1. KAKATIYA INSTITUTE OF TECHNOLOGY AND SCIENCE,
WARANGAL
DEPARTMENT OF ELECTRONICS AND COMMUNICATION
ENGINEERING
Project Work Registration Seminar
Title of the Project:
Health Monitoring system using IoT
Batch No: 4
Project Guide:
(Ch.Sai) B16EC111
J.Nandini (V.Siri) B16EC117
Assistant Professor, (K.Sai Srihitha) B16EC101
Dept.of ECE. (Y.Ravi Kanth) B16EC089
2. CONTENTS
• Objective/s of the Project
• Introduction
• Block Diagram
• Advantages
• Limitations
• Applications
• Requirements for the Project
• References
• Time Line for the Project Work
3. Objective’s of the Project:
• Enabled Smart Autonomous Hospital Management System .
• To develop health monitoring system i.e. it measures body
temperature and heart rate.
• To design a system to store the patient data over a period of time
using database management.
• To do analysis of collected data of sensors.
4. Introduction:
• The Health Monitoring System (HMS) is a very critical
monitoring systems, it is used for monitoring physiological
signals including Electrocardiograph (ECG), Respiration,
Invasive and Non-Invasive Blood Pressure, Oxygen Saturation in
Human Blood (SpO2), Body Temperature and other Gases etc.
• In HMS, the multiple sensor and electrodes is used for receiving
physiological signals like as ECG Electrodes, SpO2 Finger
Sensor, Blood Pressure Cuff and Temperature Probe to measure
the physiological
5. INTRODUCTION OF HEALTH
MONITORING SYSTEMS….
• During treatment, it is highly important to continuously
monitor the vital physiological signs of the patient. Therefore,
patient monitoring systems has always been occupying a very
important position in the field of medical devices.
• The continuous improvement of technologies not only helps
us transmit the vital physiological signs to the medical
personnel but also simplifies the measurement and as a result
raises the monitoring efficiency of patients
7. Advantages :
• Bridging the gap between the doctor and the patients.
• Best to be used on rural areas.
•
• It is a multipurpose so that overall conditions are easily measured.
• Easy to operate.
• Compare with compact sensor it gives better performance Automatic
Wireless Health Monitoring System in Hospitals for Patients
8. Limitations of the Project:
• The sensors are costly.
• If power supply fails circuit won’t work.
9. Applications of the Project:
• Hospitals it monitoring the Heart Beat and Temperature
continually .
• By using this system the patient can be analysed by
doctors in any part of the hospital .
• Used to transfer the information from the transmitter
side to the receiver side wirelessly.
10. Requirements for the Project:
Hardware Requirement:
•Arduino Uno
•Temperature Sensor
•Pulse Sensor
•Wi-Fi Module
Software Tool:
•Arduino IDE
Programming Language:
•Arduino Uno
11. References:
1. [Ebrahim Al Alkeem1, Dina Shehada1, Chan Yeob Yeun1,M. Jamal
Zemerly ,Jiankun Hu “New secure healthcare system using cloud of things”,
Springer Science+Business Media New York 2017 .
2. Yena Kim, SeungSeob Lee and SuKyoung Lee “Coexistence of ZigBee-based
WBAN and WiFi for Health Telemonitoring Systems” , DOI
10.1109/JBHI.2014.2387867, IEEE Journal of Biomedical and Health Informatics .
3. Mirza Mansoor Baig & Hamid Gholamhosseini “Smart Health Monitoring
Systems: An Overview of Design and Modeling”, Springer Science+Business
Media New York 2013.
4. S. M. Riazul islam, Daehan kwak, MD. Humaun kabir, Mahmud hossain, and
Kyung-sup kwak,” The Internet of Things for Health Care:A Comprehensive
Survey” , DOI 10.1109/TDSC.2015.2406699, IEEE Transactions
12. Time Line for the Project Work:
S.NO. ACTIVITY/MODULE/SUB-MODULE OF THE
PROJECT
DURATION/DATE
STATUS
1 Literature Review & Abstract Preparation May – July’2019 Completed
2 Registration Seminar 22nd
August’2019 -
3 (i) Design of Information Source, Bit Sequence
Generator, I & Q Bit Generator
(ii) Examples with the Tool (Xilinx ISE 14.3i)
August’2019
In-Progress
4 Design and Implementation of Modulator September’2019
5 (i) Experimentation results of Modulator
(ii) Progress Seminar - I
(iii) Submission of Phase-I Project Report
October’2019
6 Major Project Work Phase – I – Viva-Voce November’2019
7 Design of Symbol recovery circuit & Base band
differential circuit
December’2019
8 (i) Design and Implementation of Demodulator
(ii) Progress Seminar – II
January’2020
9 (i) Experimentation results of Demodulator
(ii) Result Analysis, Iterations and Comparisons
February’2020
10 (i) Final Seminar
(ii) Submission of Final Project Report
March’2020
11 Major Project Work Phase – II – Viva-Voce April’2020
