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ORCIDMary F. Wheeler
Mary Fanett Wheeler
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- affiliation: University of Texas, Institute for Computational Engineering and Sciences
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2020 – today
- 2024
[j72]Hendrik Fischer
, Julian Roth, Ludovic Chamoin, Amelie Fau, Mary F. Wheeler, Thomas Wick:
Adaptive space-time model order reduction with dual-weighted residual (MORe DWR) error control for poroelasticity. Adv. Model. Simul. Eng. Sci. 11(1): 9 (2024)- 2023
- [i9]Bernd Flemisch, Jan M. Nordbotten, Martin A. Fernø, Ruben Juanes, Holger Class, Mojdeh Delshad, Florian Doster, Jonathan Ennis-King, Jacques Franc, Sebastian Geiger, Dennis Gläser, Christopher Green, James Gunning, Hadi Hajibeygi, Samuel J. Jackson, Mohamad Jammoul, Satish Karra, Jiawei Li, Stephan K. Matthäi, Terry Miller, Qi Shao, Catherine Spurin, Philip Stauffer, Hamdi A. Tchelepi, Xiaoming Tian, Hari S. Viswanathan, Denis V. Voskov, Yuhang Wang, Michiel Wapperom, Mary F. Wheeler, Andrew Wilkins, AbdAllah A. Youssef, Ziliang Zhang:
The FluidFlower International Benchmark Study: Process, Modeling Results, and Comparison to Experimental Data. CoRR abs/2302.10986 (2023) - [i8]Hendrik Fischer, Julian Roth, Ludovic Chamoin, Amelie Fau, Mary F. Wheeler, Thomas Wick:
Adaptive space-time model order reduction with dual-weighted residual (MORe DWR) error control for poroelasticity. CoRR abs/2311.08907 (2023) - 2022
- [j71]Hanyu Li, Mary F. Wheeler:
Dynamic local coupling for multiphase flow: A compromise between efficiency and stability. J. Comput. Phys. 469: 111535 (2022) - 2021
- [j70]Mohamad Jammoul, Mary F. Wheeler, Thomas Wick:
A phase-field multirate scheme with stabilized iterative coupling for pressure driven fracture propagation in porous media. Comput. Math. Appl. 91: 176-191 (2021) - 2020
- [j69]Xueying Lu, Mary F. Wheeler:
Three-way coupling of multiphase flow and poromechanics in porous media. J. Comput. Phys. 401 (2020) - [j68]Min Wang, Siu Wun Cheung, Wing Tat Leung, Eric T. Chung, Yalchin Efendiev, Mary F. Wheeler:
Reduced-order deep learning for flow dynamics. The interplay between deep learning and model reduction. J. Comput. Phys. 401 (2020) - [j67]Hanyu Li, Wing Tat Leung, Mary F. Wheeler:
Sequential local mesh refinement solver with separate temporal and spatial adaptivity for non-linear two-phase flow problems. J. Comput. Phys. 403 (2020) - [j66]Yalchin Efendiev, Abbas Firoozabadi, Shuyu Sun, Mary F. Wheeler, Bo Yu:
Special Issue: Advanced numerical modeling and algorithms for multiphase flow and transport. J. Comput. Phys. 408: 109222 (2020) - [j65]Maria V. Vasilyeva, Wing Tat Leung, Eric T. Chung, Yalchin Efendiev, Mary F. Wheeler:
Learning macroscopic parameters in nonlinear multiscale simulations using nonlocal multicontinua upscaling techniques. J. Comput. Phys. 412: 109323 (2020) - [j64]Saumik Dana, Joel Ita, Mary F. Wheeler:
The Correspondence between Voigt and Reuss Bounds and the Decoupling Constraint in a Two-Grid Staggered Algorithm for Consolidation in Heterogeneous Porous Media. Multiscale Model. Simul. 18(1): 221-239 (2020) - [j63]Qingguo Hong, Johannes Kraus, Maria Lymbery, Mary F. Wheeler:
Parameter-Robust Convergence Analysis of Fixed-Stress Split Iterative Method for Multiple-Permeability Poroelasticity Systems. Multiscale Model. Simul. 18(2): 916-941 (2020) - [i7]Saumik Dana, Mary F. Wheeler:
An efficient algorithm for numerical homogenization of fluid filled porous solids: part-I. CoRR abs/2002.03770 (2020) - [i6]Saumik Dana, Mary F. Wheeler:
A machine learning accelerated FE2 homogenization algorithm for elastic solids. CoRR abs/2003.11372 (2020)
2010 – 2019
- 2019
- [j62]Tameem Almani, Kundan Kumar, Gurpreet Singh, Mary F. Wheeler:
Stability of multirate explicit coupling of geomechanics with flow in a poroelastic medium. Comput. Math. Appl. 78(8): 2682-2699 (2019) - [j61]Yerlan Amanbek, Mary F. Wheeler:
A priori error analysis for transient problems using Enhanced Velocity approach in the discrete-time setting. J. Comput. Appl. Math. 361: 459-471 (2019) - [j60]Yerlan Amanbek, Gurpreet Singh, Mary F. Wheeler, Hans van Duijn:
Adaptive numerical homogenization for upscaling single phase flow and transport. J. Comput. Phys. 387: 117-133 (2019) - [c21]Yerlan Amanbek, Gurpreet Singh, Mary F. Wheeler:
Recovery of the Interface Velocity for the Incompressible Flow in Enhanced Velocity Mixed Finite Element Method. ICCS (4) 2019: 510-523 - [i5]Yerlan Amanbek, Gurpreet Singh, Gergina Pencheva, Mary F. Wheeler:
Error indicator for the incompressible Darcy flow problems using Enhanced Velocity Mixed Finite Element Method. CoRR abs/1904.06188 (2019) - [i4]Maria V. Vasilyeva, Wing Tat Leung, Eric T. Chung, Yalchin Efendiev, Mary F. Wheeler:
Learning macroscopic parameters in nonlinear multiscale simulations using nonlocal multicontinua upscaling techniques. CoRR abs/1907.02921 (2019) - [i3]Wing Tat Leung, Eric T. Chung, Yalchin Efendiev, Maria V. Vasilyeva, Mary F. Wheeler:
Space-Time Nonlinear Upscaling Framework Using Non-local Multi-continuum Approach. CoRR abs/1908.05582 (2019) - [i2]Saumik Dana, Mary F. Wheeler:
Design of convergence criterion for fixed stress split iterative scheme for small strain anisotropic poroelastoplasticity coupled with single phase flow. CoRR abs/1912.06476 (2019) - 2018
- [j59]Saumik Dana, Benjamin Ganis, Mary F. Wheeler:
A multiscale fixed stress split iterative scheme for coupled flow and poromechanics in deep subsurface reservoirs. J. Comput. Phys. 352: 1-22 (2018) - [j58]Sanghyun Lee, Mary F. Wheeler:
Enriched Galerkin methods for two-phase flow in porous media with capillary pressure. J. Comput. Phys. 367: 65-86 (2018) - [j57]Janaki Vamaraju, Mrinal K. Sen, Jonas D. De Basabe, Mary F. Wheeler:
Enriched Galerkin finite element approximation for elastic wave propagation in fractured media. J. Comput. Phys. 372: 726-747 (2018) - [j56]Gurpreet Singh, Mary F. Wheeler:
A space-time domain decomposition approach using enhanced velocity mixed finite element method. J. Comput. Phys. 374: 893-911 (2018) - [j55]Gurpreet Singh, Gergina Pencheva, Mary F. Wheeler:
An approximate Jacobian nonlinear solver for multiphase flow and transport. J. Comput. Phys. 375: 337-351 (2018) - [j54]Sanghyun Lee, Andro Mikelic, Mary F. Wheeler, Thomas Wick:
Phase-Field Modeling of Two Phase Fluid Filled Fractures in a Poroelastic Medium. Multiscale Model. Simul. 16(4): 1542-1580 (2018) - [i1]Saumik Dana, Mary F. Wheeler:
Convergence analysis of fixed stress split iterative scheme for small strain anisotropic poroelastoplasticity: a primer. CoRR abs/1810.04163 (2018) - 2017
- [j53]Sanghyun Lee, Mary F. Wheeler, Thomas Wick:
Iterative coupling of flow, geomechanics and adaptive phase-field fracture including level-set crack width approaches. J. Comput. Appl. Math. 314: 40-60 (2017) - [j52]Sanghyun Lee, Mary F. Wheeler:
Adaptive enriched Galerkin methods for miscible displacement problems with entropy residual stabilization. J. Comput. Phys. 331: 19-37 (2017) - [j51]Guglielmo Scovazzi, Mary F. Wheeler, Andro Mikelic, Sanghyun Lee:
Analytical and variational numerical methods for unstable miscible displacement flows in porous media. J. Comput. Phys. 335: 444-496 (2017) - 2016
- [j50]Sanghyun Lee, Young-Ju Lee, Mary F. Wheeler:
A Locally Conservative Enriched Galerkin Approximation and Efficient Solver for Elliptic and Parabolic Problems. SIAM J. Sci. Comput. 38(3) (2016) - 2015
- [j49]Andro Mikelic, Mary F. Wheeler, Thomas Wick:
A Phase-Field Method for Propagating Fluid-Filled Fractures Coupled to a Surrounding Porous Medium. Multiscale Model. Simul. 13(1): 367-398 (2015) - [c20]Prashant Mital, Thomas Wick, Mary F. Wheeler, Gergina Pencheva:
Discontinuous and Enriched Galerkin Methods for Phase-Field Fracture Propagation in Elasticity. ENUMATH 2015: 195-203 - [c19]Kundan Kumar, Tameem Almani, Gurpreet Singh, Mary F. Wheeler:
Multirate Undrained Splitting for Coupled Flow and Geomechanics in Porous Media. ENUMATH 2015: 431-440 - [c18]Benjamin Ganis, Mary F. Wheeler, Ivan Yotov:
An Enhanced Velocity multIpoint Flux Mixed Finite Element Method for Darcy Flow on Non-matching Hexahedral Grids. ICCS 2015: 1198-1207 - 2014
- [j48]Mi-Young Kim, Mary F. Wheeler:
Coupling discontinuous Galerkin discretizations using mortar finite elements for advection-diffusion-reaction problems. Comput. Math. Appl. 67(1): 181-198 (2014) - [j47]Mi-Young Kim, Mary F. Wheeler:
A multiscale discontinuous Galerkin method for convection-diffusion-reaction problems. Comput. Math. Appl. 68(12): 2251-2261 (2014) - [j46]Amgad Salama, Shuyu Sun, Mary F. Wheeler:
Solving global problem by considering multitude of local problems: Application to fluid flow in anisotropic porous media using the multipoint flux approximation. J. Comput. Appl. Math. 267: 117-130 (2014) - [j45]Ahmed H. Elsheikh, Mary F. Wheeler, Ibrahim Hoteit:
Hybrid nested sampling algorithm for Bayesian model selection applied to inverse subsurface flow problems. J. Comput. Phys. 258: 319-337 (2014) - [j44]Benjamin Ganis, Kundan Kumar, Gergina Pencheva, Mary F. Wheeler, Ivan Yotov:
A Global Jacobian Method for Mortar Discretizations of a Fully Implicit Two-Phase Flow Model. Multiscale Model. Simul. 12(4): 1401-1423 (2014) - [j43]Benjamin Ganis, Mika Juntunen, Gergina Pencheva, Mary F. Wheeler, Ivan Yotov:
A Global Jacobian Method for Mortar Discretizations of Nonlinear Porous Media Flows. SIAM J. Sci. Comput. 36(2) (2014) - 2013
- [j42]Ahmed H. Elsheikh, Mary F. Wheeler, Ibrahim Hoteit:
An iterative stochastic ensemble method for parameter estimation of subsurface flow models. J. Comput. Phys. 242: 696-714 (2013) - [j41]Gergina Pencheva, Martin Vohralík, Mary F. Wheeler, Tim Wildey:
Robust a Posteriori Error Control and Adaptivity for Multiscale, Multinumerics, and Mortar Coupling. SIAM J. Numer. Anal. 51(1): 526-554 (2013) - [j40]Kundan Kumar, Mary F. Wheeler, Thomas Wick:
Reactive Flow and Reaction-Induced Boundary Movement in a Thin Channel. SIAM J. Sci. Comput. 35(6) (2013) - [c17]Kundan Kumar, Tycho L. van Noorden, Mary F. Wheeler, Thomas Wick:
An ALE-Based Method for Reaction-Induced Boundary Movement Towards Clogging. ENUMATH 2013: 633-641 - 2012
- [j39]Moustafa AbdelBaky, Manish Parashar, Hyunjoo Kim, Kirk E. Jordan, Vipin Sachdeva, James C. Sexton, Hani Jamjoom, Zon-Yin Shae, Gergina Pencheva, Reza Tavakoli, Mary F. Wheeler:
Enabling High-Performance Computing as a Service. Computer 45(10): 72-80 (2012) - [j38]Benjamin Ganis, Gergina Pencheva, Mary F. Wheeler, Tim Wildey, Ivan Yotov:
A Frozen Jacobian Multiscale Mortar Preconditioner for Nonlinear Interface Operators. Multiscale Model. Simul. 10(3): 853-873 (2012) - [j37]Mary F. Wheeler, Guangri Xue, Ivan Yotov:
A multipoint flux mixed finite element method on distorted quadrilaterals and hexahedra. Numerische Mathematik 121(1): 165-204 (2012) - 2011
- [j36]Sunil G. Thomas, Hector Klie, Adolfo Rodriguez, Mary F. Wheeler:
A Parallel Stochastic Framework for Reservoir Characterization and History Matching. J. Appl. Math. 2011: 535484:1-535484:19 (2011) - [j35]Miguel Argáez, Leticia Velázquez, Carlos Quintero, Hector Klie, Mary F. Wheeler:
A Hybrid Algorithm for Global Optimization Problems. Reliab. Comput. 15(3): 230-241 (2011) - [c16]Mary F. Wheeler, Guangri Xue, Ivan Yotov:
A Family of Multipoint Flux Mixed Finite Element Methods for Elliptic Problems on General Grids. ICCS 2011: 918-927 - 2010
- [j34]Changli Yuan, Mojdeh Delshad, Mary F. Wheeler:
Modeling multiphase non-Newtonian polymer flow in IPARS parallel framework. Networks Heterog. Media 5(3): 583-602 (2010) - [j33]Mary F. Wheeler, Tim Wildey, Guangri Xue:
Efficient algorithms for multiscale modeling in porous media. Numer. Linear Algebra Appl. 17(5): 771-785 (2010) - [j32]Ross Ingram, Mary F. Wheeler, Ivan Yotov:
A Multipoint Flux Mixed Finite Element Method on Hexahedra. SIAM J. Numer. Anal. 48(4): 1281-1312 (2010)
2000 – 2009
- 2008
- [j31]Vivette Girault, Mary F. Wheeler:
Numerical discretization of a Darcy-Forchheimer model. Numerische Mathematik 110(2): 161-198 (2008) - [j30]Vivette Girault, Shuyu Sun, Mary F. Wheeler, Ivan Yotov:
Coupling Discontinuous Galerkin and Mixed Finite Element Discretizations using Mortar Finite Elements. SIAM J. Numer. Anal. 46(2): 949-979 (2008) - [c15]Mary F. Wheeler:
Computational Environments for Coupling Multiphase Flow, Transport, and Mechanics in Porous Media. HiPC 2008: 3-4 - 2007
- [j29]Rafael E. Banchs, Hector Klie, Adolfo Rodriguez, Sunil G. Thomas, Mary F. Wheeler:
A neural stochastic multiscale optimization framework for sensor-based parameter estimation. Integr. Comput. Aided Eng. 14(3): 213-223 (2007) - [j28]Todd Arbogast, Gergina Pencheva, Mary F. Wheeler, Ivan Yotov:
A Multiscale Mortar Mixed Finite Element Method. Multiscale Model. Simul. 6(1): 319-346 (2007) - [j27]Thomas F. Russell, Mary F. Wheeler, Ivan Yotov:
Superconvergence for Control-Volume Mixed Finite Element Methods on Rectangular Grids. SIAM J. Numer. Anal. 45(1): 223-235 (2007) - [c14]Tahsin M. Kurç, Xi Zhang, Manish Parashar, Hector Klie, Mary F. Wheeler, Ümit V. Çatalyürek, Joel H. Saltz:
Dynamic Data-Driven Systems Approach for Simulation Based Optimizations. International Conference on Computational Science (1) 2007: 1213-1221 - 2006
- [j26]Shuyu Sun, Mary F. Wheeler:
Analysis of Discontinuous Galerkin Methods for Multicomponent Reactive Transport Problems. Comput. Math. Appl. 52(5): 637-650 (2006) - [j25]Hector Klie, Wolfgang Bangerth, X. Gai, Mary F. Wheeler, Paul L. Stoffa, Mrinal K. Sen, Manish Parashar, Ümit V. Çatalyürek, Joel H. Saltz, Tahsin M. Kurç:
Models, methods and middleware for grid-enabled multiphysics oil reservoir management. Eng. Comput. 22(3-4): 349-370 (2006) - [j24]Mary F. Wheeler, Ivan Yotov:
A Multipoint Flux Mixed Finite Element Method. SIAM J. Numer. Anal. 44(5): 2082-2106 (2006) - [c13]Manish Parashar, Vincent Matossian, Hector Klie, Sunil G. Thomas, Mary F. Wheeler, Tahsin M. Kurç, Joel H. Saltz, Roelof Versteeg:
Towards Dynamic Data-Driven Management of the Ruby Gulch Waste Repository. International Conference on Computational Science (3) 2006: 384-392 - [c12]Rafael E. Banchs, Hector Klie, Adolfo Rodriguez, Sunil G. Thomas, Mary F. Wheeler:
A Neural Stochastic Optimization Framework for Oil Parameter Estimation. IDEAL 2006: 147-154 - 2005
- [j23]Wolfgang Bangerth, Hector Klie, Vincent Matossian, Manish Parashar, Mary F. Wheeler:
An Autonomic Reservoir Framework for the Stochastic Optimization of Well Placement. Clust. Comput. 8(4): 255-269 (2005) - [j22]Vincent Matossian, Viraj Bhat, Manish Parashar, Malgorzata Peszynska, Mrinal K. Sen, Paul L. Stoffa, Mary F. Wheeler:
Autonomic oil reservoir optimization on the Grid. Concurr. Pract. Exp. 17(1): 1-26 (2005) - [j21]Malgorzata Peszynska, Mary F. Wheeler:
Special Issue: High-Performance Computing in Geosciences. Concurr. Pract. Exp. 17(11): 1363-1364 (2005) - [j20]Manish Parashar, Rajeev Muralidhar, Wonsuck Lee, Dorian C. Arnold, Jack J. Dongarra, Mary F. Wheeler:
Enabling interactive and collaborative oil reservoir simulations on the Grid. Concurr. Pract. Exp. 17(11): 1387-1414 (2005) - [j19]Tahsin M. Kurç, Ümit V. Çatalyürek, Xi Zhang, Joel H. Saltz, Ryan Martino, Mary F. Wheeler, Malgorzata Peszynska, Alan Sussman, Christian Hansen, Mrinal K. Sen, Roustam Seifoullaev, Paul L. Stoffa, Carlos Torres-Verdín, Manish Parashar:
A simulation and data analysis system for large-scale, data-driven oil reservoir simulation studies. Concurr. Pract. Exp. 17(11): 1441-1467 (2005) - [j18]Manish Parashar, Hector Klie, Ümit V. Çatalyürek, Tahsin M. Kurç, Wolfgang Bangerth, Vincent Matossian, Joel H. Saltz, Mary F. Wheeler:
Application of Grid-enabled technologies for solving optimization problems in data-driven reservoir studies. Future Gener. Comput. Syst. 21(1): 19-26 (2005) - [j17]Shuyu Sun, Mary F. Wheeler:
L2(H1 Norm A PosterioriError Estimation for Discontinuous Galerkin Approximations of Reactive Transport Problems. J. Sci. Comput. 22(1): 501-530 (2005) - [j16]Shuyu Sun, Mary F. Wheeler, Mandri Obeyesekere, Charles Patrick:
Multiscale Angiogenesis Modeling Using Mixed Finite Element Methods. Multiscale Model. Simul. 4(4): 1137-1167 (2005) - [j15]Vivette Girault, Beatrice Riviere, Mary F. Wheeler:
A discontinuous Galerkin method with nonoverlapping domain decomposition for the Stokes and Navier-Stokes problems. Math. Comput. 74(249): 53-84 (2005) - [j14]Markus Berndt, Konstantin Lipnikov, Mikhail J. Shashkov, Mary F. Wheeler, Ivan Yotov:
A mortar mimetic finite difference method on non-matching grids. Numerische Mathematik 102(2): 203-230 (2005) - [j13]Todd Arbogast, Mary F. Wheeler:
A Family of Rectangular Mixed Elements with a Continuous Flux for Second Order Elliptic Problems. SIAM J. Numer. Anal. 42(5): 1914-1931 (2005) - [j12]Shuyu Sun, Mary F. Wheeler:
Symmetric and Nonsymmetric Discontinuous Galerkin Methods for Reactive Transport in Porous Media. SIAM J. Numer. Anal. 43(1): 195-219 (2005) - [j11]Mary F. Wheeler, Ivan Yotov:
A Posteriori Error Estimates for the Mortar Mixed Finite Element Method. SIAM J. Numer. Anal. 43(3): 1021-1042 (2005) - [j10]Markus Berndt, Konstantin Lipnikov, Mikhail J. Shashkov, Mary F. Wheeler, Ivan Yotov:
Superconvergence of the Velocity in Mimetic Finite Difference Methods on Quadrilaterals. SIAM J. Numer. Anal. 43(4): 1728-1749 (2005) - [c11]Shuyu Sun, Mary F. Wheeler, Mandri Obeyesekere, Charles Patrick:
Multiscale Angiogenesis Modeling. International Conference on Computational Science (3) 2005: 96-103 - [c10]Manish Parashar, Vincent Matossian, Wolfgang Bangerth, Hector Klie, Benjamin Rutt, Tahsin M. Kurç, Ümit V. Çatalyürek, Joel H. Saltz, Mary F. Wheeler:
Towards Dynamic Data-Driven Optimization of Oil Well Placement. International Conference on Computational Science (2) 2005: 656-663 - 2004
- [c9]Shuyu Sun, Mary F. Wheeler:
Mesh Adaptation Strategies for Discontinuous Galerkin Methods Applied to Reactive Transport Problems. CCCT (1) 2004: 223-228 - [c8]Manish Parashar, Hector Klie, Ümit V. Çatalyürek, Tahsin M. Kurç, Vincent Matossian, Joel H. Saltz, Mary F. Wheeler:
Application of Grid-Enabled Technologies for Solving Optimization Problems in Data-Driven Reservoir Studies. International Conference on Computational Science 2004: 805-812 - 2003
- [j9]Beatrice Riviere, Simon Shaw, Mary F. Wheeler, John R. Whiteman:
Discontinuous Galerkin finite element methods for linear elasticity and quasistatic linear viscoelasticity. Numerische Mathematik 95(2): 347-376 (2003) - [j8]Sébastien Lacroix, Yuri V. Vassilevski, John Wheeler, Mary F. Wheeler:
Iterative Solution Methods for Modeling Multiphase Flow in Porous Media Fully Implicitly. SIAM J. Sci. Comput. 25(3): 905-926 (2003) - [c7]Joel H. Saltz, Ümit V. Çatalyürek, Tahsin M. Kurç, Mike Gray, Shannon Hastings, Stephen Langella, Sivaramakrishnan Narayanan, Ryan Martino, Steven Bryant, Malgorzata Peszynska, Mary F. Wheeler, Alan Sussman, Michael D. Beynon, Christian Hansen, Don Stredney, Dennis Sessanna:
Driving Scientific Applications by Data in Distributed Environments. International Conference on Computational Science 2003: 355-364 - 2002
- [j7]Eleanor W. Jenkins, Beatrice Riviere, Mary F. Wheeler:
A Priori Error Estimates for Mixed Finite Element Approximations of the Acoustic Wave Equation. SIAM J. Numer. Anal. 40(5): 1698-1715 (2002) - 2001
- [j6]Sébastien Lacroix, Yuri V. Vassilevski, Mary F. Wheeler:
Decoupling preconditioners in the implicit parallel accurate reservoir simulator (IPARS). Numer. Linear Algebra Appl. 8(8): 537-549 (2001) - [j5]Beatrice Riviere, Mary F. Wheeler, Vivette Girault:
A Priori Error Estimates for Finite Element Methods Based on Discontinuous Approximation Spaces for Elliptic Problems. SIAM J. Numer. Anal. 39(3): 902-931 (2001) - 2000
- [j4]Todd Arbogast, Lawrence C. Cowsar, Mary F. Wheeler, Ivan Yotov:
Mixed Finite Element Methods on Nonmatching Multiblock Grids. SIAM J. Numer. Anal. 37(4): 1295-1315 (2000) - [j3]Jichun Li, Mary F. Wheeler:
Uniform Convergence and Superconvergence of Mixed Finite Element Methods on Anisotropically Refined Grids. SIAM J. Numer. Anal. 38(3): 770-798 (2000) - [c6]Clint Dawson, V. J. Parr, Mary F. Wheeler:
Issues in Parallel Computation of Flow and Transport in Surface Waters. PDPTA 2000
1990 – 1999
- 1998
- [j2]Todd Arbogast, Clint Dawson, Philip T. Keenan, Mary F. Wheeler, Ivan Yotov:
Enhanced Cell-Centered Finite Differences for Elliptic Equations on General Geometry. SIAM J. Sci. Comput. 19(2): 404-425 (1998) - 1993
- [c5]Adam Greenberg, Marcelo Rame, Kirk E. Jordan, Mary F. Wheeler:
UTCHEM: A Chemical Flood Simulator on the CM5. PPSC 1993: 1011-1014 - 1991
- [c4]Lawrence C. Cowsar, Edward J. Dean, Roland Glowinski, Patrick Le Tallec, C. H. Li, Jacques Périaux, Mary F. Wheeler:
Decomposition Principles and their Applications in Scientific Computing. PP 1991: 213-237
1980 – 1989
- 1987
- [j1]Ruth Gonzalez, Mary Fanett Wheeler:
Domain decomposition for elliptic partial differential equations with Neumann boundary conditions. Parallel Comput. 5(1-2): 257-263 (1987)
1970 – 1979
- 1978
- [c3]Graham F. Carey, Mary F. Wheeler:
C0 Collocation - Galerkin Methods. Codes for Boundary-Value Problems in Ordinary Differential Equations 1978: 250-256 - [c2]Steven Pruess, G. W. Reddien, Robert D. Russell, Richard F. Sincovec, Mary F. Wheeler:
Workshop on Basis Selection. Codes for Boundary-Value Problems in Ordinary Differential Equations 1978: 263-265 - 1973
- [c1]Jim Douglas Jr., Todd Dupont, Mary Fanett Wheeler:
Some superconvergence results for an H1 - Galerkin procedure for the heat equation. Computing Methods in Applied Sciences and Engineering 1973: 288-311
Coauthor Index
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