Bernardo M. Rocha

Orcid: 0000-0002-0508-8959

According to our database1, Bernardo M. Rocha authored at least 37 papers between 2009 and 2024.

Collaborative distances:
  • Dijkstra number2 of five.
  • Erdős number3 of four.

Timeline

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Bibliography

2024
A bounded scheme based on Bézier curves for convection-dominated transport problems.
J. Comput. Appl. Math., February, 2024

A novel second-order ADI Scheme for solving epidemic models with cross-diffusion.
J. Comput. Sci., 2024

MonoWeb: Cardiac Electrophysiology Web Simulator.
Proceedings of the Computational Science - ICCS 2024, 2024

2023
A Hybrid Model for Cardiac Perfusion: Coupling a Discrete Coronary Arterial Tree Model with a Continuous Porous-Media Flow Model of the Myocardium.
Entropy, August, 2023

Polynomial chaos expansion surrogate modeling of passive cardiac mechanics using the Holzapfel-Ogden constitutive model.
J. Comput. Sci., 2023

Studying Arrhythmic Risk with In-Silico Programmed Ventricular Stimulation and Patient-Specific Computational Models.
Proceedings of the Computational Science and Its Applications - ICCSA 2023 Workshops, 2023

Sensitivity Analysis of a Cardiac Electrophysiology Model for the Occurrence of Electrical Alternans.
Proceedings of the Computational Science and Its Applications - ICCSA 2023 Workshops, 2023

Accelerating the Simulations of Cardiac Arrhythmia with a Second-Order Numerical Method and High-Performance Computing.
Proceedings of the Computational Science and Its Applications - ICCSA 2023 Workshops, 2023

Replacing the FitzHugh-Nagumo Electrophysiology Model by Physics-Informed Neural Networks.
Proceedings of the Computational Science - ICCS 2023, 2023

2022
Finite Element Methods for Large-Strain Poroelasticity/Chemotaxis Models Simulating the Formation of Myocardial Oedema.
J. Sci. Comput., 2022

Timing the race of vaccination, new variants, and relaxing restrictions during COVID-19 pandemic.
J. Comput. Sci., 2022

A stabilized hybrid discontinuous Galerkin method for the Cahn-Hilliard equation.
J. Comput. Appl. Math., 2022

Forward Uncertainty Quantification and Sensitivity Analysis of the Holzapfel-Ogden Model for the Left Ventricular Passive Mechanics.
Proceedings of the Computational Science - ICCS 2022, 2022

Characterization of Foam-Assisted Water-Gas Flow via Inverse Uncertainty Quantification Techniques.
Proceedings of the Computational Science - ICCS 2022, 2022

Modeling Contrast Perfusion and Adsorption Phenomena in the Human Left Ventricle.
Proceedings of the Computational Science - ICCS 2022, 2022

2021
Mixed methods for large-strain poroelasticity/chemotaxis models simulating the formation of myocardial oedema.
CoRR, 2021

How Fast Vaccination Can Control the COVID-19 Pandemic in Brazil?
Proceedings of the Computational Science - ICCS 2021, 2021

2019
On the mathematical modeling of inflammatory edema formation.
Comput. Math. Appl., 2019

A personalized computational model of edema formation in myocarditis based on long-axis biventricular MRI images.
BMC Bioinform., 2019

Combining Polynomial Chaos Expansions and Genetic Algorithm for the Coupling of Electrophysiological Models.
Proceedings of the Computational Science - ICCS 2019, 2019

Stabilized Variational Formulation for Solving Cell Response to Applied Electric Field.
Proceedings of the Computational Science - ICCS 2019, 2019

2018
An Optimization-Based Algorithm for the Construction of Cardiac Purkinje Network Models.
IEEE Trans. Biomed. Eng., 2018

Design and Analysis of an Undergraduate Computational Engineering Degree at Federal University of Juiz de Fora.
Proceedings of the Computational Science - ICCS 2018, 2018

An Hydro-Mechanical Model of Edema Formation Applied to Bacterial Myocarditis.
Proceedings of the IEEE International Conference on Bioinformatics and Biomedicine, 2018

2017
Multilevel parallelism scheme in a genetic algorithm applied to cardiac models with mass-spring systems.
J. Supercomput., 2017

2016
Lattice Boltzmann method for parallel simulations of cardiac electrophysiology using GPUs.
J. Comput. Appl. Math., 2016

Simulations of Cardiac Electrophysiology Combining GPU and Adaptive Mesh Refinement Algorithms.
Proceedings of the Bioinformatics and Biomedical Engineering, 2016

2015
Uniformization Method for Solving Cardiac Electrophysiology Models Based on the Markov-Chain Formulation.
IEEE Trans. Biomed. Eng., 2015

A Parallel Genetic Algorithm to Adjust a Cardiac Model Based on Cellular Automaton and Mass-Spring Systems.
Proceedings of the Parallel Computing Technologies - 13th International Conference, PaCT 2015, Petrozavodsk, Russia, August 31, 2015

2013
3D Heart Modeling with Cellular Automata, Mass-Spring System and CUDA.
Proceedings of the Parallel Computing Technologies - 12th International Conference, 2013

Automatic Parametrization Strategy for Cardiac Electrophysiology Simulations.
Proceedings of the Computing in Cardiology, 2013

2012
A parallel accelerated adaptive mesh algorithm for the solution of electrical models of the heart.
Int. J. High Perform. Syst. Archit., 2012

An Adaptive Mesh Algorithm for the Numerical Solution of Electrical Models of the Heart.
Proceedings of the Computational Science and Its Applications - ICCSA 2012, 2012

2011
A Macro Finite-Element Formulation for Cardiac Electrophysiology Simulations Using Hybrid Unstructured Grids.
IEEE Trans. Biomed. Eng., 2011

Accelerating cardiac excitation spread simulations using graphics processing units.
Concurr. Comput. Pract. Exp., 2011

Comparing CUDA, OpenCL and OpenGL Implementations of the Cardiac Monodomain Equations.
Proceedings of the Parallel Processing and Applied Mathematics, 2011

2009
Simulations of the Electrical Activity in the Heart with Graphic Processing Units.
Proceedings of the Parallel Processing and Applied Mathematics, 2009


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