Presented by:
SANJAY
KUSHWAHA
POOJA ARORA
ROOPESH SINGH
SUNITA GAUR
• INTRODUCTION
• WHAT IS MISSILE?
• WHAT IS RADAR?
• OBJECTIVE OF THE PROJECT
• HOW OUR MODEL WORKS ?
• BLOCK DIAGRAM
• ARCHITECURE
1. AVR Atmega16
2. Arduino UNO
3. Ultrasonic transducer
4. Gear motors
• APPLICATIONS
• PROBLAMS ENCOUNTERED
• CONCLUSION
•This project is to plan and build programmed target following and destroy
framework.
•The framework is intended to recognize the objective moving in different
directions
• It comprises of a radar based following framework that constantly screens the
objective.
•After distinguishing the objective it sends the objective's location to
Microcontroller .
•Microcontroller makes the move of moving the terminating component toward
target
•After settling the bearing, it sends the control summon to terminating framework
to fixed the objective.
•A flying weapon that has its own
engine so that it can travel a long
distance before exploding at the place
that it has been aimed at .
• Missiles have four system
components: targeting and/or
guidance, flight system, propulsion
system and warhead.
•Radar (radio detecton and
ranging)
•A system for detecting the
presence, direction, distance, and
speed of aircraft, ships, and other
objects, by sending out pulses of
radio waves which are reflected
off the object back to the source.
•It is basically a radio echo.
The main objectives of this project are:
1. Monitoring the moving target.
2. Detects the path, shape, type ,speed of the
moving target.
3. Distinguishes between missile and any other
object(e.g. bird).
4. Sends location to microcontroller.
5. The microcontroller then sends signal to
antimissile which finally destroys it.
MICRO
CONTROLLER DC MOTOR
CRYSTAL
OSCILLATORLED INDICATOR
DC MOTOR
DRIVER
LCD
DRIVER
REGULATED POWER SUPPLY
TARGET
AIMING GUN
INTENSITY
CONTROL
LCD DISPLAY
SONAR
SENSOR FOR
MIISILLE
DETECTION
RESET BUTTON
Radar
Anti missile system
Targe t tracking
Intercept
Base Station
microcontroller
The architecture of proposed system is
consists of:
8-bit microcontrollers AVR atmega16
ATmega16 is an 8-bit high performance
microcontroller of Atmel’s Mega AVR family
with low power consumption with 16KB
programmable flash memory.
ATmega16 is 40 pin microcontroller with Non-
Volatile Program and Data Memories
It has 16k Bytes of In-System Self-
Programmable Flash
1.Pin diagram of AVR
Arduino UNO
Arduino is open- source hardware consist of
atmega16 microcontroller .
The boards are equipped with sets of digital and
analog input/output (I/O) pins .
A program for Arduino may be written in
any programming language for a compiler that
produces binary machine code for the target
processor.
The Arduino project provides the
Arduino integrated development environment(IDE).2.Arduino UNO
Ultrasonic trasnducer
Ultrasonic transducers are used in systems which
evaluate targets by interpreting the reflected signals.
Ultrasound is used for measuring speed and direction.
Systems typically use a transducer which generates
sound waves in the ultrasonic range, above 40 kHz, by
turning electrical energy into sound, then upon receiving
the echo turn the sound waves into electrical energy
which can be measured and displayed.
4.Ultrasonic transducer
Gear motors
A Gear motor is a brushless AC
synchronous electric motor that can divide a
full revolution into an expansive number of
steps.
It is a “digital” version of the electric
motor.
The rotor moves in discrete steps as
commanded, rather than rotating continuously
like a conventional motor.
3. Gear motor
This can be applied in various defense fields to protect country
from foreign assaults. All the equipments in now days utilized
as a part of military is progress by the help of electronics.
This framework can be utilized in millitary, navy, air force by
increasing the frequency range
(since we have presented the basic model).
This can be used to increase the security of flight attack by any
missile.
If there should arise an occurrence of worldwide military clash
the role of antimissile defense becomes very important.
Limited frequency range i.e. 40 kHz.
Anti-missile defense with a hundred percent
reliability was not come to by any nation, huge efforts
are put into this area.
Using ultrasonic waves we can detect the missile then micro
controller activate the destroyer toward the path toward target.
This can be applied in various defense fields to protect country
from foreign assaults. All the equipments in now days utilized as a part
of military is progress by the help of electronics.
If there should arise an occurrence of worldwide military clash the
role of antimissile defense becomes very important. Although anti-
missile defense with a hundred percent reliability was not come to by
any nation, huge efforts are put into this area.
For this purpose early attack detection systems, controllable rockets,
high power lasers are used.
1. "Ultrasonic Testing". testexndt.co.uk. 2016-08-04. Retrieved 2016-08-04.
2. Ultrasonic READER MANUAL www.engineersgarage.com
3. Microcontrollers
www.futureelectronics.com/en/Microcontrollers/microcontrollers.aspx
4. www.globalspec.com › ... › MOTION AND CONTROLS › MOTORS
5. www.arduino.org/products/boards/arduino-uno
6. "MILDS AN/AAR-60 Missile Warning System."
7. Wang Shaokun, Xiao Xiao, Zhao Hongwei The Wireless Remote Control
Car System Based On ARM9, College of Software, Department of
Computer Science and Technology, Jilin University, JLU, Changchun,
China, 2011 International Conference on Instrumentation, Measurement,
Computer, Communication and Control
8. www.roboticsforum.com
9. www.engineergarrage.com
10.Missile launch detector
www.lockheedmartin.com/us/products/MissileLaunchDete
ctor.html
11.Skolnik, Merrill. "Oral-History" (audio transcript). IEEE
Global History Network. Retrieved March 10, 2014.