Design and implementation of arrhythmic ECG signals for biomedical engineering applications on FPGA

作     者：Karataş, F. Koyuncu, İ. Tuna, M. Alçın, M. Avcioglu, E. Akgul, A. 

作者机构：Graduate School of Natural and Applied Sciences Afyon Kocatepe University Afyon Turkey Department of Electrical and Electronics Engineering Afyon Kocatepe University Afyon Turkey Department of Electrical Technical Sciences Vocational School Kırklareli University Kırklareli Turkey Department of Mechatronics Afyon Kocatepe University Afyon Turkey Department of Mechanical Engineering Faculty of Engineering Hitit University Corum Turkey Department of Computer Engineering Faculty of Engineering Hitit University Corum Turkey 

出 版 物：《The European Physical Journal Special Topics》 

年 卷 期：2021年第231卷第5期

页      面：869-884页

学科分类：07[理学] 0702[理学-物理学] 

摘      要：In this study, eight arrhythmic ECG signals from vital signals [sinus tachycardia, supraventricular tachycardia, premature ventricular complex (PVC), atrial fibrillation, AV block: 3rd degree, ventricular fibrillation, sinus bradycardia, first-degree AV block] were designed mathematically, and then modelled on FPGA by VHDL and Xilinx-Vivado software. The mathematical extrapolation of the signals was created in accordance with the literature and after examining the time and amplitude values of many ECG signals from the Physiobank ATM section of the MIT-BIH (Massachusetts Institute of Technology-Beth Israel Hospital) arrhythmia database. These signals were synthesized for the Zynq-7000 XC7Z020 FPGA chip for using in biomedical calibration applications and ECG simulators. The ECG signals were modelled with a 14-bit AD9767 DAC module that worked in coherence with this development board, and observed in real-time by 4 channel oscilloscope. Matlab-based ECG signals were taken as reference and compared with the results obtained from the FPGA-based ECG signals design. The FPGA chip resource consumption values obtained after the place–route process, the test results obtained from the design, the MSE (mean squared error) values of the designed signals, the operating frequencies of the system and each signal have been presented. The maximum operating speed of this system is 651.827 MHz. In this study, it has been shown that FPGA-based ECG signal generation system can be implemented on FPGA chips, and the designed system can be safely used in ECG simulators.