Aim of project is to make use of mobile phone to control robot movement
The movement is controlled by pressing relevant keys on a mobile phone that makes a call to another mobile phone attached to the robot.
2. LEARNING OUTCOMES DURING
TRAINING
What is embedded system and its uses?
Embedded technology is software or
hardware that is hidden embedded in a large
device or system. It typically refers to a fixed
function device, as compared with a PC,
which runs general purpose application.
Embedded technology is nothing new. It all
around us and has been for years.
3. POWER SUPPLY
Some DC power supplies use AC mains electricity as an energy
source.
power supplies will employ a transformer to convert the input
voltage to a higher or lower AC voltage.
A rectifier is used to convert the transformer output voltage to a
varying DC voltage, which in turn is passed through an electronic
filter to convert it to an unregulated DC voltage.
The filter removes most, but not all of the AC voltage variations; the
remaining voltage variations are known as ripple.
4. MICROCONTROLLER AND ITS
INTERFACING
A microcontroller is a small computer on a single integrated circuit
containing a processor core, memory, and
programmable input/output peripherals.
INTERFACING OF MC WITH KEYPAD
6. ROBOTICS AND ITS TYPES
A robot is an automatic mechanical device often resembling a
human or animal. Modern robots are usually an electro-mechanical
machine guided by a computer program or electronic circuitry.
Types-
Mobile robots
Rolling robots
Walking robots
Stationary robots
Autonomous robots
Remote control robots
7. INTRODUCTION
Aim of project is to
make use of mobile
phone to control robot
movement.
The movement is
controlled by pressing
relevant keys on a
mobile phone that
makes a call to another
mobile phone attached
to the robot.
9. DTMF DECODING CIRCUIT
DTMF signaling is used for telephone signaling
over the line of the voice –frequency band to the
call switching center. The version of DTMF used for
telephone tone dialing is known as ‘Touch-Tone’.
DTMF assigns a specific frequency to each key so
that it can easily be identified by the electronic
circuit.
10. The DTMF signal
generated is sum of
two sinusoidal tones.
A decoder takes in
DTMF tone and
converts it in into BCD
code, output the key is
pressed at the
transmitter side.
11.
12. MOTOR DRIVER IC L293D
Microcontroller output
cannot drive the DC
motors so L293D is
used .
It is 16-pin IC.
It can be used to drive
inductive load such as
relays ,solenoids etc.
In this project it is used
for simulation of
bidirectional control of
two DC motors.
13. MICROCONTROLLER
AT89S52 is a 8 bit microcontroller and
belong to Atmel’s 8051 family.
It has 8KB of flash programmable and
erasable read only memory(PEROM)
and 256 bytes of RAM.
It can be programmed or erased to a
maximum of 1000 times.
14. LCD
LCD (Liquid Crystal
Display) screen is an
electronic display module
.
A 16x2 LCD means it can
display 16 characters per
line and there are 2 such
lines.
LCDs are economical;
easily programmable;
have no limitation of
displaying special & even
custom character (unlike
in seven
segments), animations an
d so on that why it is used
15. HOW DOES THE ROBOT WORK??
1. A mobile makes a call to another mobile attached to robot.
2. In the course of call ,if any button is pressed, a tone corresponding
to the button pressed(called DTMF) is heard at the other end of the call,
perceived by robot using the other phone
3. The received tone is processed by 8951 microcontroller using DTMF
decoder IC MT8870
4. The decoder decodes the DTMF tone into equivalent binary digit and
binary digit is sent to microcontroller.
5. The microcontroller is pre programmed to take a decision for any
given input and outputs its decision to motor drivers in order to drive the
motors for forward backward motion or a turn.
6. The robot movement is shown on LCD.
18. The advantages are:
• Wireless control
• Surveillance System.
• Vehicle Navigation with
use of 3G technology.
• Takes in use of the
mobile technology which
is almost available
everywhere.
• This wireless device has
no boundation of range
and can be controlled as
far as network of cell
phone
The disadvantages are:
• Cell phone bill.
• Mobile batteries drain out
early so charging
problem.
• Not flexible with all cell
phones as only a
particular ,cell phone
whose earpiece is
attached can only be
used.
ADVANTAGES AND DISADVANTAGES
19. APPLICATION
Scientific :
Remote control vehicles have various Scientific uses
including hazardous environments, working in the deep
ocean and space exploration.
Search and Rescue :
it can be used in search and rescue in the United States.
Recreation and Hobby :
Small scale remote control vehicles have long been
popular among hobbyists. These remote controlled
vehicles span a wide range in terms of price and
sophistication. These include on-road cars, off-road
trucks, boats, airplanes, and even helicopters.
20. FUTURE SCOPE
1.IR Sensors:
IR sensors can be used to automatically detect & avoid
obstacles if the robot goes beyond line of sight. This avoids
damage to the vehicle if we are maneuvering it from a distant
place.
2.Password Protection:
Project can be modified in order to password protect the robot so
that it can be operated only if correct password is entered. Either
cell phone should be password protected or necessary
modification should be made in the assembly language code.
3.Alarm Phone Dialer:
By replacing DTMF Decoder IC MT8870 by a DTMF Transceiver
IC’ MT8880 , DTMF tones can be generated from the robot. So,
a project called Alarm Phone Dialer! can be built which will
generate necessary alarms for something that is desired to be
monitored (usually by triggering a relay).