Abstract

Abstract: The objective of this study is to establish a highly efficient health monitoring system that focuses on key parameters such as heart rate and temperature. To achieve this, the proposed system utilizes FPGA technology for rapid information processing. Health data, collected through a Pulse sensor and Temperature sensor, is transmitted using an ADC. The system continuously monitors the heart rate and temperature of the patient's body. For instance, the heart rate is measured using a Pulse sensor, while the Temperature sensor detects the body temperature. The encoded serial data is then transmitted through a transmitting module, which is connected to a patient's location. The receiver unit can be an LCD display at the patient's place, or it can be a laptop, desktop, or mobile phone connected to the internet. The receiver can be either a doctor or a person close to the patient. A transmitter unit near the patient sends the data through an FPGA and a Wi-Fi module, which is connected to it, receives and updates the data on a server. The data is continuously displayed on a user interface visible on a PC or laptop using the IP address. This allows doctors or responsible individuals to observe and monitor multiple patients simultaneously. The system also continuously monitors the patient's data, displaying it near the patient and updating it on the server. By using the IP address of a specific patient, doctors can easily assess the patient's condition. The receiver, an LCD display at the patient's location, and another connected device (laptop, desktop, or mobile phone) constantly update and display the data. The system enables remote monitoring and real-time observation by doctors or caregivers. The research highlights the accessibility of FPGA-based design resources

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