This paper presents an integrated approach to wearable health-care platforms, specifically focusing on the incorporation of advanced cardiological analysis techniques. Wearable devices have revolutionized health monitoring, offering real-time data acquisition and continuous patient engagement. Our proposed system leverages the capabilities of wearable technology and integrates a sophisticated cardiological analysis approach to provide a comprehensive and dynamic assessment of cardiovascular health. The paper begins by detailing the architecture of the wearable health-care platform, emphasizing the selection of sensors for vital sign monitoring, activity tracking, and environmental sensing. The platform's design prioritizes user comfort, wear ability, and data accuracy, ensuring seamless integration into daily life while facilitating continuous health monitoring. The core of the paper explores the cardiological analysis approach, which includes the implementation of comparing algorithms for the real-time processing of electrocardiogram (ECG) data and seismocardiogram (SCG). Specialized signal processing techniques are employed to extract meaningful insights into cardiac health. The system aims to detect and analyze irregularities in heart rhythm, identify potential cardiac abnormalities, and provide timely alerts for proactive medical intervention. Furthermore, the integration of additional cardiovascular metrics, such as heart rate variability (HRV) and blood pressure, enhances the depth of cardiological analysis. The wearable platform facilitates the seamless collection of these metrics, enabling a more holistic assessment of cardiovascular health beyond traditional ECG monitoring.