JOURNAL OF OPTOELECTRONICS LASER Volume 41 Issue 10, 2022 ISSN: 1005-0086 JOURNAL OF OPTOELECTRONICS LASER DOI: 10.5281/zenodo.7272825 514 INTELLIGIBLE GUI FOR MONITORING AND PROPAGATION OF BIOMEDICAL SIGNAL Prabhjot Kaur 1 , Lillie Dewan 2 1 Research Scholar, 2 Professor, 1, 2 Electrical Engineering Department, National Institute of Technology, Kurukshetra, Haryana, India Abstract: Remote pregnancy monitoring has been gaining momentum in recent times. Observing maternal abdominal Electrocardiogram (ECG) signals throughout the gestation period is imperative to analyze complex cardiac diseases. Though vast research has been reported on the extraction of Fetal ECG signals from abdominal ECG signals using different techniques and algorithms, hardly any Graphical User Interface has been designed. The authors of the paper present an efficient and reliable Graphical User Interface to provide an automatic diagnosis of cardiac disorders with good accuracy and less computational complexity. It uses an Independent Component Analysis technique and hybrid filters to isolate and assess quantitatively Fetal and mother ECG signals. It offers a timely and appropriate remedy to the patient by facilitating communication with a doctor located distantly using Internet Protocol. The digital data transmission and 2D visualization of ECG waveform become more accessible with LabVIEW. Keywords: Electrocardiography, Cardiac Disorders, Signal-To-Noise Ratio, Independent Component Analysis, Hybrid filters, LabVIEW, GUI, Video-Teleconference (VTC), patient care. 1 Introduction Telemonitoring is a kind of healthcare that allows a patient to use a graphical user interface to perform a routine test and send the test data to a healthcare professional in real-time. Since the COVID-19 pandemic, the remote monitoring of expectant mothers has become the new norm to lessen the risk of virus transmission. The pregnants’ are suggested to limit their exposure by avoiding in-person clinic visits as they are most vulnerable to infection. Besides, there is a dearth of healthcare personnel in remote areas and people have to travel long distances to consult a doctor. In such circumstances, there arises a need for some sort of unique telecare system that virtually monitors mothers' and fetuses' health during gestation. The proposed remote physiologic monitoring system involves advanced digital technologies and biomedical signal processing algorithms that would contribute to the prenatal care of pregnant women. These algorithms help mothers-to-be and their fetus to stay healthy during gestation and clinical diagnosis. The analysis of cardiac diseases from ECG signals has great significance in medical applications. Obtaining a good quality Fetal Electrocardiography (FECG) signal from the Abdominal Electrocardiography (AECG) signal always remains challenging. Comprehending the morphology