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Recent Advances in Scientific Computing and Applications
 
Edited by: Jichun Li University of Nevada, Las Vegas, NV
Hongtao Yang University of Nevada, Las Vegas, NV
Eric Machorro National Security Technologies, LLC, Las Vegas, NV
Recent Advances in Scientific Computing and Applications
eBook ISBN:  978-0-8218-9501-6
Product Code:  CONM/586.E
List Price: $125.00
MAA Member Price: $112.50
AMS Member Price: $100.00
Recent Advances in Scientific Computing and Applications
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Recent Advances in Scientific Computing and Applications
Edited by: Jichun Li University of Nevada, Las Vegas, NV
Hongtao Yang University of Nevada, Las Vegas, NV
Eric Machorro National Security Technologies, LLC, Las Vegas, NV
eBook ISBN:  978-0-8218-9501-6
Product Code:  CONM/586.E
List Price: $125.00
MAA Member Price: $112.50
AMS Member Price: $100.00
  • Book Details
     
     
    Contemporary Mathematics
    Volume: 5862013; 382 pp
    MSC: Primary 65; 76; 78; 81; 49; 68; 35; 92

    This volume contains the proceedings of the Eighth International Conference on Scientific Computing and Applications, held April 1–4, 2012, at the University of Nevada, Las Vegas.

    The papers in this volume cover topics such as finite element methods, multiscale methods, finite difference methods, spectral methods, collocation methods, adaptive methods, parallel computing, linear solvers, applications to fluid flow, nano-optics, biofilms, finance, magnetohydrodynamics flow, electromagnetic waves, the fluid-structure interaction problem, and stochastic PDEs.

    This book will serve as an excellent reference for graduate students and researchers interested in scientific computing and its applications.

    Readership

    Graduate students and research mathematicians interested in scientific computing and its applications, science, and engineering.

  • Table of Contents
     
     
    • Articles
    • Sebastian Acosta, S.-Sum Chow and Vianey Villamizar — Multifrequency inverse source problem for elastic waves
    • Todd Arbogast, Zhen Tao and Hailong Xiao — Multiscale mortar mixed methods for heterogeneous elliptic problems
    • Randolph E. Bank and Hieu Nguyen — A parallel $hp$-adaptive finite element method
    • J. W. Banks, J. A. F. Hittinger, J. M. Connors and C. S. Woodward — A posteriori error estimation via nonlinear error transport with application to shallow water
    • Gang Bao, Guanghui Hu, Di Liu and Songting Luo — Multi-physical modeling and multi-scale computation of nano-optical responses
    • Ranil Basnayake, Aaron Luttman and Erik Bollt — A Lagged Diffusivity Method for Computing Total Variation Regularized Fluid Flow
    • Jerome Blair, Eric Machorro and Aaron Luttman — Estimating the bias of local polynomial approximation methods using the Peano kernel
    • V. A. Bokil and N. L. Gibson — Stability and dispersion analysis of high order FDTD methods for Maxwell’s equations in dispersive media
    • Abigail L. Bowers — Numerical approximation of a multiscale Leray model for incompressible, viscous flow
    • Junying Cao and Chuanju Xu — A High Order Schema for the Numerical Solution of Ordinary Fractional Differential Equations
    • Chen Chen and Qi Wang — 3-D patterns in bacterial biofilms
    • Jing Chen and Zhijian Wu — Critical path for an optimal hedging strategy
    • Zhangxin Chen, Hui Liu, Song Yu, Ben Hsieh and Lei Shao — Reservoir Simulation on NVIDIA Tesla GPUs
    • Scott Congreve and Paul Houston — Two–grid $hp$–DGFEM for second order quasilinear elliptic PDEs based on an incomplete Newton iteration
    • Erica M. D’Agnillo and Leo G. Rebholz — On the enforcement of discrete mass conservation in incompressible flow simulations with continuous velocity approximation
    • Hualong Feng, Amlan Barua, Xiaofan Li and Shuwang Li — An adaptive treecode algorithm for computing the evolution of microstructures in an elastic media
    • Zhendong Gu and Yanping Chen — Chebyshev spectral-collocation method for Volterra integral equations
    • Weimin Han, Yi Li, Qiwei Sheng and Jinping Tang — A numerical method for generalized Fokker-Planck equations
    • Jason Howell, Hyesuk Lee and Shuhan Xu — Numerical study of a viscoelastic flow in a moving domain
    • Jianguo Huang, Xuehai Huang and Shangyou Zhang — A superconvergence of the Morley element via postprocessing
    • Guillaume Jouvet, Ed Bueler, Carsten Gräser and Ralf Kornhuber — A nonsmooth Newton multigrid method for a hybrid, shallow model of marine ice sheets
    • Mats G. Larson and Fredrik Bengzon — Component mode synthesis for laminar viscous incompressible fluid flow
    • W. Layton and A. Takhirov — Numerical analysis of wall adapted nonlinear filter models of turbulent flows
    • William Layton, Hoang Tran and Catalin Trenchea — Stability of partitioned methods for magnetohydrodynamics flows at small magnetic Reynolds number
    • Hengguang Li and Victor Nistor — LNG_FEM: Graded Meshes on Domains of Polygonal Structures
    • Jichun Li and Jiajia Waters — Homogenized discontinuous Galerkin method for Maxwell’s equations in periodic structured dispersive media
    • Tao Lin, Yanping Lin and Xu Zhang — Immersed finite element method of lines for moving interface problems with nonhomogeneous flux jump
    • Paul H. Muir — B-spline Gaussian collocation software for 1D parabolic PDEs
    • Ramachandran D. Nair and Kiran K. Katta — The central-upwind finite-volume method for atmospheric numerical modeling
    • Monika Neda, Faranak Pahlevani and Jiajia Waters — Sensitivity computations of the Leray-$\alpha $ model
    • D. Schiavazzi, A. Doostan and G. Iaccarino — A sparse multiresolution stochastic approximation for uncertainty quantification
    • Dominik Schötzau and Xiaoxi Wei — A mixed finite element method for a time-dependent incompressible MHD problem
    • Qin Sheng and Shekhar Guha — A compact splitting scheme approach on nonuniform grids
    • Chi-Wang Shu — Survey on discontinuous Galerkin methods for Hamilton-Jacobi equations
    • Pu Song and Ivan Yotov — Coupling surface and subsurface flows with curved interfaces
    • Jiguang Sun and Chunxiong Zheng — Reconstruction of obstacles embedded in waveguides
    • Pengtao Sun, Lixiang Zhang, Chun Liu and Jinchao Xu — Full Eulerian modeling and effective numerical studies for the dynamic fluid-structure interaction problem
    • Shan Wang and Zhiping Li — A multiple-endpoints Chebyshev collocation method for high order differential equations
    • Andrzej Warzyński, Matthew E. Hubbard and Mario Ricchiuto — Discontinuous residual distribution schemes for time-dependent problems
  • Additional Material
     
     
  • Requests
     
     
    Review Copy – for publishers of book reviews
    Permission – for use of book, eBook, or Journal content
    Accessibility – to request an alternate format of an AMS title
Volume: 5862013; 382 pp
MSC: Primary 65; 76; 78; 81; 49; 68; 35; 92

This volume contains the proceedings of the Eighth International Conference on Scientific Computing and Applications, held April 1–4, 2012, at the University of Nevada, Las Vegas.

The papers in this volume cover topics such as finite element methods, multiscale methods, finite difference methods, spectral methods, collocation methods, adaptive methods, parallel computing, linear solvers, applications to fluid flow, nano-optics, biofilms, finance, magnetohydrodynamics flow, electromagnetic waves, the fluid-structure interaction problem, and stochastic PDEs.

This book will serve as an excellent reference for graduate students and researchers interested in scientific computing and its applications.

Readership

Graduate students and research mathematicians interested in scientific computing and its applications, science, and engineering.

  • Articles
  • Sebastian Acosta, S.-Sum Chow and Vianey Villamizar — Multifrequency inverse source problem for elastic waves
  • Todd Arbogast, Zhen Tao and Hailong Xiao — Multiscale mortar mixed methods for heterogeneous elliptic problems
  • Randolph E. Bank and Hieu Nguyen — A parallel $hp$-adaptive finite element method
  • J. W. Banks, J. A. F. Hittinger, J. M. Connors and C. S. Woodward — A posteriori error estimation via nonlinear error transport with application to shallow water
  • Gang Bao, Guanghui Hu, Di Liu and Songting Luo — Multi-physical modeling and multi-scale computation of nano-optical responses
  • Ranil Basnayake, Aaron Luttman and Erik Bollt — A Lagged Diffusivity Method for Computing Total Variation Regularized Fluid Flow
  • Jerome Blair, Eric Machorro and Aaron Luttman — Estimating the bias of local polynomial approximation methods using the Peano kernel
  • V. A. Bokil and N. L. Gibson — Stability and dispersion analysis of high order FDTD methods for Maxwell’s equations in dispersive media
  • Abigail L. Bowers — Numerical approximation of a multiscale Leray model for incompressible, viscous flow
  • Junying Cao and Chuanju Xu — A High Order Schema for the Numerical Solution of Ordinary Fractional Differential Equations
  • Chen Chen and Qi Wang — 3-D patterns in bacterial biofilms
  • Jing Chen and Zhijian Wu — Critical path for an optimal hedging strategy
  • Zhangxin Chen, Hui Liu, Song Yu, Ben Hsieh and Lei Shao — Reservoir Simulation on NVIDIA Tesla GPUs
  • Scott Congreve and Paul Houston — Two–grid $hp$–DGFEM for second order quasilinear elliptic PDEs based on an incomplete Newton iteration
  • Erica M. D’Agnillo and Leo G. Rebholz — On the enforcement of discrete mass conservation in incompressible flow simulations with continuous velocity approximation
  • Hualong Feng, Amlan Barua, Xiaofan Li and Shuwang Li — An adaptive treecode algorithm for computing the evolution of microstructures in an elastic media
  • Zhendong Gu and Yanping Chen — Chebyshev spectral-collocation method for Volterra integral equations
  • Weimin Han, Yi Li, Qiwei Sheng and Jinping Tang — A numerical method for generalized Fokker-Planck equations
  • Jason Howell, Hyesuk Lee and Shuhan Xu — Numerical study of a viscoelastic flow in a moving domain
  • Jianguo Huang, Xuehai Huang and Shangyou Zhang — A superconvergence of the Morley element via postprocessing
  • Guillaume Jouvet, Ed Bueler, Carsten Gräser and Ralf Kornhuber — A nonsmooth Newton multigrid method for a hybrid, shallow model of marine ice sheets
  • Mats G. Larson and Fredrik Bengzon — Component mode synthesis for laminar viscous incompressible fluid flow
  • W. Layton and A. Takhirov — Numerical analysis of wall adapted nonlinear filter models of turbulent flows
  • William Layton, Hoang Tran and Catalin Trenchea — Stability of partitioned methods for magnetohydrodynamics flows at small magnetic Reynolds number
  • Hengguang Li and Victor Nistor — LNG_FEM: Graded Meshes on Domains of Polygonal Structures
  • Jichun Li and Jiajia Waters — Homogenized discontinuous Galerkin method for Maxwell’s equations in periodic structured dispersive media
  • Tao Lin, Yanping Lin and Xu Zhang — Immersed finite element method of lines for moving interface problems with nonhomogeneous flux jump
  • Paul H. Muir — B-spline Gaussian collocation software for 1D parabolic PDEs
  • Ramachandran D. Nair and Kiran K. Katta — The central-upwind finite-volume method for atmospheric numerical modeling
  • Monika Neda, Faranak Pahlevani and Jiajia Waters — Sensitivity computations of the Leray-$\alpha $ model
  • D. Schiavazzi, A. Doostan and G. Iaccarino — A sparse multiresolution stochastic approximation for uncertainty quantification
  • Dominik Schötzau and Xiaoxi Wei — A mixed finite element method for a time-dependent incompressible MHD problem
  • Qin Sheng and Shekhar Guha — A compact splitting scheme approach on nonuniform grids
  • Chi-Wang Shu — Survey on discontinuous Galerkin methods for Hamilton-Jacobi equations
  • Pu Song and Ivan Yotov — Coupling surface and subsurface flows with curved interfaces
  • Jiguang Sun and Chunxiong Zheng — Reconstruction of obstacles embedded in waveguides
  • Pengtao Sun, Lixiang Zhang, Chun Liu and Jinchao Xu — Full Eulerian modeling and effective numerical studies for the dynamic fluid-structure interaction problem
  • Shan Wang and Zhiping Li — A multiple-endpoints Chebyshev collocation method for high order differential equations
  • Andrzej Warzyński, Matthew E. Hubbard and Mario Ricchiuto — Discontinuous residual distribution schemes for time-dependent problems
Review Copy – for publishers of book reviews
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