CADCare: Smart System for CHD Identification & Sensor Alerts

Arti Patle; Deepika Ajalkar; Atharva A Jain; Yashashree D Fulsundar; Chaitanya P Survase; Rohit A Parodhi

doi:10.4108/eetpht.10.6183

Authors

Arti Patle G. H. Raisoni College of Engineering
Deepika Ajalkar G. H. Raisoni College of Engineering and Management
Atharva A Jain G. H. Raisoni College of Engineering and Management
Yashashree D Fulsundar G. H. Raisoni College of Engineering and Management
Chaitanya P Survase G. H. Raisoni College of Engineering and Management
Rohit A Parodhi G. H. Raisoni College of Engineering and Management

DOI:

https://doi.org/10.4108/eetpht.10.6183

Keywords:

Internet of Things, Heart Monitoring, ECG Sensor, CAD Detection, ECG Image Analysis, Heart Anomaly Detection, CADCare

Abstract

INTRODUCTION: Cardiovascular diseases, particularly coronary artery disease (CAD), present a global health challenge, necessitating effective detection and diagnosis methods for early intervention. Various machine learning and deep learning approaches have emerged, utilizing diverse data sources such as electrocardiogram (ECG) signals and clinical features to enhance CAD detection. Additionally, circadian heart rate variability (HRV) has been explored as a potential diagnostic marker for CAD severity. This research aims to contribute to the burgeoning field of medical AI and its application in cardiology.

OBJECTIVES: This study seeks to develop a Comprehensive Coronary Artery Disease Detection System integrating real-time heart rate monitoring and CAD prediction via an Android application. The objectives include seamless data transmission, efficient cloud-based data management, and the utilization of AI models, including ANNs, CNNs for ECG images, and hybrid models combining clinical and ECG data, to improve early CAD detection and management.

METHODS: The system architecture involves integrating key sensors, an Arduino microcontroller, a Bluetooth module, and AI models to facilitate early CAD detection. An Android application complements the system, offering heart rate monitoring and CAD prediction using various data sources. Cloud computing is employed for efficient data management and analysis.

RESULTS: The developed system successfully integrates cutting-edge technology to enhance CAD detection, achieving accurate and efficient results in real-time heart rate monitoring and CAD prediction.

CONCLUSION: The Comprehensive Coronary Artery Disease Detection System, leveraging AI and cloud computing, contributes to proactive health monitoring and informed decision-making in CAD management and prevention, thereby addressing a critical need in cardiovascular health care.

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