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A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction

Dynamic simulation of complex cardiac excitation and conduction requires high computational time. Thus, the hardware techniques that can run in real-time simulation were introduced. However, according to existing studies, the hardware simulation requires high power consumption and involves a large s...

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Main Authors: Mahmud, Farhanahani, Adon, Nur Atiqah, Othman, Norliza, Hakim, Ade Anggian, Morsin, Marlia, Jabbar, Mohamad Hairol
Format: Article
Language:English
Published: uthm 2024
Subjects:
QP Physiology
Online Access:http://eprints.uthm.edu.my/12430/1/J17918_eb29c92f71e70faa605faa2703caa208.pdf
http://eprints.uthm.edu.my/12430/
https://doi.org/10.30880/ijie.2024.16.01.022
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spelling my.uthm.eprints.124302025-01-31T08:09:03Z http://eprints.uthm.edu.my/12430/ A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction Mahmud, Farhanahani Adon, Nur Atiqah Othman, Norliza Hakim, Ade Anggian Morsin, Marlia Jabbar, Mohamad Hairol QP Physiology Dynamic simulation of complex cardiac excitation and conduction requires high computational time. Thus, the hardware techniques that can run in real-time simulation were introduced. However, according to existing studies, the hardware simulation requires high power consumption and involves a large size of the physical parts. Due to the drawbacks, this research presents the adaptation of nonlinear Ordinary Differential Equation (ODE)-based cardiac excitable models of Luo-Rudy Phase I (LR-I) and FitzHugh-Nagumo (FHN) in a reconfigurable hardware of field-programmable gate array (FPGA). FPGA rapid prototyping using MATLAB Hardware Description Language (HDL) Coder was used to convert a fixed-point MATLAB Simulink blocks design of the cardiac models into a synthesizable VHSIC Hardware Description Language (VHDL) code and verified using the FPGA-In-the Loop (FIL) Co-simulator. The Xilinx FPGA Virtex-6 XC6VLX240T ML605 evaluation board was chosen as the FPGA platform. The cardiac excitation response characteristics using the LR-I model and the simulations of reentrant initiation and annihilation using the FHN model were verified in Virtex-6 FPGA. This means a new real-time simulation-based analysis technique of cardiac electrical excitation and conduction was successfully developed using the reconfigurable hardware. uthm 2024 Article PeerReviewed text en http://eprints.uthm.edu.my/12430/1/J17918_eb29c92f71e70faa605faa2703caa208.pdf Mahmud, Farhanahani and Adon, Nur Atiqah and Othman, Norliza and Hakim, Ade Anggian and Morsin, Marlia and Jabbar, Mohamad Hairol (2024) A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction. International Journal Of Integrated Engineering, 16 (1). pp. 272-281. ISSN 2600-7916 https://doi.org/10.30880/ijie.2024.16.01.022
institution Universiti Tun Hussein Onn Malaysia
building UTHM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tun Hussein Onn Malaysia
content_source UTHM Institutional Repository
url_provider http://eprints.uthm.edu.my/
language English
topic QP Physiology
spellingShingle QP Physiology
Mahmud, Farhanahani
Adon, Nur Atiqah
Othman, Norliza
Hakim, Ade Anggian
Morsin, Marlia
Jabbar, Mohamad Hairol
A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction
description Dynamic simulation of complex cardiac excitation and conduction requires high computational time. Thus, the hardware techniques that can run in real-time simulation were introduced. However, according to existing studies, the hardware simulation requires high power consumption and involves a large size of the physical parts. Due to the drawbacks, this research presents the adaptation of nonlinear Ordinary Differential Equation (ODE)-based cardiac excitable models of Luo-Rudy Phase I (LR-I) and FitzHugh-Nagumo (FHN) in a reconfigurable hardware of field-programmable gate array (FPGA). FPGA rapid prototyping using MATLAB Hardware Description Language (HDL) Coder was used to convert a fixed-point MATLAB Simulink blocks design of the cardiac models into a synthesizable VHSIC Hardware Description Language (VHDL) code and verified using the FPGA-In-the Loop (FIL) Co-simulator. The Xilinx FPGA Virtex-6 XC6VLX240T ML605 evaluation board was chosen as the FPGA platform. The cardiac excitation response characteristics using the LR-I model and the simulations of reentrant initiation and annihilation using the FHN model were verified in Virtex-6 FPGA. This means a new real-time simulation-based analysis technique of cardiac electrical excitation and conduction was successfully developed using the reconfigurable hardware.
format Article
author Mahmud, Farhanahani
Adon, Nur Atiqah
Othman, Norliza
Hakim, Ade Anggian
Morsin, Marlia
Jabbar, Mohamad Hairol
author_facet Mahmud, Farhanahani
Adon, Nur Atiqah
Othman, Norliza
Hakim, Ade Anggian
Morsin, Marlia
Jabbar, Mohamad Hairol
author_sort Mahmud, Farhanahani
title A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction
title_short A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction
title_full A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction
title_fullStr A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction
title_full_unstemmed A Reconfigurable Hardware Realization for Real-Time Simulation of Cardiac Excitation and Conduction
title_sort reconfigurable hardware realization for real-time simulation of cardiac excitation and conduction
publisher uthm
publishDate 2024
url http://eprints.uthm.edu.my/12430/1/J17918_eb29c92f71e70faa605faa2703caa208.pdf
http://eprints.uthm.edu.my/12430/
https://doi.org/10.30880/ijie.2024.16.01.022
_version_ 1823094306115682304
score 13.235796

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