└── HUMAN HEALTH MONITORING DEVICE USING WEARABLE SENSOR USING PCB DESIGN


/HUMAN HEALTH MONITORING DEVICE USING WEARABLE SENSOR USING PCB DESIGN:
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 1 | ABSTRACT:
 2 | Human health monitoring has become increasingly important in the modern era, with 
 3 | wearable technology playing a pivotal role in providing real-time data for medical 
 4 | professionals and individuals alike. This paper presents the development of a wearable 
 5 | health monitoring system utilizing sensors integrated into a custom-designed printed 
 6 | circuit board (PCB). The system incorporates various biosensors such as heart rate, body 
 7 | temperature, electrocardiogram (ECG), and accelerometers to monitor vital physiological 
 8 | parameters. The PCB design ensures minimal power consumption, compactness, and ease 
 9 | of integration into wearable devices, while maintaining reliability and accuracy in sensor 
10 | readings. Data collected by the sensors is processed and transmitted wirelessly to mobile 
11 | devices or healthcare platforms for further analysis. The proposed system aims to provide 
12 | continuous, non-invasive monitoring, offering potential benefits in the early detection of 
13 | health issues, personalized healthcare, and chronic disease management. Through the use 
14 | of innovative PCB design and sensor integration, this approach enhances the accessibility 
15 | and practicality of wearable health monitoring systems for everyday use.
16 | 
17 | OBJECTIVE:
18 | The primary objective of this project is to design and develop a wearable health 
19 | monitoring system that integrates various biosensors into a compact, efficient, and 
20 | reliable printed circuit board (PCB). To integrate multiple health-monitoring sensors 
21 | such as heart rate, body temperature, electrocardiogram (ECG), and motion sensors 
22 | (accelerometer) onto a single PCB for continuous and real-time tracking of vital 
23 | health parameters. To create a custom PCB that optimizes space, minimizes power 
24 | consumption, and ensures stability, enabling its use in portable and wearable 
25 | devices. To design a system that can wirelessly transmit collected health data to 
26 | mobile devices or cloud-based healthcare platforms for analysis, ensuring real-time 
27 | monitoring and alerts.
28 | 


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