It can assist the making the project on gesture controller using by the Ardiuno

3. Objective Of Project
• Our objective is to make this device simple as well as
cheap so that it could be mass produced and can be used
for a number of purposes

4. MotivationFor Project
• Our motivation to work on this project came from a disabled
person who was driving his wheel chair by hand with quite a
lot of difficulty. So we wanted to make a device which would
help such people drive their chairs without even having the
need to touch the wheels of their chairs.

5. Introduction
• Recently, strong efforts have been carried out to
develop intelligent and natural interfaces
• between users and computer based systems based on
human gestures.
• Gestures provide an
• intuitive interface to both human and computer. Thus,
such gesture
• based interfaces can not only
• substitute the common interface devices, but can also
be exploited to extend their functionality.

6. Robot
• A robot is usually an electro-mechanical machine that can
perform tasks automatically. Some robots require some
degree of guidance, which may be done using a remote
control or with a computer interface. Robots can be
autonomous, semi-autonomous or remotely controlled.
Robots have evolved so much and are capable of mimicking
humans that they seem to have a mind of their own.

7. Human Machine Interaction
• An important aspect of a successful robotic system is the
Human-Machine interaction. In the early years the only way
to communicate with a robot was to program which required
extensive hard work. With the development in science and
robotics, gesture based recognition came into life. Gestures
originate from any bodily motion or state but commonly
originate from the face or hand. Gesture recognition can be
considered as a way for computer to understand human
body language. This has minimized the need for text
interfaces and GUIs (Graphical User Interface).

8. Gesture
• A gesture is an action that has to be seen by someone else
and has to convey some piece of information. Gesture is
usually considered as a movement of part of the body, esp. a
hand or the head, to express an idea or meaning.

9. Material Required
1. For transmitter-
• Arduino Uno
• ADXL335 accelerometer
• 433 MHz RF transmitter
• Breadboard
• Of course you will also need
jumper wires and 9V batteries
• 2. For receiver and
robot-
• Arduino Uno
• 433 MHz RF receiver
• L293D motor driver IC
• Chassis and wheels
• 2 DC motors
• Breadboard
We will divide entire robot into three parts are transmitter, receiver and
the programmable robot

10. CircuitDiagram Of Receiver

11. Circuit Diagram Of Transmitter

12. Working Principle
• Our gesture controlled robot works on the principle of
accelerometer which records hand movements and sends
that data to the comparator which assigns proper voltage
levels to the recorded movements. That information is then
transferred to a encoder which makes it ready for RF
transmission. On the receiving end, the information is
received wirelessly via RF, decoded and then passed onto the
microcontroller which takes various decisions based on the
received information. These decisions are passed to the
motor driver ic which triggers the motors in different
configurations to make the robot move in a specific
direction. With the help block diagram to understand the
working of the robot:

13. Block Diagram
Accelerometer
ADXL335
Comparator
LM324
Encoder
HT12E
RF Transmitter
RF Receiver
Decoder
HT12D
Arduino
Module
Motor Driver
L293D
DC Motors

14. IntroductionTo Arduino
- Based on AVR microcontrollers that are
widely popular for their RISC architecture,
high flash memory, inbuilt different features
- Arduino Uses C and C++ programming(E A S Y)……

15. Introduction To Arduino
Open Source Hardware and Software
Platform
Program can be upload by the USB cable

16. What is Arduino?
A microcontroller board, contains on-board power
supply, USB port to communicate with PC, and an Atmel
microcontroller chip.
It simplify the process of creating any control system by
providing the standard board that can be programmed
and connected to the system without the need to any
sophisticated PCB design and implementation.
It is an open source hardware, any one can get the details
of its design and modify it or make his own one himself.

17. Arduinoboards:
UNO Mega LilyPad
Arduino BT Arduino Nano Arduino Mini

18. ArduinoUNO:
Digital output
~: PWM.
0,1: Serial port.
In circuit Serial
programming
Atmel
Microcontroller
Analog input.
Power Supply
USB port
Power input
Reset Button

19. Hardware
I/O PORTS ========== 14
PWM ========== 6
Analog ========== 6
8 bit =======256
10 bit ======= 1023
ADC

20. Why Arduino?
- Inbuilt ADC, Serial Interface, PWM, IO pins
-Programming so easy……(Can be used
available libraries)
-Open Source platform
-Arduino program is similar to C and C++
programming

21. ArduinoIDE:

22. ArduinoReference:

23. Void setup(){}
Used to indicate the initial values of system on
starting.
Void loop(){}
Contains the statements that will run whenever the
system is powered after setup.
CodeStructure:

24. Program#define FD 16
#define BD 17
#define LD 18
#define RD 19
#define m11 3
#define m12 4
#define m21 5
#define m22 6
void forward()
{
digitalWrite(m11, HIGH);
digitalWrite(m12, LOW);
digitalWrite(m21, HIGH);
digitalWrite(m22, LOW);
}
void backward()
{
digitalWrite(m11, LOW);
digitalWrite(m12, HIGH);
digitalWrite(m21, LOW);
digitalWrite(m22, HIGH);
}
void left()
{
digitalWrite(m11, HIGH);
digitalWrite(m12, LOW);
digitalWrite(m21, LOW);
digitalWrite(m22, LOW);
}
void right()
{
digitalWrite(m11, LOW);
digitalWrite(m12, LOW);
digitalWrite(m21, HIGH);
digitalWrite(m22, LOW);
}
void Stop()
{
digitalWrite(m11, LOW);
digitalWrite(m12, LOW);
digitalWrite(m21, LOW);
digitalWrite(m22, LOW);
}
void setup()
{
pinMode(FD, INPUT);
pinMode(BD, INPUT);
pinMode(LD, INPUT);
pinMode(RD, INPUT);
pinMode(m11, OUTPUT);
pinMode(m12,OUTPUT);
pinMode(m21,OUTPUT);
pinMode(m22,OUTPUT);
}
void loop()
{int temp1=digitalRead(FD);
int temp2=digitalRead(BD);
int temp3=digitalRead(LD);
int temp4=digitalRead(RD);
if(temp1==1 && temp2==0 && temp3==0 && temp4==0)
backward();
else if(temp1==0 && temp2==1 && temp3==0 && temp4==0)
forward();
else if(temp1==0 && temp2==0 && temp3==1 && temp4==0)
left();
else if(temp1==0 && temp2==0 && temp3==0 && temp4==1)
right();
else
Stop();
}

25. Serial Communication

26. Serial Communication
• Compiling turns your
program into binary data
and zeros)
• Uploading sends the bits
through USB cable to the
Arduino
• The two LEDs near the USB
connector blink when data is
transmitted
• RX blinks when the
is receiving data
• TX blinks when the

27. APPLICATIONS
• Through the use of gesture recognition, remote control with the wave
of a hand of various devices is possible.
• Gesture controlling is very helpful for handicapped and physically
disabled people to achieve certain tasks, such as driving a vehicle.
• Gestures can be used to control interactions for entertainment
purposes such as gaming to make the game player's experience more
interactive or immersive.

28. CONCLUSION
We achieved our objective without any hurdles i.e. the control of a
robot using gestures. The robot is showing proper responses whenever
we move our hand. Different Hand gestures to make the robot move in
specific directions are as follow:

29. Fig Move Forward
Fig Move Backward
Fig Move Right
Fig Move Left
The robot only moves when the accelerometer is moved in a
specific direction. The valid movements are as follows:
DIRECTION ACCELEROMETER
ORIENTATION
Forward +y
Backward -y
Right +x
Left -x
Stop Rest

30. Completeassembleof project