An approach towards error less ECG signal equation based on computational simulation aspect with modeling of cardiovascular disorder diagnosis

The paper is based on the glimpse of generating ECG signal equations of cardiovascular disorder systems. The computational approach is introduced to develop the non-linear ECG equations with the application of advanced simulation tool. The proposed preliminary interpolation approach is generated to construct the errorless ECG. Graphical representation has been carried out on the basis of the ECG equations by incorporating signals at different conditions of human heart. The dissimilarity in the behavior of the ECG signals (mainly the variation of amplitude) helps to diagnose different heart diseases. A computational flowchart is proposed to implement the cardiovascular disorder diagnosis system. An algorithmic approach is depicted to initiate with the system design technology. Additionally, a short medicine table is also incorporated to show the cardiovascular circulation disorder. Overall, a computational attempt is taken for generating a feedback technology to prevent sudden heart attack which can be proved to be a boon in the varied fields of Computational Biology and Medical Systems.