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ORCIDCharles S. Peskin
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2020 – today
- 2024
[j34]Zhe Chen
, Charles S. Peskin:
A Fourier spectral immersed boundary method with exact translation invariance, improved boundary resolution, and a divergence-free velocity field. J. Comput. Phys. 509: 113048 (2024)- 2023
- [i5]Zhe Chen, Charles S. Peskin:
A Fourier spectral immersed boundary method with exact translation invariance, improved boundary resolution, and a divergence-free velocity field. CoRR abs/2302.08694 (2023) - [i4]Marshall Davey, Charles Puelz, Simone Rossi, Margaret Anne Smith, David R. Wells, Greg Sturgeon, William Paul Segars, John P. Vavalle, Charles S. Peskin, Boyce E. Griffith:
Simulating Cardiac Fluid Dynamics in the Human Heart. CoRR abs/2307.02680 (2023) - 2022
- [j33]Mengjian Hua, Charles S. Peskin:
An analysis of the numerical stability of the immersed boundary method. J. Comput. Phys. 467: 111435 (2022) - [i3]Ondrej Maxian, Brennan Sprinkle, Charles S. Peskin, Aleksandar Donev:
The hydrodynamics of a twisting, bending, inextensible fiber in Stokes flow. CoRR abs/2201.04187 (2022) - 2021
- [i2]Mengjian Hua, Charles S. Peskin:
An Analysis of the Numerical Stability of the Immersed Boundary Method. CoRR abs/2111.15065 (2021) - 2020
- [j32]Jingwei Ma, Myan Do, Mark A. Le Gros, Charles S. Peskin, Carolyn A. Larabell, Yoichiro Mori, Samuel A. Isaacson:
Strong intracellular signal inactivation produces sharper and more robust signaling from cell membrane to nucleus. PLoS Comput. Biol. 16(11) (2020) - [j31]Ondrej Maxian, Charles S. Peskin:
An Immersed Boundary Method With Subgrid Resolution and Improved Numerical Stability Applied to Slender Bodies in Stokes Flow. SIAM J. Sci. Comput. 42(4): B847-B868 (2020) - [i1]Ondrej Maxian, Charles S. Peskin:
An immersed boundary method with subgrid resolution and improved numerical stability applied to slender bodies in Stokes flow. CoRR abs/2003.08216 (2020)
2010 – 2019
- 2017
- [j30]Yuanxun Bao, Aleksandar Donev, Boyce E. Griffith, David McQueen, Charles S. Peskin:
An Immersed Boundary method with divergence-free velocity interpolation and force spreading. J. Comput. Phys. 347: 183-206 (2017) - [j29]Thomas G. Fai, Alejandra Leo-Macias, David L. Stokes, Charles S. Peskin:
Image-based model of the spectrin cytoskeleton for red blood cell simulation. PLoS Comput. Biol. 13(10) (2017) - 2016
- [j28]Yuanxun Bao, Jason Kaye, Charles S. Peskin:
A Gaussian-like immersed-boundary kernel with three continuous derivatives and improved translational invariance. J. Comput. Phys. 316: 139-144 (2016) - 2015
- [j27]Chen-Hung Wu, Thomas G. Fai, Paul J. Atzberger, Charles S. Peskin:
Simulation of Osmotic Swelling by the Stochastic Immersed Boundary Method. SIAM J. Sci. Comput. 37(4) (2015) - 2014
- [j26]Yongsam Kim, Ming-Chih Lai, Charles S. Peskin, Yunchang Seol:
Numerical simulations of three-dimensional foam by the immersed boundary method. J. Comput. Phys. 269: 1-21 (2014) - [j25]Thomas G. Fai, Boyce E. Griffith, Yoichiro Mori, Charles S. Peskin:
Immersed Boundary Method for Variable Viscosity and Variable Density Problems Using Fast Constant-Coefficient Linear Solvers II: Theory. SIAM J. Sci. Comput. 36(3) (2014) - [j24]Thomas G. Fai, Boyce E. Griffith, Yoichiro Mori, Charles S. Peskin:
Erratum: Immersed Boundary Method for Variable Viscosity and Variable Density Problems Using Fast Constant-Coefficient Linear Solvers I: Numerical Method and Results. SIAM J. Sci. Comput. 36(4) (2014) - 2013
- [j23]Thomas G. Fai, Boyce E. Griffith, Yoichiro Mori, Charles S. Peskin:
Immersed Boundary Method for Variable Viscosity and Variable Density Problems Using Fast Constant-Coefficient Linear Solvers I: Numerical Method and Results. SIAM J. Sci. Comput. 35(5) (2013) - 2012
- [j22]Dharshi Devendran, Charles S. Peskin:
An immersed boundary energy-based method for incompressible viscoelasticity. J. Comput. Phys. 231(14): 4613-4642 (2012) - [j21]Florencio Balboa Usabiaga, John B. Bell, Rafael Delgado-Buscalioni, Aleksandar Donev, Thomas G. Fai, Boyce E. Griffith, Charles S. Peskin:
Staggered Schemes for Fluctuating Hydrodynamics. Multiscale Model. Simul. 10(4): 1369-1408 (2012) - 2011
- [c2]Yu Jiang, Srinivasa Chemudupati, Jan Morup Jorgensen, Zhong-Ping Jiang, Charles S. Peskin:
Optimal control mechanism involving the human kidney. CDC/ECC 2011: 3688-3693 - 2010
- [j20]Yongsam Kim, Ming-Chih Lai, Charles S. Peskin:
Numerical simulations of two-dimensional foam by the immersed boundary method. J. Comput. Phys. 229(13): 5194-5207 (2010) - [j19]Pilhwa Lee, Boyce E. Griffith, Charles S. Peskin:
The immersed boundary method for advection-electrodiffusion with implicit timestepping and local mesh refinement. J. Comput. Phys. 229(13): 5208-5227 (2010)
2000 – 2009
- 2009
- [j18]Yoichiro Mori, Charles S. Peskin:
A universal programmable fiber architecture for the representation of a general incompressible linearly elastic material as a fiber-reinforced fluid. Adv. Appl. Math. 43(1): 75-100 (2009) - [j17]Joseph M. Teran, Charles S. Peskin:
Tether Force Constraints in Stokes Flow by the Immersed Boundary Method on a Periodic Domain. SIAM J. Sci. Comput. 31(5): 3404-3416 (2009) - 2008
- [j16]Thomas T. Bringley, Charles S. Peskin:
Validation of a simple method for representing spheres and slender bodies in an immersed boundary method for Stokes flow on an unbounded domain. J. Comput. Phys. 227(11): 5397-5425 (2008) - [j15]Sookkyung Lim, Anca Ferent, X. Sheldon Wang, Charles S. Peskin:
Dynamics of a Closed Rod with Twist and Bend in Fluid. SIAM J. Sci. Comput. 31(1): 273-302 (2008) - 2007
- [j14]Estee Stern, Timothy J. Fort, Mark W. Miller, Charles S. Peskin, Vladimir Brezina:
Decoding modulation of the neuromuscular transform. Neurocomputing 70(10-12): 1753-1758 (2007) - [j13]Boyce E. Griffith, Richard D. Hornung, David McQueen, Charles S. Peskin:
An adaptive, formally second order accurate version of the immersed boundary method. J. Comput. Phys. 223(1): 10-49 (2007) - [j12]Paul J. Atzberger, Peter R. Kramer, Charles S. Peskin:
A stochastic immersed boundary method for fluid-structure dynamics at microscopic length scales. J. Comput. Phys. 224(2): 1255-1292 (2007) - 2006
- [j11]Samuel A. Isaacson, Charles S. Peskin:
Incorporating Diffusion in Complex Geometries into Stochastic Chemical Kinetics Simulations. SIAM J. Sci. Comput. 28(1): 47-74 (2006) - [j10]Yongsam Kim, Charles S. Peskin:
2-D Parachute Simulation by the Immersed Boundary Method. SIAM J. Sci. Comput. 28(6): 2294-2312 (2006) - [c1]Marc Ridler, David M. McQueen, Charles S. Peskin, Edward J. Vigmond:
Action Potential Duration Gradient Protects the Right Atrium from Fibrillating. EMBC 2006: 3978-3981 - 2004
- [j9]Ricardo Cortez, Charles S. Peskin, John M. Stockie, Douglas Varela:
Parametric Resonance in Immersed Elastic Boundaries. SIAM J. Appl. Math. 65(2): 494-520 (2004) - [j8]Sookkyung Lim, Charles S. Peskin:
Simulations of the Whirling Instability by the Immersed Boundary Method. SIAM J. Sci. Comput. 25(6): 2066-2083 (2004) - 2001
- [j7]Eunok Jung, Charles S. Peskin:
Two-Dimensional Simulations of Valveless Pumping Using the Immersed Boundary Method. SIAM J. Sci. Comput. 23(1): 19-45 (2001) - 2000
- [j6]Charles S. Peskin, Timothy C. Elston:
The Role of Protein Flexibility in Molecular Motor Function: Coupled Diffusion in a Tilted Periodic Potential. SIAM J. Appl. Math. 60(3): 842-867 (2000) - [j5]Charles S. Peskin, Dwight You, Timothy C. Elston:
Protein Flexibility and the Correlation Ratchet. SIAM J. Appl. Math. 61(3): 776-791 (2000)
1990 – 1999
- 1997
- [j4]David McQueen, Charles S. Peskin:
Shared-Memory Parallel Vector Implementation of the Immersed Boundary Method for the Computation of Blood Flow in the Beating Mammalian Heart. J. Supercomput. 11(3): 213-236 (1997) - 1992
- [j3]Cheng Tu, Charles S. Peskin:
Stability and Instability in the Computation of Flows with Moving Immersed Boundaries: A Comparison of Three Methods. SIAM J. Sci. Comput. 13(6): 1361-1376 (1992) - 1990
- [j2]Jeffrey I. Mechanick, Charles S. Peskin:
A C version of Fourier-derived affinity spectrum analysis (FASA) to resolve binding heterogeneity. Comput. Appl. Biosci. 6(3): 189-194 (1990) - [j1]James Sneyd, Charles S. Peskin:
Computation of Geodesic Trajectories on Tubular Surfaces. SIAM J. Sci. Comput. 11(2): 230-241 (1990)
Coauthor Index
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