Design and Implementation of Biosignal Simulator

Authors

  • Yalalt Otgonsaikhan Mongolian University of Science and Technology
  • Bat-Erdene Byambasuren Mongolian University of Science and Technology

DOI:

https://doi.org/10.14464/ess.v11i10.800

Abstract

Bio-signal simulators are vital in biomedical engineering for replicating signals like ECG, EEG, and EMG to test and validate medical devices. This study designs a cost-effective simulator using the PSoC 5 microcontroller, which combines programmable analog and digital components for precise signal generation. The simulator serves both educational and research purposes, providing a practical tool for learning and experimentation.

The simulator employs mathematical models to mimic real-world physiological conditions, providing researchers with a versatile platform for testing bio-signal processing algorithms. The PSoC Creator software streamlines the development process, enabling easy customization and implementation. By offering a realistic environment for signal simulation, the PSoC 5 based simulator aids in advancing bio-signal processing research and improving the performance of medical devices and diagnostic tools. This paper presents the design, schematic solution, and experimental results for generating bio-signals using the PSoC 5 microcontroller.

Author Biographies

Yalalt Otgonsaikhan, Mongolian University of Science and Technology

Department of Electric Technique, Power Engineering School

Bat-Erdene Byambasuren, Mongolian University of Science and Technology

Department of Electric Technique, Power Engineering School

ESS

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Published

2024-12-25