2026 Boyce E. Griffith: Engineering and Technology Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Engineering and Technology	43	6276	6059	1730	1603	157	6221

Overview

Boyce E. Griffith is affiliated with the University of North Carolina at Chapel Hill in the United States. The research conducted by Griffith spans multiple domains within engineering and medicine, with a strong emphasis on computational mechanics and biomedical engineering.

The main fields of study throughout Griffith's career include:

Engineering
Medicine

Within these fields, Griffith has focused on several subfields, such as:

Computational Mechanics
Cardiology and Cardiovascular Medicine
Biomedical Engineering
Electrical and Electronic Engineering
Mechanics of Materials

The scope of Griffith's work covers a range of scientific topics, including:

Lattice Boltzmann Simulation Studies
Advanced Numerical Methods in Computational Mathematics
Fluid Dynamics and Vibration Analysis
Cardiac Valve Diseases and Treatments
Cardiovascular Function and Risk Factors
Numerical Methods in Engineering
Elasticity and Material Modeling

Griffith has published in several venues with notable frequency. These publication venues include:

UNC Libraries
arXiv (Cornell University)
Journal of Computational Physics
SSRN Electronic Journal
bioRxiv (Cold Spring Harbor Laboratory)

Some recent papers authored or co-authored by Griffith are:

Fluid-Structure Interaction Models of Bioprosthetic Heart Valve Dynamics in an Experimental Pulse Duplicator, 2020, Annals of Biomedical Engineering
Bioprosthetic Aortic Valve Diameter and Thickness Are Directly Related to Leaflet Fluttering: Results from a Combined Experimental and Computational Modeling Study, 2020, JTCVS Open
Stabilization Approaches for the Hyperelastic Immersed Boundary Method for Problems of Large-Deformation Incompressible Elasticity, 2020, Computer Methods in Applied Mechanics and Engineering
A Sharp Interface Lagrangian-Eulerian Method for Rigid-Body Fluid-Structure Interaction, 2021, Journal of Computational Physics
Patient-Specific Immersed Finite Element-Difference Model of Transcatheter Aortic Valve Replacement, 2022, Annals of Biomedical Engineering

Frequent collaborators of Griffith include the following researchers:

Ebrahim M. Kolahdouz
Amneet Pal Singh Bhalla
Charles Puelz
Símone Rossi
Aaron Barrett

Best Publications

An adaptive, formally second order accurate version of the immersed boundary method

Boyce E. Griffith;Richard D. Hornung;David M. McQueen;Charles S. Peskin

435
Citations
On the order of accuracy of the immersed boundary method: Higher order convergence rates for sufficiently smooth problems

Boyce E. Griffith;Charles S. Peskin

377
Citations
Immersed Methods for Fluid-Structure Interaction.

Boyce E. Griffith;Neelesh A. Patankar

303
Citations
Simulating the fluid dynamics of natural and prosthetic heart valves using the immersed boundary method

Boyce Eugene Griffith;Xiaoyu Luo;David M. McQueen;Charles S. Peskin

223
Citations
A unified mathematical framework and an adaptive numerical method for fluid-structure interaction with rigid, deforming, and elastic bodies

Amneet Pal Singh Bhalla;Rahul Bale;Boyce E. Griffith;Neelesh A. Patankar

220
Citations
Immersed boundary model of aortic heart valve dynamics with physiological driving and loading conditions.

Boyce E. Griffith

212
Citations
Hybrid finite difference/finite element immersed boundary method.

Boyce Eugene Griffith;Xiaoyu Luo

205
Citations
An accurate and efficient method for the incompressible Navier-Stokes equations using the projection method as a preconditioner

Boyce E. Griffith

169
Citations
Staggered Schemes for Fluctuating Hydrodynamics

Florencio Balboa Usabiaga;John B. Bell;Rafael Delgado-Buscalioni;Aleksandar Donev

158
Citations
Structure‐based finite strain modelling of the human left ventricle in diastole

H. M. Wang;H. Gao;X. Y. Luo;C. Berry

148
Citations
Verification of cardiac mechanics software: benchmark problems and solutions for testing active and passive material behaviour

Sander Land;Viatcheslav Gurev;Sander Arens;Christoph M. Augustin

134
Citations
Emerging Trends in Heart Valve Engineering: Part I. Solutions for Future

Arash Kheradvar;Elliott M. Groves;Lakshmi P. Dasi;S. Hamed Alavi

119
Citations
On the Volume Conservation of the Immersed Boundary Method

Boyce Eugene Griffith

113
Citations
Hydrodynamics of suspensions of passive and active rigid particles: A rigid multiblob approach

Florencio Balboa Usabiaga;Bakytzhan Kallemov;Bakytzhan Kallemov;Blaise Delmotte;Amneet Pal Singh Bhalla

112
Citations
An immersed boundary method for rigid bodies

Bakytzhan Kallemov;Amneet Pal Singh Bhalla;Boyce Eugene Griffith;Aleksandar Donev

102
Citations
Mechanical strength of aneurysmatic and dissected human thoracic aortas at different shear loading modes

Gerhard Sommer;Selda Mitatova Sherifova;Peter J Oberwalder;Otto E Dapunt

100
Citations
Brownian dynamics without Green's functions.

Steven Delong;Florencio Balboa Usabiaga;Rafael Delgado-Buscalioni;Boyce Eugene Griffith

98
Citations
Fluid–Structure Interaction Models of Bioprosthetic Heart Valve Dynamics in an Experimental Pulse Duplicator

Jae H Lee;Alex D Rygg;Ebrahim M Kolahdouz;Ebrahim M Kolahdouz;Simone Rossi

96
Citations
A modified Holzapfel-Ogden law for a residually stressed finite strain model of the human left ventricle in diastole

H. M. Wang;X. Y. Luo;H. Gao;R. W. Ogden

88
Citations
Temporal integrators for fluctuating hydrodynamics

Steven Delong;Boyce Eugene Griffith;Eric Vanden-Eijnden;Aleksandar Donev

83
Citations
An Immersed Boundary Method for Rigid Bodies

B. Kallemov;A. Pal Singh Bhalla;B. E. Griffith;A. Donev

79
Citations