Author Info
Name
Affiliation
Papers
WEBER DOS SANTOS R
Department of Computer Science and the Graduate Program of Computational Modeling, Federal University of Juiz de Fora, Juiz de Fora, Brazil
76
Collaborators
Citations 
PageRank 
132
199
44.90
Referers 
Referees 
References 
371
574
301
Search Limit
100574
Title
Citations
PageRank
Year
Improved Accuracy Of Cardiac Tissue-Level Simulations By Considering Membrane Resistance As A Cellular-Level Optimization Objective00.342020
Adaptive-step methods for Markov-based membrane models00.342020
Single-variable delay-differential equation approximations of the FitzHugh-Nagumo and Hodgkin-Huxley models00.342020
A personalized computational model of edema formation in myocarditis based on long-axis biventricular MRI images.00.342019
On the mathematical modeling of inflammatory edema formation00.342019
Quantitative Validation of a Yellow Fever Vaccine Model.10.432019
Combining Polynomial Chaos Expansions And Genetic Algorithm For The Coupling Of Electrophysiological Models00.342019
Stabilized Variational Formulation For Solving Cell Response To Applied Electric Field00.342019
A Study Of The Electrical Propagation In Purkinje Fibers00.342019
On the use of HCM to develop a resource allocation algorithm for heterogeneous clusters.00.342018
A Multiscale Computational Model Of Calcium-Mediated Ectopy In The Human Postinfarction Heart00.342018
Performance Evaluation of Two Load Balancing Algorithms for Hybrid Clusters.00.342018
An optimization-based algorithm for the construction of cardiac Purkinje network models.00.342018
Multilevel parallelism scheme in a genetic algorithm applied to cardiac models with mass–spring systems00.342017
Computational modeling of the immune response to yellow fever00.342016
Lattice Boltzmann method for parallel simulations of cardiac electrophysiology using GPUs30.502016
Reactive Interstitial and Reparative Fibrosis as Substrates for Cardiac Ectopic Pacemakers and Reentries.00.342016
Simulations of Cardiac Electrophysiology Combining GPU and Adaptive Mesh Refinement Algorithms.10.362016
A Parallel Model for Heterogeneous Cluster.00.342016
Improving the Performance of Cardiac Simulations in a Multi-GPU Architecture Using a Coalesced Data and Kernel Scheme.00.342016
A Plasma Flow Model in the Interstitial Tissue Due to Bacterial Infection.00.342016
Machine Learning Approaches to Estimate Simulated Cardiac Ejection Fraction from Electrical Impedance Tomography.00.342016
Simulation of cardiac perfusion by contrast in the myocardium using a formulation of flow in porous media10.632016
Mind the gap: A semi-continuum model for discrete electrical propagation in cardiac tissue.10.362016
Mind the gap: A semi-continuum model for discrete electrical propagation in cardiac tissue.10.362016
Performance Evaluation of a Human Immune System Simulator on a GPU Cluster.10.372015
Uniformization Method for Solving Cardiac Electrophysiology Models Based on the Markov-Chain Formulation30.472015
On a Dynamic Scheduling Approach to Execute OpenCL Jobs on APUs.00.342015
On the use of multiple heterogeneous devices to speedup the execution of a computational model of the Human Immune System10.372015
A Parallel Genetic Algorithm to Adjust a Cardiac Model Based on Cellular Automaton and Mass-Spring Systems20.442015
A GPU-based heart simulator with mass-spring systems and cellular automaton30.792014
An Efficient Finite Element Approach for Modeling Fibrotic Clefts in the Heart.10.382014
Artificial Neural Networks Ensemble Applied to the Electrical Impedance Tomography Problem to Determine the Cardiac Ejection Fraction.20.452014
3d Heart Modeling With Cellular Automata, Mass-Spring System And Cuda20.732013
Determination of Cardiac Ejection Fraction by Electrical Impedance Tomography Using an Artificial Neural Network.20.412013
Solving the cardiac bidomain equations using graphics processing units.70.722013
Genetic Algorithm for the History Matching Problem.10.362013
Electroanatomical Characterization of Atrial Microfibrosis in a Histologically Detailed Computer Model.81.292013
Influence of ischemic core muscle fibers on surface depolarization potentials in superfused cardiac tissue preparations: a simulation study.10.362012
Comparison between genetic algorithms and differential evolution for solving the history matching problem10.352012
A three-dimensional computational model of the innate immune system40.512012
A parallel accelerated adaptive mesh algorithm for the solution of electrical models of the heart10.372012
An adaptive mesh algorithm for the numerical solution of electrical models of the heart10.362012
Advanced computing solutions for health care and medicine.10.482012
System dynamics metamodels supporting the development of computational models of the human innate immune system00.342012
Simulations of Complex and Microscopic Models of Cardiac Electrophysiology Powered by Multi-GPU Platforms.40.552012
Design and Implementation of the PBIW Instruction Decoder in a Softcore Embedded Processor00.342012
Computational Modeling of Microabscess Formation.30.592012
An Electro-Mechanical Cardiac Simulator Based On Cellular Automata And Mass-Spring Models40.922012
Comparing CUDA, OpenCL and OpenGL implementations of the cardiac monodomain equations40.522011
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