Mathematical Model Optimization Techniques under Unreliable Electromagnetic Field for ECG Waves

The electrocardiogram (ECG) has significant scientific importance for analyzing the majority of cardiovasculardiseases. On one side the technologies are growing very fast, on the other side there is a need to check andbalance their effect on human health. The activity of the heart ECG voltage vector is well explained by themodeling of the ECG wave. It is one of the essential tools to do so. In the proposed work we tried to elucidatea mathematical model for the ECG wave by presumptuous the human body as a cylindrical complex dielectricand conducting medium. The human heart is considered as a harmonic bio-signal generator positioned in thismedium. Nowadays, technologies are enhancing in various aspects as the graph of mobile phone usersincreasing rapidly day by day. Essentially, it needed to understand its side effects on the human body andespecially for the health of the human heart. The electrical equivalent of the heart can be used to develop amathematical model for the human heart as per its functioning. The ECG parameters which are affecting due tothe electromagnetic wave can be analyzed using a proposed mathematical model. If mathematical expressionsare available relations can be formed and understand for each part of the human heart. As mobile phone andits, some component gives electromagnetic exposure to the human body. Hence there is a need to develop amodel of the human heart using mathematical analysis. Hence, this paper proposes a mathematical model forECG and variation of parameters due to electromagnetic field- based.