Periodically monitoring of heart beat rate through the sensors and using mobile technology to calculate the risk level. If beat rate crosses certain risk values, then peers related to the user should be intimated about the user health.
Intze Overhead Water Tank Design by Working Stress - IS Method.pdf
heart rate monitoring using mobile technology
1. SIDDAGANGA INSTITUTE OF TECHNOLOGY
TUMKUR-03
Guided by:
Dr. H. S. Jayanna
Prof & Head.
Dept. of ISE
Project Members:
Amit Jain :1SI11IS005
Kumar Shivam :1SI11IS025
Manish Singh :1SI11IS026
HEART RATE MONITORING USING
MOBILE TECHNOLOGY
2. Objective
Intoduction
Problem statement
Literature Survey
Existing System
Proposed System
Advantages
Architecture Design
Snapshot
Implementation
Future Work
Conclusion
References
3. Problem Statement
Periodically monitoring of heart beat rate through the sensors and using mobile technology to
calculate the risk level. If beat rate crosses certain risk values, then peers related to the user
should be intimated about the user health.
4. Introduction
A person having the heart disease needs constant monitoring of heart rate in order to
provide emergency treatment.
The idea is to come up with a technique which is uses a wireless sensor node to
measure the heart rate variability in real time with bluetooth enabled peer
alerting service.
Efficient and capable heart monitoring sensors senses the heart beats and sends to
gateway using bluetooth, calculation and process performed by embedded
microcontroller.
Android based smart phone device acting as a mobiles gateway running the application
and on risk calculation, alert to the respective peers.
6. MyPHR Machines: Lifelong Personal Health
Records in the Cloud
[International Symposium on Digital Object
Identifier: 10.1109/CBMS.2012.6266378; Van Gorp, P ; Comuzzi, M. ]
Personal Health Records (PHRs) should remain the lifelong property of patients and should be
presented conveniently and securely.
PHRs focus on standard data exchange formats and transformations to move data across health
information systems.
After uploading their medical data to MyPHRMachines,the patients, doctors and hospitals can
access them.
Using a web browser one can access the pre-loaded fragments of the lifelong PHR.
7. Improvement of Health Monitoring System
Using Wireless Technologies
[ITERNATIONAL JOURNAL FOR RESEARCH IN
APPLIED SCIENCE AND ENGINEERING TECHNOLOGY-May 2014;
Anand giri, Aparna dubey, Dr. A.k.Thakur:Performance ]
A biosensor based heart beat monitoring system integrated with GSM modem is a system which is
small, low cost, portable can send alert message without delay & that can be used by any other non-
professional.
Wireless health monitoring is defined as “a set of computer-based tools that allow people to access
and coordinate their lifelong health information and make appropriate parts of it available to those who
need it”
8. Wireless Sensor Node with GPS-enabled Peer
Alerting Service for Real Time Monitoring of Heart
Rate Variability
[International Journal of Conceptions on Computing and
Information Technology Vol. 2, Issue. 4, June’2014; ISSN: 2345 – 9808;
H B A C Pradeep, M D R Perera and R G N Meegama]
A low cost portable design to record heart rate that can be implemented with off-the-
shelf components is described in having a recorder, a graphical display and a keyboard.
The main aim of the proposed research is to implement a novel mechanism to monitor
the variability of heart beats of a person in real time together with exact location using
GPS coordinates.
Using a alerting device as cellphones one can alert other peers.
10. Personal Health Record System (PHR System)
External
Hardware
source
Cloud Server
Online
Portal
recording
Patient
Hospital
Doctor
11. Drawback of Existing System
Not portable
Cost Issue
Does not provide constant monitoring
No automated calculation of risk level
User/Patient records needs to be revised regulary by doctors
Day to day data like temperature, heartbeat which may require periodic analysis is not updated
on a regular basis to the doctor
17. Hardware Design
Heartbeat sensor
MC 8051 LLDR
Microcontroller 8051
LCD 16X2
Bluetooth
Transmitter
Bluetooth
receiver
User 1 User 2 User 3
Android
Mobile
App.
Peer alerting
18. Circuit Diagram
_
+
P1 P2
P3 P4
8051
GSM / bluetooth
L
C
D
Oscillator
+Vs
-Vs
Digital
signal
Op-AmpIR
Analog
signal
5v
Chip Board
Power
Sensor
20. Implementation
Principle: Photoplethysmography (PPG)
Both infrared light emitter diode and the receiver are placed side by side.
The light source is emitted and absorbed into the finger tissue and the reflected light is measured by
the detector.
Using microcontroller the analog heart rate signal is converted into digital signal and displayed on
the LCD screen.
Parallely we will send the same signal to the wireless device.
Mobile technology is used to notify peers based on the calculation of risk values .
21. Future Work
Integration of wireless transmitting components to the circuit
Working of microcontroller
Designing an android application
Defining database for set of peer numbers
24. Refrences
1. MyPHRMachines: Lifelong Personal Health Records in the Cloud International Symposium on Digital
Object Identifier: 10.1109/CBMS.2012.6266378; Van Gorp, P ; Comuzzi, M.
2. A Bluetooth Enabled Personal Health Monitoring System Using Android Device International Journal of
Engineering Development and Research Vol 2, Issue 2 ISSN: 2321-9939 ;i.Dhaval Bhatt, ii.Tarulata
Chauhan
3. Wireless Sensor Node with GPS-enabled Peer Alerting Service for Real Time Monitoring of Heart Rate
Variability International Journal of Conceptions on Computing and Information Technology Vol. 2, Issue.
4, June’2014; ISSN: 2345 – 9808; H B A C Pradeep, M D R Perera and R G N Meegama
4. Novel Cloud and SOA-Based Framework for E-Health Monitoring Using Wireless Biosensors IEEE
Journal of Biomedical and Health Informatics, Vol. 18, No. 1, January 2014; Abdelghani Benharref and
Mohamed Adel Serhani