Human Heart Stabilization using Mathematical Based Model with Proportional Integral and Derivative Controller

Abstract

This paper presents human heart stabilization using mathematical based with Proportional Integral and Derivative (PID) controller. In order to improve the Hydro Electromechanical System (HEMS) of human heart models found in prior studies, the present paper introduced a PID model that integrates a low pass filter (F) to give a PIDF that provides control signal to adjust the heartbeat rate if it is disturbed and to command the cardiovascular system. The entire system was built and simulated in MATLAB/Simulink environment. The heartbeat model has been applied for steady state study of cardiovascular system when a disease attacks the heart. The result obtained proves the effectiveness of the developed control strategy. Simulation result revealed that the introduction of the PIDF controller ensured the stabilization of the heart to its right working state when compared to the heartbeat response of normal heartbeat.