Computational Science Research Center
Modeling Spatio-Temporal Distribution of HIV Particles on Cervicovaginal Mucus and Nanoparticle-Based Preventive Therapy
Graphical Neural Network Based Task Scheduling in Robots
Deep Learning Enhanced Dynamic Mode Decomposition
A Shared Aperture Ku-/Ka-Band Feed Source for a High Gain Fixed Beam Offset Parabolic Reflector Antenna
Reconfigurable Intelligent Surfaces
Creating a Mimetic Curvilinear Coastal Ocean Model
Investigating Superconducting Qubits Towards Millimeter Wave Frequencies
Structure and Stability of Differentially Rotating Compact Stellar Objects
An Application of Mimetics to the Nonlinear Klien-Gordon-Maxwell (KGM) System of Equations with Periodic Boundary Conditions
Mimetic Methods for ab-initio Quantum Dynamics
Multimodal Deep Reinforcement Learning for Autonomous Drone Navigation in Dynamic Environments
Perona Malik Equation with Mimetic Method
Three-Dimensional Empirical Orthogonal Functions Computed From An Ocean General Circulation Model: Computing, Visualization and Interpretation
Using Convolutional Neural Networks to Limit CT-Based Severity Staging of COPD to a Single CT Acquisition
Surface Expression and Tiltmeter Surface Deformation Patterns in Study Areas of California’s Midway-Sunset and Cymric Oil Fields
Gains in Prediction Accuracy with Imputation for Missing Data
Modeling the Spatiotemporal Distribution of HIV Infection in the Brain
A Big-Data Enhanced Nonlinear Decomposition Method for Minimal Channel Flow Turbulence
Machine Learning Identifies the Chemical Properties That Predict Pancreas Toxicity in the Zebrafish Model
Use It Or Lose It: An Economic VCG Auction Approach For NOMA Wireless Relay Networks
High Order Structure Preserving Mimetic Methods For Hamiltonian Systems
Physics Informed Neural Networks for Ultrasonic Guided Wave Propagation in Solid Media
Lower Dimensional Network Representation of Chemical Space
Mathematical Models of the Cystic Fibrosis Lung Microbiome
Use of 3D Chaos Game Representation to Quantify DNA Sequence Similarity
Natural Orbitals for the Nuclear Many-Body Problem