Smart phone based robotic control for surveillance applications

IJRET: International Journal of Research in Engineering and Technology eISSN: 2319-1163 | pISSN: 2321-7308
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Volume: 03 Issue: 03 | Mar-2014, Available @ http://www.ijret.org 229
SMART PHONE BASED ROBOTIC CONTROL FOR SURVEILLANCE
APPLICATIONS
M.Selvam1
1
M.E. Embedded Systems, Dept. of ECE, Karpagam University, Coimbatore, Tamilnadu, India-641021
Abstract
The robotics and automation industry which is ruled the sectors from manufacturing to household entertainments. It is widely used
because of its simplicity and ability to modify to meet changes of needs. The project is designed to develop a robotic vehicle using
android application for remote operation attached with wireless camera for monitoring purpose. The robot along with camera can
wirelessly transmit real time video with night vision capabilities. This is kind of robot can be helpful for spying purpose in war fields.
Keywords: Android, Robot, Bluetooth, Robotic control
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1. INTRODUCTION
The advent of new high-speed technology and the growing
computer Capacity provided realistic opportunity for new
robot controls and realization of new methods of control
theory. This technical improvement together with the need for
high performance robots created faster, more accurate and
more intelligent robots using new robots control devices, new
drivers and advanced control algorithms. This project
describes a new economical solution of robot control systems
.In general; the robots are controlled through wired network.
The programming of the robot takes time if there is any
change in the project the reprogramming has to be done. Thus
they are not user friendly and worked along with the user
preferences. To make a robot user-friendly and to get the
multimedia tone in the control of the robot, they are designed
to make user commanded work. The modern technology has
to be implemented to do this. For implementing the modern
technology it should be known by all the users to make use of
it. To reach and to full-fill all these needs we are using android
mobile as a multimedia, user friendly device to control the
robot. This idea is the motivation for this project and the main
theme of the project.
In this modern environment everybody uses smart phones
which are a part of their day-to-day life. They use all their
daily uses like newspaper reading, daily updates, social
networking, and all the apps like home automation control,
vehicle security, human body anatomy, health maintenance,
etc has been designed in the form of applications which can be
easily installed in their hand held smart phones. This project
approached a robotic movement control trough the smart
phones.
Hence a dedicated application is created to control an
embedded robotic hardware. The application controls the
movement of the robot. The embedded hardware is developed
on 8051 microcontroller and to be controlled by a Smartphone
on the basis of Android platform. 8051 controller is to receive
the AT commands from the Smartphone and takes the data
and controls the motors of the robot by the motor driver
L293D. The robot can able to move forward, reverse, left and
right movements. The Smartphone is been interfaced to the
device by using Bluetooth. A Bluetooth device HC-05 module
is going to be added to 8051 microcontroller to receive
commands from smart phone. A wireless camera is mounted
on the robot body for spying purpose even in complete
darkness by using infrared lighting.
2. RELATED WORK
2.1 A Bluetooth-based Architecture for Android
Communication with an Articulated Robot
An Articulated Robotic Arm which is used in Industry was
proposed by Sebastian van Delden and Andrew Whigham. It
can be controlled by an android device in an industrial fixed
setup. It can pick and place, and do some wielding works
which human can‟t do. By using the device control we no
need to reprogram for every time we use the robot for different
works. It can connect various types of other robot too for
controlling them.
In industrial robotic environments there are many different
robots performing a variety of tasks. Each robot is controlled
by its own teach pendant or via a networked socket
application. However, to monitor the status or make minor
changes to the programming of the robot, the user must obtain
access to the pendant or terminal. In an effort to eliminate this
need, this paper introduces an android platform that
communicates with robots over a Bluetooth connection.

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Practical applications: To demonstrate one of the practical
uses of this application, a typical manufacturing floor
environment was simulated. Two Robotic systems were set up
with looping programs. The first simulated a spot welding line
by visiting a starting point just above an apparatus containing
a model vehicle and then quickly visiting six points around the
model. The second simulated a palletizing line where the robot
was programmed to pick and place a cylinder up from a pallet
and place it into another pallet and vice versa. Each system
was equipped with the typical “stop emergency” and “stop
normal” commands that are commonplace in factories.
The stop emergency command breaks the robot immediately
while the stop normal command allowed the robot to finish its
current cycle in the program.
The robots were then connected to the Bluetooth server
application and the Android application was started. This
demonstration showed the case in which a user could switch
between robots running different programs quickly and send
those robot commands. Both commands executed very well on
both simulations. [4]
2.2Development of A Wireless Device Control Based
Mobile Robot Navigation System.
The system is proposed by PheySiaKwek,Zhan Wei Siew,
Chen How Wong,, BihLiiChua, Kenneth Tze Kin Teo. The
general computer with well-designed software Centralized
software can control the moveable mobile robot. The
commands send trough the mobile device they used Wi-Fi as a
transmission protocol. The robot is set on a moveable platform
and can is assisted with an IR reflective terminal to avoid
collision of the robot. The IR signals help the robot to find the
correct path with no obstacles. The mobile controller is a
Tablet.
Tablets are highly functional and flexible platform to pair with
robotic autonomy and navigation control. The advantage of
remotely controlling robots using mobile devices is location
independence. New research is merging towards more
applications for mobile devices with robots. In this paper, the
design and development of a mobile robot system with tablet
is presented in detail. The wireless communication interfaced
between the microcontroller and tablet is described. [3]
2.3 Range based Navigation System for a Mobile
Robot.
Range detector navigation system is proposed by Neil
MacMillan, River Allen, DimitriMarinakis, SueWhitesides.
They have designed the system to detect an obstacle free path
by using the mobile robot. The robot senses the obstacle by
using ultrasonic sensor. The path obstacles are found by the
sensor and are transmitted to the controlling device. It uses
general RF communication. The range of the device is higher
than the other projects but it is old type of communication
technique. The range of the path is identified and are easily
selected the good path. [1]
2.4 Mobile Robot Temperature Monitoring System
Controlled by Android Application via Bluetooth
T. Maria Jenifer, T. S. Vasumathi Priyadharshini, Raja
Lavanya & S. Raj Pandian were proposed a autonomous robot
system which can sense the environment temperature and
transfer the value to a php server via Bluetooth android
application. [5]
3. PROPOSED SYSTEM
In existing systems were used the DTMF based and GSM
based Robotic Control has a reasonable drawbacks such as the
system requires more energy, The controlling unit and robot
unit are must be in Line of Sight, For different mobile phone
the controlling unit must be reprogrammed, so thus the
operation of the system is Mobile phone Dependant. In DTMF
Standard, and the Cable Standards are the main constraints of
the system
To overcome these problems a new system is proposed to
perform the robotic control by a smart phone. Which acts as a
transmitter unit and it is interfaced with robot by Bluetooth
module. AT commands for robotic controlling and turn on and
off of the night vision camera is carried by the android
application Thus a motion video is captured by the camera
will transmitted to a TV unit through RF signal.
Our proposed system is dividing into 2 parts as RF transmitter
and Receiver, the block diagram of these two parts are shown
in fig
Fig1: Transmitter

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Fig 2: Receiver
In the Transmitting end we have RF Encoder capable to cover
100meters distance and unidirectional nature is used which
operates the frequency on 433MHZ. To control the RF
encoder and Transmitter Atmel 89c2051 is used which is
20pin version of 8051 microcontroller.
In Receiver section Atmel 89c51 microcontroller was used to
perform the motor control according to the Bluetooth
commands .Here HC-06 Bluetooth receiver module is used in
slave configuration which interfaced with UART module of
the 8051 microcontroller. The Bluetooth characters and
received by RXD pin of 8051 microcontroller. For Receiving
RF signal the HT 12D RF decoder and Receiver is used. A
Wireless camera was mounted on the Robot chassis to capture
the video up to 50metres distance without loss which can
operate video frequencies, usually somewhere between 50
MHz and 30 GHz, within a certain radius. To control the
Robot L293D motor driver controller is used in this system. It
is used to make the rotation on the DC motor which is used as
the Robot wheel according to the commands such as forward,
backward, left and Right.
4. ANDROID APPLICATION
Android is a very familiar word in the world today. Millions
of devices are running the Google Android OS and millions
are being developed daily. Google has made the Android
development platform open to everyone around the world, so
there are millions of developers. Although some developers
just focus on building the apps or games for the android
devices, there are numerous possibilities as well.
App Inventor for Android is an application originally provided
by Google, and now maintained by the Massachusetts Institute
of Technology (MIT).It allows anyone familiar with computer
programming to create software applications for
the Android operating system (OS). It uses a graphical
interface, very similar to Scratch and the Star Logo TNG user
interface, that allows users to drag-and-drop visual objects to
create an application that can run on the Android system,
which runs on many mobile devices.
The first phase of application design goes through App
Inventor Designer. Designer is accessible through the web
page and all the ingredients for the app are available on the
left side of the window. The ingredients include elements like
a screen for the app, buttons for tapping, text boxes, images,
labels, animations and many more. The right side of the
designer allows users to view the screen and components
added to the screen. Additionally, the properties section of the
window allows users to modify the properties of components.
Fig 3: App Inventor Designer
Fig 4 Apps Inventor Block Editor
In this apps development the App Inventor provides a versatile
opportunity to develop a customized application starts with
establish a Bluetooth connection by searching the available
Bluetooth devices and make pair with them. For Robotic
Movement assign a Character for each operation such as
Forward –„U”, Backward –„D‟, Left –„L‟ and Right –„R‟.
These characters were transmitted to 8051 microcontrollers
UART module via Bluetooth Device HC-06 which can
transmits the character in 9600baud. The App Inventor has a
feature to test the operation using Emulator

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Fig 5: Android Apps Emulator
5. OPERATION OF THE SYSTEM
The project is designed to control a robotic vehicle using an
android application. Bluetooth device is interfaced to the
control unit on the robot for sensing the signals transmitted by
the android application. This data is conveyed to the control
unit which moves the robot as desired. An Atmel 89C51
microcontroller is used in this project as control device.
Remote operation is achieved by any smart-phone/Tablet etc.,
with Android OS, upon a GUI (Graphical User Interface)
based touch screen operation. Transmitting end uses an
android application device remote through which commands
are transmitted. At the receiver end, these commands are used
for controlling the robot in all directions such as forward,
backward and left or right and captures the video and
transmits to TV through RF signal
At the receiving end the movement is achieved by two motors
that are interfaced to the microcontroller. Serial
communication data sent from the android application is
received by a Bluetooth receiver interfaced to the
microcontroller. The program on the microcontroller refers to
the serial data to generate respective output based on the input
data to operate the motors through a motor driver IC. The
motors are interfaced to the control unit through motor driver
IC.
6. CONCLUSIONS
In this project, we achieved control both wireless
communication between the mobile Robot Android GUI
Application. The main task of this project make a surveillance
robot which can be control by emerging android technology .It
gives versatile operation of robot controller which need not
modify the hardware
This system can further be developed by enhancing the
performance and by adding more features. Further
development of this system depends on the application we are
using an area of work. The system can be added features like
gas sensor, thermal image sensing, connecting robotic arms
and can be used in pick and place purposes etc… can be done.
The development of this system has wide area of applications
such as in Military and Law enforcement and Industrial and in
Disaster management and so on.
REFERENCES
[1]. Range-based navigation system for a mobile Robot-Neil
MacMillan, River Allen, DimitriMarinakis, Sue Whitesides,
IEEE 2010
[2]. Smartphone-based Mobile Robot Navigation -Nolan
Hergert, William Keyes, and Chao Wang,spring 2012
[3]. Development Of A Wireless Device Control Based
Mobile Robot Navigation System PheySiaKwek,Zhan Wei
Siew, Chen How Wong,, BihLiiChua, Kenneth Tze Kin
Teo.IEEE 2012
[4]. A Bluetooth-based Architecture for Android
Communication with an Articulated Robot- Sebastian van
Delden and Andrew Whigham, IEEE2013
[5]. Mobile Robot Temperature Monitoring System Controlled
by Android Application via Bluetooth T. Maria Jenifer, T. S.
Vasumathi Priyadharshini, Raja Lavanya & S. Raj
Pandian,IJACTE 2013
BIOGRAPHIE
The Author is a PG scholar in embedded
systems at Karpagam University. He had a
Teaching Experience of 4 years .He has
completed his Master of Science Degree in
Electronics and communication systems at
Bharathiar university in2009 and his M.Phil degree in
Electronics at Bharathiar university in 2012.

Smart phone based robotic control for surveillance applications

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Smart phone based robotic control for surveillance applications