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High-order fractional partial differential equation transform for molecular surface construction

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Published/Copyright: December 20, 2012
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Computational and Mathematical Biophysics
From the journal Computational and Mathematical Biophysics Volume 1 Issue 2013

Received: 2012-9-05
Accepted: 2012-10-26
Published Online: 2012-12-20

©2012 Versita Sp. z o.o.

Articles in the same Issue

  1. High-order fractional partial differential equation transform for molecular surface construction
  2. Genetic Exponentially Fitted Method for Solving Multi-dimensional Drift-diffusion Equations
  3. Progress in developing Poisson-Boltzmann equation solvers
  4. A Stochastic Solver of the Generalized Born Model
  5. An Extension of 3D Zernike Moments for Shape Description and Retrieval of Maps Defined in Rectangular Solids
  6. Parallel Adaptive Finite Element Algorithms for Solving the Coupled Electro-diffusion Equations
  7. Fully implicit ADI schemes for solving the nonlinear Poisson-Boltzmann equation
  8. Analysis of fast boundary-integral approximations for modeling electrostatic contributions of molecular binding
  9. Graphical Processing Unit accelerated Poisson equation solver and its application for calculation of single ion potential in ion-channels
  10. Multi-core CPU or GPU-accelerated Multiscale Modeling for Biomolecular Complexes
https://doi.org/10.2478/mlbmb-2012-0001
Keywords for this article
Molecular surface generation; High order fractional derivatives; Fractional calculus; Fractional PDE transform

Articles in the same Issue

  1. High-order fractional partial differential equation transform for molecular surface construction
  2. Genetic Exponentially Fitted Method for Solving Multi-dimensional Drift-diffusion Equations
  3. Progress in developing Poisson-Boltzmann equation solvers
  4. A Stochastic Solver of the Generalized Born Model
  5. An Extension of 3D Zernike Moments for Shape Description and Retrieval of Maps Defined in Rectangular Solids
  6. Parallel Adaptive Finite Element Algorithms for Solving the Coupled Electro-diffusion Equations
  7. Fully implicit ADI schemes for solving the nonlinear Poisson-Boltzmann equation
  8. Analysis of fast boundary-integral approximations for modeling electrostatic contributions of molecular binding
  9. Graphical Processing Unit accelerated Poisson equation solver and its application for calculation of single ion potential in ion-channels
  10. Multi-core CPU or GPU-accelerated Multiscale Modeling for Biomolecular Complexes
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