Smart Health care Monitoring using Arduino.pptx
- 1. Smart Health Care monitoring using Arduino Submitted by Idris Firas Adnan Abu Al-Hassan AbdulWahab Jabr Supervised by S D 2023
- 3. Introduction The proposed project involves the creation of a smart health care monitoring system using an Arduino Uno microcontroller, two sensors (MLX90614 for body temperature measurement and MAX30102 for measurement heart rate), and an ESP8266 Wi-Fi module for remote communication. The system would transmit data from the sensors to a remote XY app by using ESP8266 Wi-Fi module, allowing for real-time monitoring of the patient's health status. The goal of this project is to provide a convenient and non-invasive method for monitoring vital signs and improve patient care.
- 4. Objectives To provide a low-cost and convenient solution for monitoring an individual's health parameters, including body temperature, heart rate. To allow individuals to monitor their health from a distance, reducing the need for frequent visits to a medical facility. To enable medical professionals to monitor multiple patients remotely, improving the efficiency and accessibility of healthcare services. To provide real-time monitoring of health parameters, allowing for early detection and prompt treatment of any health issues.
- 5. Literature Review There are several research groups who are currently working on Smart Health Care Monitoring systems across the world. The health care is one of the most important factors in today’s life. The real time monitoring from a remote place is needed for the patients care in this fast moving world. A health monitoring system consists of ECG, Pulse rate, SpO2, blood pressure, etc., These equipment are already available in commercial markets for the hospital setups and many researches are currently being held to improve the efficiency and accuracy. These equipment are massive in size that can be used only in hospitals and clinics and could not be used by the patients outside the hospitals. Due to the above reasons, we started working towards the health monitoring system that is affordable and portable for patients to monitor their health outside the hospitals. There are some works related to this project that we will see now:
- 6. 1- Wearable Devices: Wearable devices such as fitness trackers, smart watches, and smart clothing have become popular for tracking fitness and health. They can monitor vital signs such as heart rate, blood pressure, and temperature, as well as track physical activity and sleep patterns. The data is transmitted wirelessly to a mobile app or a web-based platform, allowing healthcare providers to remotely monitor patients' health conditions and provide personalized treatment plans. Remote patient monitoring (RPM) systems allow healthcare providers to monitor patients' health conditions in real-time and provide timely interventions. RPM systems use wireless sensors that can be placed on patients' bodies to monitor vital signs, such as heart rate, blood pressure, and oxygen saturation. The data is transmitted wirelessly to a central monitoring station, where healthcare providers can review the data and make informed decisions about patient care. 2- Remote Patient Monitoring:
- 7. Heart rate sensor(MAX30102) Temperature Sensor(MLX90614) Microcontroller (Arduino Uno) Power Supply ESP 8266 Wi-Fi Module Cloud Server Mobile app(Remote XY) Send data Receives data Methodology System Design
- 8. Future work 1- Improving Sensor Accuracy: To improve the accuracy of health monitoring systems, future work could focus on developing more advanced sensors and algorithms that can capture more precise data. This could lead to better diagnoses and treatments, as well as more efficient use of healthcare resources. 2- Developing Low-Cost Health Monitoring Devices: One of the main advantages of using Arduino in healthcare monitoring is its low cost. Future work could focus on developing low-cost health monitoring devices that can be used in resource-constrained environments, such as developing countries or remote areas. This could increase access to healthcare services for underserved populations. 3- Real-Time Alerts and Notifications: In healthcare, timely interventions can be critical for improving patient outcomes. Future work could focus on developing real-time alert and notification systems that use Arduino to monitor patient health conditions and alert healthcare providers when an intervention is needed.
- 9. Thank you