the importance behind this work is the development of intelligent, accurate diagnosis of heart rate using blood pressure. BP is the parameter which does not abide by a single range, but it depends upon the factors like age, family history. By using blood pressure system, heart rate of a person is measured. At the present situation the mortality rate has been increased due to rise in blood pressure and heart malfunctions. A Biosensor is used in forth to detect the range of heart rate. Intelligent system used here is fuzzy system which takes age, gender, BMI for the verification. Lab view is other end of the project which is used to connect the hardware to show the progress of measurement. Parameters such as Smoke detection, Temperature measurement, unauthorized entry were are included for additional facilities.
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
Home Care Heart Diagnosis and Measurement of Biological Signals Using Intelligent Analyzer
1. IJSRD - International Journal for Scientific Research & Development| Vol. 2, Issue 07, 2014 | ISSN (online): 2321-0613
All rights reserved by www.ijsrd.com 388
Home Care Heart Diagnosis and Measurement of Biological Signals Using
Intelligent Analyzer
Lavanya G.1
Sivasankari2
Dr. D. Dhanasekaran3
1,2
Ph.D Student
1,2,3
Department of Electronics and Communication Engineering
1,2,3
Saveetha University Chennai-602105, India
Abstract— the importance behind this work is the
development of intelligent, accurate diagnosis of heart rate
using blood pressure. BP is the parameter which does not
abide by a single range, but it depends upon the factors like
age, family history. By using blood pressure system, heart
rate of a person is measured. At the present situation the
mortality rate has been increased due to rise in blood
pressure and heart malfunctions. A Biosensor is used in
forth to detect the range of heart rate. Intelligent system used
here is fuzzy system which takes age, gender, BMI for the
verification. Lab view is other end of the project which is
used to connect the hardware to show the progress of
measurement. Parameters such as Smoke detection,
Temperature measurement, unauthorized entry were are
included for additional facilities.
Key words: Heart rate variability, Blood pressure, Biological
Signals.
I. INTRODUCTION
Home care monitoring may have an important role as a
strategy to provide health care for heart regarding problems.
The use of the new improved technology to monitor person
while reducing the cost of health care services. Randomized
controlled studies are required to further evaluate the
potential benefits such as quality of life. The sure of
effective home care monitoring of heart will decrease the
incidence of reemissions, also increases patients quality of
life.
As per the statistics 2.3 million deaths is caused
due to the cardiovascular deaths which will be doubled by
2020. There is possibility of having human errors and all the
time a physician is needed besides the patient in
conventional methods [1]
Heart rate is measured in terms of beat –to-beat
intervals, is not constant varies with time. This property is
known as heart rate variability (HRV) and it has been
investigated in several diseases, including myocardial
infraction (MI). Low HRV is also a known prognostic
market for several cardiovascular diseases. The post-
processing of the data can be used to verify trends or single
events, providing precious elements to the patient
diagnosis[2]. Blood pressure (BP), sometimes referred to as
arterial blood pressure, is the pressure exerted circulating
blood upon the walls of blood vessels, and is one of the
principle vital signs. When used without further
specification, “blood pressure” usually refers to the arterial
pressure of the systemic circulation. During each heartbeat,
blood pressure varies with maximum (SYSTOLIC) and a
minimum (DIASTOLIC)[3].
When a patient is experiencing a medical health
crisis, such as in hemorrhage, stroke, or heart attack, the
heart beat may slow down due to the failure of the heart
muscle to contract or too much blood has been lost. For
instance, after jogging, a person with a heart rate at 120
beats/min (BPM) recovers their normal heart rate at 77 BPM
in less than a minute. Heart rate should also be evaluated by
the steady rhythm and force of beats. The healthier the heart,
the faster the pulse will return to a normal resting state[4].
Modern heart rate monitors usually comprise two
elements: a chest strap transmitter and a wrist receiver or
mobile phone, which is too expensive. So this method
should be portable and cost efficient.[5]This project is aimed
at designing a device which can detect the blood flow of a
person in order to check his/her heart rate functionality. It
can be used to prevent upcoming heart failures, heart
problems regarding malfunctions etc[]. It is very useful in
nature in order to stop future heart problems [6]. Heart rate
is measured by number of heart beats per unit of time.
Typically expressed beats per minute (BPM) [7].
Fig. 1: Block Diagram
II. TECHNOLOGY
This project is aimed at designing a device which can detect
the blood flow of a person in order to check his/her heart
rate functionality. It can be used to prevent upcoming heart
failures, heart problems regarding malfunctions etc.[figure
1]. It is very useful in nature in order to stop future heart
problems. Heart rate is measured by number of heart beats
per unit of time. Typically expressed beats per minute
(BPM).
III. METHODOLOGY
The working of project is divided based on the following
functions. The sensor consists of a super bright red LED and
light detector. The LED needs to be a super bright as the
maximum light must pass spread in finger and detect by
detector. Now, when the heart pumps a pulse of light
through the blood vessel the finger becomes slightly more
opaque and so less light reached the detector.
With each heart pulse the detector single varies.
This variation is converted to electrical pulse. This signal is
amplified and trigged through an amplifier which outputs
+5V logic level signal. The output signal is also indicated by
a LED which blinks on each heartbeat.
The pulse signal is applied to the P1.0 input of U2
that is AT89S52 (Can be any 8051 type) which is monitored
by the program whenever the input goes high. Internally to
U2, there is a counter which counts how many 1 ms
2. Home Care Heart Diagnosis and Measurement of Biological Signals Using Intelligent Analyzer
(IJSRD/Vol. 2/Issue 07/2014/086)
All rights reserved by www.ijsrd.com 389
intervals there are in between two high going heart beat
pulses. This number is then divided by 60,000 and the result
is the pulse rate. For example, if the pulse rate 60 BPM
(Beats per minute) there will be a pulse every second. The
duration of one heart beat will be one seconds or 1000 * 1
ms. Dividing 60,000 by 1000 will give the correct result of
60 which is shown on the display. If there is invalid result
(BPM > 200) it is invalid and waits for next cycle [Figure
2]. The next progress is delivering the output from P0 pin to
pc end. The P0 is the pin in pic microcontroller which is
used to connect the incoming signal from biosensor. The
output from the pic microcontroller is given to MAX232
which is a serial code connected to lab view.
Fig. 2: Simulation Result
The front panel of the lab view software displays
the result. P1 is connected to the smoke detector, P2
connected to the heart sensor and an RMC (Ribbon mode
connector) is used to display alternate result in LCD.
IV. CONCLUSION
The capacitor is carefully soldered in standing position with
equal spacing of the leads. The response can be optimized
by trimming the lead length of C3 for the desired frequency.
The circuit is open sourced and needs more accurate fast
processing units. Data logger duration time should be
minimized for multiple outputs. The circuit can be enhanced
and it can be used as simplified home care. So that the
patient / healthy person can know about his current body
progress and as a result it reduces the risk of future heart
troubles.
REFERENCE
[1] Sunitha.A , N.Senthil Kumar, S.S. Dash,
S.Krishnakumari “Intelligent Analyzer For Home Care
Blood Pressure Measurement” International
Conference on Computer Communication and
Informatics, 2012
[2] Book “Design with Microcontroller” by John Peatman
[3] Book “Practical Microcontroller “ by Dr. Ramani
[4] Lavanya.G, D.Dhanasekaran, Bhuvaneswari. “Health
Monitoring and Predictive Maintenance System Using
Acoustic Emission and Vibration Analysis” IJSR-2014
[5] Lavanya.G, Sneha Susan Abraham, Feb 2014,
“Modeling of maritime vehicles using gold coin
codings technique and GPS”, International Journal of
Engineering Research and Applications, ISSN : 2248-
9622, Vol. 4, Issue 2( Version 6), February 2014,
pp.16-20
[6] D.A. Axinte, P. Andrews, Some considerations on tool
wear and work piece surface quality of holes finished
by reaming or milling in a nickel base superalloy,
Proceedings of the Institution of Mechanical
Engineers, Part B:Journal of Engineering Manufacture
221 (2007) 591–603.
[7] Machining Data Handbook, Machinability Data
Center, Cincinnati, OH, 1980.