fluid dynamics is the interaction of elastic boundaries with a surrounding fluid. These moving boundary problems, coupled with the equations of incompressible, viscuous fluid dynamics, pose formidable challenges to the computational scientist. In this volume, a variety of computational methods are presented, both in general terms and within the context of applications including ciliary beating, blood flow, and insect flight. Our hope is that this collection will allow others to become aware of and interested in the exciting accomplishments and challenges uncovered during this workshop
2 editions published in 2001 in English and held by 215 WorldCat member libraries worldwide
This volume contains invited and refereed papers based upon presentations given in the IMA workshop on Computational Modeling in Biological Fluid Dynamics during January of 1999, which was part of the yearlong program "Mathematics in Biology." This workshop brought together biologists, zoologists, engineers, and mathematicians working on a variety of issues in biological fluid dynamics. A unifying theme in biological fluid dynamics is the interaction of elastic boundaries with a surrounding fluid. These moving boundary problems, coupled with the equations of incompressible, viscuous fluid dynamics, pose formidable challenges to the computational scientist. In this volume, a variety of computational methods are presented, both in general terms and within the context of applications including ciliary beating, blood flow, and insect flight. Our hope is that this collection will allow others to become aware of and interested in the exciting accomplishments and challenges uncovered during this workshop
Computational modeling in biological fluid dynamics by
Willard Miller(
Book
)
7 editions published in 2001 in English and held by 28 WorldCat member libraries worldwide
Contains invited and refereed papers based upon presentations given in the IMA workshop on Computational Modeling in Biological Fluid Dynamics during January of 1999
7 editions published in 2001 in English and held by 28 WorldCat member libraries worldwide
Contains invited and refereed papers based upon presentations given in the IMA workshop on Computational Modeling in Biological Fluid Dynamics during January of 1999
A gridfree method for high Reynolds number flow around an immersed elastic structure by
Lisa J Fauci(
)
3 editions published between 1990 and 1991 in English and held by 3 WorldCat member libraries worldwide
This report is concerned with the computational modeling of problems in biological fluid mechanics. Typically, these problems involve the study of flow about highly flexible, moving boundaries; for instance, distensible vessels, moving heart walls, and valves. The fluid along with the boundary constitutes a coupled mechanical system in the sense that the motion of the boundary is determined by that of the fluid, but at the same time the boundary exerts force on the fluid and alters its motion. Finite difference schemes do not perform well in simulations of high Reynolds number flow because a restrictive number of grid points must be used to resolve boundary layers. In this report we present a gridfree numerical method which may be used to calculate flows around an immersed elastic structure. Numerical results are presented in 2 simple cases: flow past a circular cylinder and flow past a flat plate. The boundary motion is specified and is not time dependent. however, this algorithm can be used to simulate more complicated, time dependent problems in biological fluid mechanics
3 editions published between 1990 and 1991 in English and held by 3 WorldCat member libraries worldwide
This report is concerned with the computational modeling of problems in biological fluid mechanics. Typically, these problems involve the study of flow about highly flexible, moving boundaries; for instance, distensible vessels, moving heart walls, and valves. The fluid along with the boundary constitutes a coupled mechanical system in the sense that the motion of the boundary is determined by that of the fluid, but at the same time the boundary exerts force on the fluid and alters its motion. Finite difference schemes do not perform well in simulations of high Reynolds number flow because a restrictive number of grid points must be used to resolve boundary layers. In this report we present a gridfree numerical method which may be used to calculate flows around an immersed elastic structure. Numerical results are presented in 2 simple cases: flow past a circular cylinder and flow past a flat plate. The boundary motion is specified and is not time dependent. however, this algorithm can be used to simulate more complicated, time dependent problems in biological fluid mechanics
The effect of intrinsic muscular nonlinearities on the energetics of locomotion in a computational model of an anguilliform
swimmer(
)
1 edition published in 2015 in English and held by 1 WorldCat member library worldwide
1 edition published in 2015 in English and held by 1 WorldCat member library worldwide
A computational model of aquatic animal locomotion by
Lisa J Fauci(
)
1 edition published in 1986 in English and held by 1 WorldCat member library worldwide
1 edition published in 1986 in English and held by 1 WorldCat member library worldwide
Audience Level
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Related Identities
 Gueron, Shay Editor
 Institute of Mathematics and Its Applications
 Institute for mathematics and its applications (Minneapolis, Minn.) Editor
 Miller, Willard Author
 TULANE UNIV NEW ORLEANS LA Dept. of MATHEMATICS
 Hamlet, Christina
 Tytell, Eric D.
 Armstrong Laboratory (U.S.). Aerospace Medicine Directorate
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Alternative Names
Lisa Fauci American mathematician
Lisa Fauci Amerikaans wiskundige
Lisa Fauci matemática estadounidense
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