Courses

Engineering at Illinois Engineering at Illinois

Computational Science and Engineering

CSE Fellows

Each year approximately eight to ten research awards are made to students enrolled in the CSE program. Research projects are selected for support on a competitive basis. Proposals are solicited each Spring for the academic year beginning the following Fall. The proposed research must be interdisciplinary and computationally oriented, and the proposal must be submitted jointly by the student and two faculty co-advisors who must be CSE affiliates from different disciplines. The CSE Fellows selected by an evaluation panel receive financial support equivalent to a half-time research assistantship in their home department plus a tuition waiver. At the end of each academic year, that year's CSE Fellows present their research results at the annual CSE Symposium. Current and past CSE Fellows are listed below by academic year.
2008-2009
  • Mark Butala (ECE) — Large Scale Dynamic Computed Imaging for Solar-Terrestrial Astronomical Remote Sensing
  • William Fendt (PHYS) — Precision Analysis of Cosmological Data
  • Bernard Ghanem (ECE) — Phase Based Modeling of Dynamic Textures
  • Jin Tae Kwak (CS) — Computational Methods for Cancer Diagnosis from FTIR Spectroscopy Data
  • Satish Mantha (CEE) — A Satellite View of Biome Changes: Data Mining, Modeling and Prediction
  • Lingling Miao (PHYS) — NAMD on GPU for Coarse-Grained Molecular Dynamics (jointly funded by NCSA)
  • Aaron Shinn (MechSE) — High-Performance Simulation of Turbulent Flows on GPUs (jointly funded by NCSA)
  • Fernando Stump (MechSE) — A Parallel Adaptive Finite Element Framework to Model Creep and Failure Damage in Polycrystalline Materials
  • Huibing Yin (MechSE) — Networked Multiuser Optimization Problems with Dynamics and Uncertainty: Theory, Algorithms and Applications
2007-2008
  • Eric Cyr (CS) — Fast Solutions to the Poisson-Boltzmann Equation Using Hierarchical Basis Functions
  • William Fendt (PHYS) — New Directions in Cosmological Parameter Estimation
  • Bernard Ghanem (ECE) — Phase Based Model for Dynamic Textures
  • Kyoungsoo Park (CEE) — Parallel Massive Dynamic Fragmentation Using Adaptive Reduced Mesh Representation
  • Behzad Sharif (ECE) — Adaptive Magnetic Resonance Tomography for Real-Time Cardiovascular Flow Imaging
  • Teck Tan (MatSE) — Materials by Design: Predicting Thermodynamic Properties of Real Materials from First-Principles Methods and Data Mining
  • Daniel Turner (CEE) — A Multiscale, Parallel, Three-Dimensional, Finite Element Approach for Modeling Vortex Induced Vibrations of Tall Buildings Subject to Wind Loading
  • Evan VanderZee (Math) — Well-Centered Meshing
2006-2007
  • Nitin Agarwal (MechSE) – Computational Analysis of Uncertainties in Electrostatically Actuated MEMS
  • Eric Cyr (CS) – Multilevel Iterative Methods for Solving the Poisson-Boltzmann Equation
  • Amir Ghalayani Isfahani (MechSE) – Multiscale Simulation Model of Cell Mechanics in Microcirculation
  • Nagarajan Kalyanasundaram (MechSE) – Efficient Multiscale Methods for Modeling Structure and Electronic Properties of Nanostructures Created by Ion Bombardment
  • Jeronymo Pereira (CEE) – An hp Adaptive Generalized Finite Element Method with Face Offsetting for 3-D Crack Propagation and Branching
  • Behzad Sharif (ECE) – Patient-Adaptive Real-Time 4-D Cardiac Magnetic Resonance Imaging
  • Rishi Rakesh Sinha (CS) – Indexing Scientific Data
  • Evan VanderZee (Math) – Well-Centered Meshing (jointly funded by Applied Mathematics)
  • Xun Xu (ECE) – 3-D Face Analysis for Biometric and Intelligent HCI
2005-2006
  • YoungJung Chang (ChBE) – Design of Robust Metabolic and Signaling Networks
  • Xu Han (ECE) – Efficient Searching of MAP in High Dimensional Probability Space, with Application to 3-D Articulated Body Tracking
  • Amir Ghalayani Isfahani (TAM) – Multiscale Simulation Model of Cell Mechanics in Microcirculation
  • Nagarajan Kalyanasundaram (MIE) – Multiscale, Computationally Efficient Algorithms for Modeling Nanostructure Created by Ion Bombardment
  • Yiruo Lin (TAM) – Multimaterial Computational Framework for Bioreactors and Tissue Engineering
  • Jeronymo Pereira (CEE) – An hp Adaptive Generalized Finite Element Method with Face Offsetting for Three-Dimensional Crack Propagation
  • Shankar Rao (ECE) – Switched ARX Systems for Audio and Video Segmentation
  • Lingxiao Zhang (ECE) – Engineering Exchange Interaction in Spin-Qubit Quantum Dot Circuits for Quantum Information Processing
2004-2005
  • Hakan Bagci (ECE) – Development of FFT-Accelerated Time-Domain Simulators for Electromagnetic Analysis of Complex Structures in Layered Media
  • Mariano Cantero (CEE) – Two-Phase Flow Models for Engineering and Environmental Scale CFD Computations
  • YoungJung Chang (ChBE) – Design of Robust Metabolic and Signaling Networks
  • Rajeev Jaiman (AE) – Adaptive Nonmatching Interface Schemes for Transient Multiphysics Simulations
  • Mariana Silva (TAM) – Large-Scale Topology Optimization for Tailoring Advanced Materials and Structures
  • Hongcheng Wang (ECE) – Object-Level Video Editing in Spatio-Temporal Gradient Domain
  • Allen Yang (ECE) – Representing Human Facial Expression Using Hybrid Linear Model
  • Lin Zhang (TAM) – Large-Scale Direct Numerical Simulations of Turbulent Multiphase Flow
2003-2004
  • Ravi Bellur-Ramaswamy (MIE) – Interface Tracking Problems in Crystal Evolution
  • Ananth Bhoj (ChBE) – Plasma Dynamics and Surface Interactions During Plasma Treatment of Polymer Surfaces
  • Martin Butz (CS) – Towards Computational Cognition: The Influence of Anticipatory Behavior
  • Mariano Cantero (CEE) – Two-Phase Flow Models for Engineering and Environmental Scale CFD Computations
  • Ashish Jagmohan (ECE) – Compression and Transmission of Light Fields
  • David Lin (TAM) – An Integrated Multi-Scale Cardiovascular Simulation Model
  • Michael Parks (CS) – Robust Preconditioners and Solvers for Ill-Conditioned Equations from Nonlinear Finite Element Analysis
  • Ali Yilmaz (ECE) – Development of Parallel FFT-Based Time Domain Integral Equation Solvers for Analyzing Scattering from Penetrable Volumes
  • Lin Zhang (AE) – Large-Scale Direct Numerical Simulations of Turbulent Multiphase Flow
2002-2003
  • Monica Awasthi (TAM) – Initial Development of a Cardio-Vascular Simulator for Evaluation of Ventricular Assist Devices
  • Pinaki Chakraborty (TAM) – Direct Numerical Simulation and Physical Modeling of the Dynamics of Vortex Packets in Wall Turbulence
  • David Hardy (CS) – Multiple Grid Methods for the Simulation of Biomolecules
  • Ashish Jagmohan (ECE) – Compression and Transmission of Light Fields
  • Rajeev Jaiman (AE) – Techniques for Aeroelastic Dynamics of Mesoflaps, Boundary Layers, and Shock Waves
  • Michael Parks (CS) – Robust Preconditioners and Solvers for Ill-Conditioned Equations from Nonlinear Finite Element Analysis
  • Kumara Sastry (MATSE) – Hybrid Atomistic Simulation + Competent Genetic Programming = Effective Multi-Scale Modeling of Nanostructured Materials
  • Alok Sutradhar (CEE) – Scientific Visualization and Parallel Computing Environment for Three-Dimensional Crack Propagation Using the Symmetric Galerkin Boundary Element Method
  • Amanda White (CEE) – Knowledge Discovery from Remote Sensing Observation
2001-2002
  • Pinaki Chakraborty (TAM) – Direct Numerical Simulation and Physical Modeling of the Dynamics of Vortex Packets in Wall Turbulence
  • David Hardy (CS) – Multilevel Techniques for the Simulation of Biomolecules
  • Xiaosong Ma (CS) – Flexible Parallel I/O Support for Irregular Codes
  • Pramod Subramonium (ChemE) – Simulation of 3-Dimensional Transport and Transients in Plasma Processing Reactors
  • Alper Ungor (CS) – Space-Time Mesh Generation
  • Ning Xu (ECE) – Real World Object Modeling using Multiple Views
  • Ruyi Yu (TAM) – Improved Sparse-Matrix Inverse and Preconditioning Techniques for Green's Function Electronic-Structure Calculations in Materials Science Applications
  • Peng Zhang (MIE) – Three-Dimensional Failure Simulation of Particle-Filled Elastomers
  • Zhengyu Zhang (CEE) – Multiscale Fracture Modeling of Functionally Graded Materials
2000-2001
  • Ozgur Aktas (ECE) – Large-Scale Monte Carlo Simulations for Fundamental Investigations into MEMS Filters
  • Kemal Aygun (ECE) – Development of Fast, Parallel Time Domain Integral Equation Based Methods for Analyzing Electronic Circuits with Conducting, Penetrable, and Nonlinear Components
  • Carlos Caldas (CEE) – Optimization Models for Information Flows in Dynamic Distribution Construction Organizations
  • David Ma (ChemE) – Simulation and Control of Multidimensional Crystallization
  • Xiaosong Ma (CS) – Flexible Parallel I/O Support for Irregular Codes
  • Michael Mitchell (ChemE) – Many Body Simulations of Colloidal or Polymer Systems
  • Milind Naphade (ECE) – Multimedia Analysis for Semantic Indexing of Digital Video
  • Peng Zhang (MIE) – Three-Dimensional Failure Simulation of Particle-Filled Elastomers
  • Zhengyu Zhang (CEE) – Multiscale Fracture Modeling of Functionally Graded Materials using Parallel Computing Techniques
1999-2000
  • Kemal Aygun (ECE) – Development of Higher Order and Efficient Time Domain Integral Equation Based Methods for Analyzing Electromagnetic Transients in Electronic Circuits
  • Wing Fai Chow (CS) – 3-D Pseudospectral Self-Consistent Field Approximation
  • Sony Joseph (TAM) – Computational Electromagnetics
  • Jonghyun Lee (CS) – Efficient, Transparent Data Migration for High-Performance Scientific Computing
  • David Ma (ChemE) – Simulation and Control of Multidimensional Crystallization
  • Efimia Metsi (ChemE) – O(N log N) Algorithms for Large Scale Simulations of Foams and Emulsions
  • Milind Naphade (ECE) – Multimedia Analysis for Semantic Indexing of Digital Video
  • Arvind Rajagopalan (MIE) – A Parallel Approach to Solving the Multi-Tier Time Constrained Vehicle Routing Problems with Load Balancing
  • Maneesh Singh (ECE) – Real-World Scene Modeling and Virtual Manipulation for Augmented Display
  • Mohit Tawarmalani (ChemE) – Computer-Aided Design of Environmentally Benign Refrigerants
  • Gang Zou (CS) – Numerical Simulation of Biomolecular Diffusion
1998-1999
  • Wing Fai Chow (CS) – 3-D Pseudospectral Self-Consistent Field Approximation
  • David Graham (ChemE) – Acoustic Stimulation of Multiphase Flow Through Porous Media
  • Jonghyun Lee (CS) – Efficient, Transparent Data Migration for High-Performance Scientific Codes
  • Maneesh K. Singh (ECE) – Real-World Scene Modeling and Virtual Manipulation of Augmented Display
  • Mohit Tawarmalani (MIE) – Computer-Aided Design of Environmentally Benign Refrigerants
  • Prem Venugopal (MIE) – Development of an Algebraic Multigrid Solver for Navier-Stokes
  • Fei Wang (NucE) – An Advanced Numerical Scheme for Smoke Dynamics
  • Brett Wood (AE) – Coupled Fluid-Solid Computation of a Novel Shock-Boundary-Layer-Interaction Flap System
1997-1998
  • David Graham (ChemE) – Acoustic Stimulation of Multiphase Flow Through Porous Media
  • Arne Gullerud (CEE) – Finite Element Modeling of Crack Growth in Multiply-Cracked Engineering Components
  • Yong Liu (CS) – Multiscale Optimal Control
  • Yong Rui (ECE) – Content-Based Indexing and Retrieval in Multimedia Databases
  • Alexandros Trellakis (Physics) – Numerical Approaches for Nanoelectronics
  • Tao Wang (ECE) – Constrained Global Optimization of Filter Banks in Digital Signal Processing
  • Brett Wood (AE) – Coupled Fluid-Solid Computation of a Novel Shock-Boundary-Layer-Interaction Flap System
1996-1997
  • Yuelong Gu (Atmos) – Understanding the Spatial and Temporal Variability of Summertime Precipitation in the Midwest United States Using Wavelet Transforms
  • Michael Ham (CS) – Development of Efficient Scalable Algorithms for the Solution of Large Systems of Linear Equations Arising from the Numerical Solution of Groundwater Problems
  • Yong Rui (ECE) – Content-Based Indexing and Retrieval in Multimedia Databases
  • Ari Trachtenberg (CS) – Computational Methods in Coding Theory
  • Alexandros Trellakis (Physics) – Numerical Approaches for Nanoelectronics
  • Onder Uluyol (NucE) – Development of Local Gamma Activation Feedback Neural Network and Transient Analysis of Nuclear Power Plant
  • Jeremy VanAntwerp (ChemE) – Globally Optimal Robust Reliable Control of Large Scale Sheet and Film Processes
1995-1996
  • Biao Fang (TAM) – Solution Algorithms for Elliptic-Hyperbolic Systems Arising in Finite Element Models of Crack Growth
  • David Richards (Physics) – Computer Simulation of Ion Implantation and Semiconductor Processing
  • Abhay Samant (ECE) – Preconditioning Dense Matrix Problems in Computational Electromagnetics
  • Ming Torng (CS) – Development of Scalable Algorithms for Numerical Relativity
  • Ari Trachtenberg (CS) – Computational Methods in Coding Theory
  • Jeremy VanAntwerp (ChemE) – Globally Optimal Robust Reliable Control of Large Scale Sheet and Film Processes
  • You Zhang (ECE) – Analysis-Integrated Simulation and Visualization of Fluid Flow
  • Xingbin Zhang (CS) – High Performance Protein Macromolecular Dynamics
1994-1995
  • Biao Fang (TAM) – Solution Algorithms for Elliptic-Hyperbolic Systems Arising in Finite Element Models of Crack Growth
  • David Richards (Physics) – Computer Simulation of Ion Implantation and Semiconductor Processing
  • Abhay Samant (ECE) – Preconditioning Dense Matrix Problems in Computational Electromagnetics
  • Ming Torng (CS) – Development of Scalable Algorithms for Numerical Relativity
  • You Zhang (ECE) – Analysis-Integrated Simulation and Visualization of Fluid Flow
  • Xingbin Zhang (CS) – High-Performance Protein Macromolecular Dynamics