IRJET- Iot Based Measurement of Body Temperature using Max30205
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This document describes a system for remotely monitoring body temperature using Internet of Things (IoT) technology. A MAX30205 sensor is used to measure body temperature and an ESP8266 WiFi module transmits the temperature readings to the cloud-based Firebase database. An Android mobile application allows doctors to view patients' temperature readings from the Firebase database. The system aims to help patients who cannot easily meet with doctors to regularly monitor their temperature and send readings to their doctor for remote health monitoring. The system was tested on 5 patients of different age groups and provided accurate temperature readings.
![International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 05 Issue: 03 | Mar-2018 www.irjet.net p-ISSN: 2395-0072
© 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 3915
5. RESULT
The temperature of a patient's body can be measured with
just contact of the skin with the sensor. The above
experiment has been implemented on 5 patients of different
age groups with body temperatures and has been validated
with accurate results. This method providesan efficient and
better way to communicate to a doctor, especially for
patients who are bedridden or require frequent medical
check-ups.
6. CONCLUSION
We have successfully developed a system that would
monitor the temperature of the patient and continuously
send the temperature values to the doctor. In this way, any
abnormalities in the body's thermoregulation mechanism
are found and hence several disorders can be prevented.
ACKNOWLEDGEMENT
We would like to thank our mentor and guide for being a
pillar of support in helping us throughout our research.
We also would like to thank our fellow colleagues who
patiently went through previous versions of the manuscript
and correcting errors.
Finally, we show our immense gratitude to the almighty for
enabling us to complete this research.
REFERENCES
[1] "Wireless Network for Health Monitoring Heart Rate
and Temperature Sensor"; L. Tang and H. Kiourmars
[2] Y. WongsawatJ. Arnil Y. andPunsawad;"Wireless Sensor
Network based Smart System for Healthcare
Monitoring"; International Conference on Robotics and
Biomimetics 2011.
[3] F.H. Yahaya and Y. M. Yusoff H.Z. Abidin R.A. Rahman;
"Development of a PIC-based wireless Sensor node
utilizing XBEE Technology"; IEEE International
Conference on Information Management and
Engineering 2010.
[4] J. Damodhar and P. A. Reddy;"A real time monitoring
system for Physiological Signals using Wireless Sensor
Network".
[5] Carlo Alberto Boano Matteo Lasagni Kay Romer Tanja
Lange. "Accurate Temperature Measurements for
Medical Research using Body Sensor Networks".
[6] SO RoopeshAppaji and M Abhishek H N
Suma. "Prognostic Health Monitoring System";
[7] "A Brief Study on the Facts And Figures of Body
Temperature"; S. Sudha A. Mukunthan.
[8] Adam Tenforde. "The Effects of Cooling Core Body
Temperature on Overall Strength Gains and
PostExercise Recovery".](https://image.slidesharecdn.com/irjet-v5i3916-190207081921/85/IRJET-Iot-Based-Measurement-of-Body-Temperature-using-Max30205-3-320.jpg)
IRJET- Iot Based Measurement of Body Temperature using Max30205
- 1. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 03 | Mar-2018 www.irjet.net p-ISSN: 2395-0072 © 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 3913 IOT BASED MEASUREMENT OF BODY TEMPERATURE USING MAX30205 Dr. Sudha S.1, P. Shruthi2, M. Sharanya3 1Professor, ECE Department, Easwari Engineering College, Tamil Nadu, India 2,3 B.E - ECE Department, Easwari Engineering College, Tamil Nadu, India ---------------------------------------------------------------------***--------------------------------------------------------------------- Abstract -Temperature is a vital parameterindetermining a person's health condition and plays a primary role in diagnosing the problem. Using the Fever Click MAX30205 sensor, a person can measure his body temperature easily. In cases where the patient is unable to meet the doctor or requires frequent monitoring, he could send his body temperature to the doctor anytime using the mobile application based on Firebase platform.To obtain values from the sensor and send it to Firebase, ESP8266 Wi-Fi Module is being utilized. Key Words: Fever Click, MAX30205 sensor, Android application, IoT (Internet of Things), ESP8266 Wi-Fi Module, Firebase 1.INTRODUCTION Human body temperature is of great interest in medical practice and diagnosis. The normal human body temperature range is usually between 36.5 °C and 37.5 °C (97.7 °F – 99.5 °F). A person'sbody temperature dependson his/her age, exertion, infection, the time of day, the subject's state of consciousness, activity level, and emotional state of the subject. Fluctuations in the human body temperature indicate a variety of diseases such as hypothermia, hyperthermia and cardiac arrhythmias. Human body temperature changes are usually a reaction of our body’s immune system; a fever indicates that the immune system is fightingoff an infection.Bodytemperature is one of four significant signs that indicate the detection and diagnosisof almost all diseasesand disorders,theotherthree being blood pressure, pulse rate, and respiration rate. 1.1 IMPORTANCE OF A PERSON’S TEMPERATURE When an individual becomes unwell, one of the first things that should be done is to determine what disease, injury, or other factor is its cause. Few problems, such as heatstroke and pneumonia, cause the body to becomehigherthanusual. Some problems, such as hypothermia and some kinds of shock, cause the body to become colder than usual. The problem with the patient can be found by determining the body temperature. Change in the person’sbodytemperature indicates that the treatment being used is effective. 1.2 VARIOUS BODY TEMPERATURES AND THEIR EFFECTS: Table -1: List of different body temperatures along with their corresponding effects BODY TEMPERATURE EFFECTS ON BODY 44 °C (111.2 °F) or greater Death will occur almost certainly. 43 °C (109.4 °F) Usually death, serious brain damage, Cardio- respiratory collapse, continuous convulsions, and shock 42 °C (107.6 °F) The person might turn pale or remain flushed and red. One might become comatose, be in severe delirium, vomiting, and convulsionscould occur. Blood pressure (BP) might be highor low. Heart rate would be very fast. 41 °C (105.8 °F) Dizziness, fainting, severe headache, hallucinations, vomiting, delirium and drowsiness might occur. Palpitations and breathlessness could occur too. 40 °C (104.0 °F) Begins to be life-threatening. Fainting,headache, breathlessness, dehydration, weakness feeling, vomiting, and dizziness along with profuse sweating. 39 °C (102.2 °F) Profuse sweating, flushed and red. Exhaustion, fast heartbeat rate, and breathlessness. 38 °C (100.4 °F) Thirsty, uncomfortable, sweating, feeling of hunger, chillness feeling too. 36.5–37.5 °C (97.7– 99.5 °F) Normal body temperature. 36 °C (97 °F) Temperature becomes this low while sleeping may be normal. 35 °C (95 °F) Shivering, numbness and grey/bluish colouring of the skin. Heart irritability may occur. 34 °C (93 °F) Disablement of finger movement, shivering. 33 °C (91 °F) Lot of confusion, drowsiness, lessening of reflexes, slow heart rate, breathing is shallow. 32 °C (90 °F) Hallucinations could occur, delirium, a lot of confusion, extreme drowsiness progressively becoming comatose. Absence of shivering. 31 °C (88 °F) Comatose,conscious rarely. Very fewer reflexes. Shallow breathing and slow heartbeat. Serious heart rhythm problems may occur. 28 °C (82 °F) Heart rhythm disturbances to be severe, breathing might stop anytime.The person might appear dead. 24–26 °C (75–79 °F) or less Irregular heartbeat or respiratoryarrest usually causes death.
- 2. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 03 | Mar-2018 www.irjet.net p-ISSN: 2395-0072 © 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 3914 2. PROPOSED METHOD Fever Click senses and measures the human body temperature. The Wi-Fi module transmits the data to the clouddatabase, which storesthe data. TheESPWi-Fimodule waschosen because it allows making simple IP connections. According to this buffered data, the results are displayed in the Android application which was created by us, “Temperature Monitor”. The dynamic updates are provided with the help of the Firebase and the sensor. These updates could be viewed by the doctor by using the mobile application. This is depicted in Figure 1. Fig -1: Block Diagram 3. SETUP Fever Click measures the temperature of our body with an accuracy of 0.1°C. The click contains MAX30205 humanbody temperature sensor, having a16-Bit (0.00390625°C) temperature resolution. This device converts the analog temperature measurements to the corresponding digital form with the help of a high resolution, sigma-delta, an analog-to-digital converter (ADC). Fever clickreadsthebody temperature, and the results could be shown on the mikromedia PIC32, which is a high quality, compact smart display. The data from the sensor will be segregated by the NodeMCUESP8266-12E Wi-Fi Module. The firmware NodeMCU is an open source IoT platform and is equipped with an integrated TCP/IP protocol stack, which canprovide access to the Wi-Fi network. The Wi-Fi module transmits the data collected to the Firebase, which is a mobile and web application development platform developed by Firebase, Inc. It offers many services such as analytics, storage, hosting, real-time database, different APIs, multiple authentication types and hosting platform. The Android application shows the temperature of the patient. When the information button is clicked, the temperature along with the time of measurement would be displayed. The developed application receives the required data from the cloud database. The values will be updated periodically. The pictures of the application with the information button aswell asthe display of temperatureare being shown below. Fig -2: The Get Value button Fig -2: Different temperatures and their effects displayed in App 4. FIELD SETUP The Fever Click MAX30205 sensor should be in contact with the patient's skin to make measurements. Since this is the only basic requirement, patients of any age group, whether bedridden or not, at any time of the day, can measure their body temperature. Then, the microcontroller is used tosend the value to the cloud database which sends the same to the user's interface. The photos of Fever Click along with MAX 30205, as well as the sensor with mikromedia PIC32 smart display are shown below. Fig -2: Fever Click
- 3. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 03 | Mar-2018 www.irjet.net p-ISSN: 2395-0072 © 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 3915 5. RESULT The temperature of a patient's body can be measured with just contact of the skin with the sensor. The above experiment has been implemented on 5 patients of different age groups with body temperatures and has been validated with accurate results. This method providesan efficient and better way to communicate to a doctor, especially for patients who are bedridden or require frequent medical check-ups. 6. CONCLUSION We have successfully developed a system that would monitor the temperature of the patient and continuously send the temperature values to the doctor. In this way, any abnormalities in the body's thermoregulation mechanism are found and hence several disorders can be prevented. ACKNOWLEDGEMENT We would like to thank our mentor and guide for being a pillar of support in helping us throughout our research. We also would like to thank our fellow colleagues who patiently went through previous versions of the manuscript and correcting errors. Finally, we show our immense gratitude to the almighty for enabling us to complete this research. REFERENCES [1] "Wireless Network for Health Monitoring Heart Rate and Temperature Sensor"; L. Tang and H. Kiourmars [2] Y. WongsawatJ. Arnil Y. andPunsawad;"Wireless Sensor Network based Smart System for Healthcare Monitoring"; International Conference on Robotics and Biomimetics 2011. [3] F.H. Yahaya and Y. M. Yusoff H.Z. Abidin R.A. Rahman; "Development of a PIC-based wireless Sensor node utilizing XBEE Technology"; IEEE International Conference on Information Management and Engineering 2010. [4] J. Damodhar and P. A. Reddy;"A real time monitoring system for Physiological Signals using Wireless Sensor Network". [5] Carlo Alberto Boano Matteo Lasagni Kay Romer Tanja Lange. "Accurate Temperature Measurements for Medical Research using Body Sensor Networks". [6] SO RoopeshAppaji and M Abhishek H N Suma. "Prognostic Health Monitoring System"; [7] "A Brief Study on the Facts And Figures of Body Temperature"; S. Sudha A. Mukunthan. [8] Adam Tenforde. "The Effects of Cooling Core Body Temperature on Overall Strength Gains and PostExercise Recovery".