biomedical

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POORNIMA COLLEGE OF ENGINEERING A SEMINAR PRESENTATION ON “ BIOMEDICAL TRANSMISSION USING WIRELESS NETWORK” SUBMITTED TO- Ms. Monika surana Mr. Amit kr. Sharma Project Coordinators (sec A) SUBMITTED BY- Deepak Gurjar Jitendra kumar Krishan Sharma Murari lal swami Narendra prajapat

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POORNIMA COLLEGE OF ENGINEERING

A SEMINAR PRESENTATION ON “ BIOMEDICAL TRANSMISSION USING

WIRELESS NETWORK”

SUBMITTED TO-Ms. Monika surana Mr. Amit kr. SharmaProject Coordinators (sec A)

SUBMITTED BY-Deepak GurjarJitendra kumarKrishan SharmaMurari lal swamiNarendra prajapat

CONTENTS1. IDEA OF PROJECT 2. BENFIT OF WIRLESS SYSTEM IN HEALTH

CARE3. INTRODUCTION OF PROJECT4. CIRCUIT DIAGRAM5. WORKING6. COMPONENT LIST7. COMPONENT DESCRIPTON8. APPLICATIONS9. FUTURE SCOPE10.ESTIMATED COST11.DISTRIBUTION OF WORK12. REFERENCE

IDEA OF PROJECT

Many developing countries suffer from an acute shortage of medical professionals, particularly specialists. As per the latest data of 2013, India stands at 67th rank amongst around 133 developing countries with regard to the number of doctors. Since patients are in large number but doctors are very few. So for making ease control many patient can grouped and monitored with our project.

For moving ability of patient.

BENFIT OF WIRLESS SYSTEM IN HEALTH CARE

Unlimited freedom of movement

Increasing the efficiency of treatments at hospitals.

Reduced risk of infection

Enhance mobility and low cost of care delivery

Ease of use

INTRODUCTION OF PROJECT

•There is a critical need for more cost efficient solutions for supervision/monitoring patients during and after surgery, as well as when the patient is at home.

• Advanced sensors combined with wireless communication will give reduced costs, improved monitoring, and better life quality for the patient.

•The main objective of this work and the proposed application is to present a better health service for the patient especially for the critical cases.

.

CIRCUIT DIAGRAM

TRANSMITTER

RECEIVER

.

WORKING

TRANSMITTER PART: Initially all sensors measures patient’s

parameter. Now these parameter are changed into

digital form by ADC. Now these signals are fed to

microcontroller. Signals are transmitted through RF-

transmitter. Also displayed in LCD display.

RECEIVER PART:•In this part RF receiver receive signals and fed to microcontroller.•Decoder decodes the signals.•Decoded signal goes in microcontroller and microcontroller send data into computer.•All parameters of patient are shows on computer screen.•Visual basic software is installed in PC.

COMPONENT LIST S. No. Name Of Component Quantity

1 AT89C52 microcontroller 2

2 RF transmitter 1

3 RF receiver 1

4 Temperature sensor 1

5 IR sensor 1

6 Humidity sensor 1

7 LCD display 1

8 ADC 0808 1

9 HT12D 1

10 ECG module 1

COMPONENT DESCRIPTON

1. AT89C52 MICROCONTROLLER:-

Features:-• Compatible with MCS-51™ Products• 8K Bytes of In-System Reprogrammable Flash

Memory• Fully Static Operation: 0 Hz to 24 MHz• 256 x 8-bit Internal RAM• 32 Programmable I/O Lines• Three 16-bit Timer/Counters• Eight Interrupt Sources• Programmable Serial Channel

• Easy interface to all microprocessors• adjusted voltage reference• 8-channel multiplexer with address logic• 0V to 5V input range with single 5V power supply

2. ADC 0808:-

3. HT12D DECODER:-•Operating voltage: 2.4V~12V•Low power and high noise immunity CMOS technology•Low stand-by current•Capable of decoding 12 bits of information

4. LCD DISPLAY:-

•16 characters and 2 lines.•+5 v single power supply .

•Display colour is grey.•Maximum operating voltage 6.5 v.

APPLICATIONS

FUTURE SCOPE

More parameters of body can be measured.

Connect to the GSM technology.

Specialist available anywhere. The BWSN needs to be further developed in

order to cover security handling, improved signal integration and visualization, achieve extended mobility outside the surgery room, monitoring of several patients/persons at the same time.

ESTIMATED COST

S. No Component’s Name Cost

1 AT89C52 microcontroller 120

2 RF transmitter 800

3 RF receiver 800

4 Temperature sensor 80

5 IR sensor 10

6 Humidity sensor 60

7 LCD display 150

8 ADC 0808 40

9 HT12D 40

10 ECG process 900

11 Others 700

Total 2200

DISTRIBUTION OF WORK

Deepak Gurjar- Idea of project,help in PCB

Designing

Jitendra kumar- PCB layout Designing

Krishan Sharma- Synopsis, PPT, Report

Murari lal swami-Component purchasing&

coding part

Narendra prajapat-Soldering & PCB Process

REFERENCE

IOSR Journal of Engineering e-ISSN: 2250-3021, p-ISSN:

2278-8719 Vol. 2, Issue 12 (Dec. 2012), PP 08-14

Journal of Engineering Research and Studies, E-ISSN0976-

7916, Swati Y.Gaikwad, Prof. Ms. Revati Shriram “Blood

pressure and ECG monitoring system based on internet “

Cummins college of Engg. Pune, Maharshtra, India

International Journal of Emerging Science and Engineering

(IJESE) ISSN: 2319–6378, Volume-01, Issue-09, July 2013

http://www.8051projects.info/proj.asp?ID=56

THANK YOU

QUERRY?