Student 1: Joshpin Bala.Balraj 10881A0414 Supervisor:

Mr.S.Srinivas

Student 2: Sangeetha .B 10881A0443 Batch No:10-20

Student 3: Vamsi Krishna Bavirisetti 10881A0458

Student 4: Kavitha.Chowan 11885A0409

One of the fundamental challenges in military operations lays in

that the Soldier not able to communicate with control room

administrator.

Current problem faced by the military are as follows:

Soldier wants to know about location he can’t do that.

They will not get help during panic situation.

The above problem is solved as follow:

By using GPS, we able to give proper location about location in

critical condition.

We are going help the soldier in panic condition as, control room

people we are able to communicate with them by means of GSM.

Thus we are able to help them in panic Condition.

In today’s world enemy warfare is an important factor in any

nation’s security.

The important and vital role is played by the army soldier’s.

There are many concerns regarding the safety of these

soldiers.

In our project we have come up with an idea of tracking the

soldier as well as to give the health status of the soldier during

the war, which enables the army personnel to plan the war

strategies.

By using the location sent by the GPS modem, the base

station can understand the position of soldier.

L

P

C

2

1

0

3

Temp

Sensor

Pulse rate

Sensor

(or)

Pulse oximetry

GPS

Display

GSM

SOLDIER UNIT BASE UNIT

Buzzer

The LPC2101/02/03 microcontrollers are based on a 16-bit/32-

bit ARM7TDMI-S CPU with real-time emulation that combines the

microcontroller with 8 kB, 16 kB, or 32 kB of embedded high

speed flash memory

• 16-bit/32-bit ARM7TDMI-S microcontroller in a tiny LQFP48

package.

• 2 kB/4 kB/8 kB of on-chip static RAM and 8 kB/16 kB/32 kB of

on-chip flash program memory. 128-bit wide

interface/accelerator enables high-speed 70 MHz operation.

• In-System/In-Application Programming (ISP/IAP) via on-chip

boot loader software. Single flash sector or full chip erase in

100 ms and programming of 256 bytes in 1 ms.

•LM35 is a precision IC temperature sensor with its output

proportional to the temperature (in oC).

•The sensor circuitry is sealed and therefore it is not subjected

to oxidation and other processes.

•Pulse oximetry is a non-invasive method for monitoring a

patient's O2 saturation.In its most common (transmissive)

application mode, a sensor is placed on a thin part of the patient's

body, usually a fingertip or earlobe, or in the case of an infant,

across a foot. Light of two wavelengths is passed through the

patient to a photodetector.

•The changing absorbance at each of the wavelengths is

measured, allowing determination of the absorbances due to the

pulsing arterial blood alone, excluding venous blood, skin, bone,

muscle, fat, and (in most cases) nail polish.

•The MAX232 is an IC, first created in 1987 by Maxim Integrated

Products, that converts signals from an RS-232 serial port to

signals suitable for use in TTL compatible digital logic circuits.

•The MAX232 is a dual driver/receiver and typically converts the

RX, TX, CTS and RTS signals.The drivers provide RS-232 voltage

level outputs (approx. ± 7.5 V) from a single + 5 V supply via on-

chip charge pumps and external capacitors.

•GSM Modem The words, “Mobile Station” (MS) or “Mobile

Equipment” (ME) are used for mobile terminals Supporting GSM

services.

A call from a GSM mobile station to the PSTN is called a “mobile

originated call” (MOC) or “Outgoing call”, and a call from a fixed

network to a GSM mobile station is called a “ mobile Terminated

call”

GPS (GLOBAL POSITIONING SYSTEM) The Global

Positioning System (GPS) is a U.S. space-based radio

navigation system that provides reliable positioning,

navigation, and timing services to civilian users on a

continuous worldwide basis -- freely available to all. For

anyone with a GPS receiver, the system will provide location

and time.

GPS provides accurate location and time information for an

unlimited number of people in all weather, day and night,

anywhere in the world.

INITALISE GSM ,GPS , ,ARM 7

MONITOR HEART BEAT AND BODY TEMP AND GPS

IF H.BEAT<60 CONDITION)

CHECKS GPS VALUES CONTINOUSLY

IF MISSED CALL=1

SENDS GPS VALUES TO CONSULT PERSON THROUGH GSM,DISPLAYS ON LCD AND ENGINE WILL STOP

STOP

no

yes

no

yes

START

•ARM7 Micro Controller kit

•GSM modem

•GPS receiver

•Biomedical Sensors

oPulse rate sensor

oTemperature sensor

No need to go on field.

Higher relibilty.

Cost effective.

Fast and efficient

There are a number of ways in which the soldier can

communicate with the base station.eg- Bluetooth, Zigbee

modules etc.

Week 1 Survey

Week 2 Choosing the best parts

Week 3 Designing of circuit

Week 4 Hardware

Week 5 Software

Week 6 Testing

•We can dial an emergency call if the

soldier health parameters crosses

threshold value or soldier co-ordinates

goes out of a certain / pre-decided track.

T. Lezniak, R. Lewis, and R. McMillen, “A dead reckoning/map

correlation system for automatic vehicle tracking,” IEEE Trans.

Veh. Technol., vol. VT-26, no. 1, pp. 47–60, Feb. 1977

Abid khan, Ravi Mishra, “GPS – GSM Based Tracking

System”, International Journal of Engineering Trends and

Technology Volume3 Issue2- 2012.