IRJET- Amphibian Spy Robot for Continuous Monitoring

IRJET Journal
IRJET JournalFast Track Publications

https://www.irjet.net/archives/V5/i4/IRJET-V5I482.pdf

International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 05 Issue: 04 | Apr-2018 www.irjet.net p-ISSN: 2395-0072
© 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 397
Amphibian Spy Robot for Continuous Monitoring
Kashid Sachin S.1, Chavan Varsha H.2, Jadhav Akshay R.3, Prof. Gurav R. k.4
1,2,3 Student of ENTC, AGTI’S DACOE, Banawadi, Karad, Maharashtra, India
4 Professor of ENTC, AGTI’S DACOE, Banawadi, Karad, Maharashtra, India
-------------------------------------------------------------------***-----------------------------------------------------------------------
Abstract– An Amphibian Robot represent an amphibious
robot which is viable on land as well as on water. They are
made to small and compact enough to easily transport.
Amphibian Spy Robot are remotely controlled robots,
equipped with a camera, transmitting video data to the
intervention troop. The project suppose a movable robot with
a remote controller by using ARM processor. The robot
equipped with a camera, remote controller, antenna,
batteries, four movable wheels and two propellers. Charge
Couple Device (CCD) camera is used to capture information
surrounding the robot. Remote operated Amphibian Robot is a
small robot designed for spying, surveillance and inspection
purpose. For transmitting and receiving wireless signals to
control the motors of robot control system we used Radio
Frequency modules in wireless remote control system
Key Words– ARM, BLDC motor, Camera, Propeller, LPC
1768
1. INTRODUCTION-
Through RF signal Spy robot can capture audio and
video information from the surrounding and can be sending
to a remote station. The control of robot involves three
distinct phases: perception, processing and action. This
robot is not quite huge one and designed to be easy
transportation processor, and the task is performed using
motors. When the user controls by remote controller, the
spy robot will move to desired destination and spy image
around the robot in this project. The preceptors are sensors
mounted on the robot. It’s processing is done by the
processor or on-board microcontroller. This task is
performed by motors. When the user controls by remote
controller, the spy robot will move to desired destination
and spy image around the robot in this project. In practice, it
is usually an electro-mechanical machine. It is guided by
computer or laptop, mobile or electronic programming. It is
able to do tasks on its own. Wireless controlled robots use
RF circuits which have drawbacks of limited control.
2. PROPOSED SYSTEM:
The operation system is the spy robot with wireless remote
control. The CCD camera can modify range more than 100ft.
The wireless camera can be able to upgrade with the 360
degree left and right directions by using PIC program so that
the functionality is having a movement at many sides.
Moreover, this camera can upgrade to move up and down
directions. Instead of DC motors which driver the CCD
camera, stepper motor can also be used. The spy robot can
be commanded directly by remote controller. For the
advance of spy robot, it can be built a robot with wireless
visual system that the user can observe and control the
situation via computer or mobile.
Block Diagram:
ROBOTE MODULE:-
Fig. 1. Block Diagram of Proposed System
CONTROL MODULE :-
Fig. 2 Block Diagram of Proposed System
Block Diagram Description:-
 Trans-Receiver
o Charge-Coupled Device camera fixed on roof of
robot. CCD camera captures continuous video and
sends it using transmitting antenna to the receiver.
Video Camera Video Transmitter
ARM
Processor
BLDC Motor
BLDC Motor
Remote
Controlled
Receiver
Wheels
Propeller
REMOTE CONTROLLER
Video Receiver
Cable/USB
Television
Set/Computer
Monitor
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 05 Issue: 04 | Apr-2018 www.irjet.net p-ISSN: 2395-0072
© 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 398
o Receiver processes on received signal and displays
it on computer or television set.
 Remote Controller
o Robot is controlled by remote in forward, reverse,
right and left directions.
 ARM Processor
o ARM processor is the heart of entire system.
o All controlling, processing and capturing processes
are handled by ARM processor.
o Proper Selection of ARM processors enables more
efficient processing and easier coding.
 Brushless DC Motors
o Total six motors are used.
o Out of these four motors are used for driving motor
on land and remaining two are used for floating
purpose.
 Propeller
Fig.3 Propeller
o A propeller is a type of fan that transmits power by
converting rotational motion into thrust. A pressure
difference is produced between the forward and
rear surfaces of the airfoil-shaped blade, and a fluid
(such as air or water) is accelerated behind the
blade.
Working :-
Step 1 : START
Step 2: Make Connection between receiver module and
displaying device.
Step 3: Connect the power supply and turn it ON.
Step 4 : Configure transmitter module and receiver module.
Step 5 : Control and direct the robot using remote
controller.
Step 6 : Run robot on land or in water.
Step 7 : Give the direction to the robot.
Step 8 : For Right direction turn off right motor and for left
direction turn off left motor.
Step 9 : Start the propeller when robot is in water then,
otherwise turn off propeller.
Step 10 : Capture video signal throw the camera.
Step 11 : Send captured video to receiver.
Step 12 : Display the captured video signal on monitor and
store in video format.
Step 13 : Go to step 5.
3. HARDWARE REQUIREMENTS-
A) Selection of Controller:-
Requirement of the system:-
 I/O Ports
 Inbuilt Timer
 Serial Port
 less power consumption
1)ARM 7 LPC 2138:-
Features:-
 2 channel ADC
 2 PORTS P0, P1.
 512KB program memory
 32Kb stack memory
 4-pin High-Performance ARM
Microcontroller
 ADC 10 BIT
 Cost is 600
2) Raspberry Pi 2 model:-
Features:-
 Broadcom BCM2836 SOC
 Quad-core ARM Cortex-A7
 CPU Operates on 900 MHz
 IGB Memory
 Operates on 5V supply
 Audio connector, Ethernet connector
3) LPC 1768:-
Features:-
 ARM Cortex M3 Processor Running
at 100 MHz frequency
 12 Bit ADC
 4 Ports P0,P1,P2,P3
 512 KB ROM
 64Kb static RAM
 70 GPIO Pins
 8 Channel
 Cost is 1100 Rs.
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056
Volume: 05 Issue: 04 | Apr-2018 www.irjet.net p-ISSN: 2395-0072
© 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 399
B) Selection Result:-
This controller LPC2138 used in our project because it’s
PORT, ADC channel, serial port, operating frequency is
greater than other controller and its cost is less than
LPC1768 and raspberry pi.
4. APPLICATIONS& FUTURE SCOPE-
In surveillance system for continuous monitoring.
In military, police and in personal security. In spying and in
security based applications uses this type of robot, or useful
at hostage situation, search and rescue. Instead of DC motors
which driver the CCD camera, Stepper motor can also be
used. For the advance of spy robot, it can be built a robot
with wireless visual system that the user can observe and
control the situation via computer.
5. CONCLUSION-
This type of robot can perform difficult and repetitive
works for humans. It can have a very risky job and such
dangerous job could be done by using small spy robot. But it
is very useful to check and look out the place where
dangerous poison gases have. Spy robot can also be used in
searching people who are in building destroyed by the
earthquake. Wireless camera is place in spy robots, it can be
used as remote to enter and exit dangerous place that
human cannot. To collect information from the enemy
terrain it is used and monitor that information at a far
secure area at the time of war. It also safely devise a plan for
counter attack. Making a surveillance of any disaster
affected area where human beings can’t go.
6. REFERENCES-
[1] Dhiraj Singh Patel, Dheeraj Mishra, Devendra
Pandey, Ankit Sumele and Asst. Prof. Ishwar Rathod,
Mobile Operated Spy Robot, International Journal of
Emerging Technology and Advanced Engineering,
ISSN 2250-2459
[2] Akkshat Goel and Ibrahim Faruqi, Amphibian Bot,
Indian Institute of Technology, Kanpur, May 2013
[3] Embedded System –Architecture, Programming and
Design, 2nd edition by Raj Kamal
[4] Motor driver ic- datasheet available
http://www.engineersgarage.com/electronic-
components/l293dmotor-driver-ic
[5] Propeller Design Tutorial available
[6] https://grabcad.com/library/tag/propeller
[7] www.circuitstoday.com “Mobile Operates Spy
Robot”
[8] www.retron.com “Wireless Spy Camera Robots”

Recommandé

WIRELESS ROBOTWIRELESS ROBOT
WIRELESS ROBOTAIRTEL
3.5K vues72 diapositives
Human Detection RobotHuman Detection Robot
Human Detection RobotSamiul Bapon
2.3K vues11 diapositives
Obstacle observingObstacle observing
Obstacle observingLokendra Singh
165 vues30 diapositives

Contenu connexe

Tendances(18)

A046030106A046030106
A046030106
IJERA Editor544 vues
Controlling Robotic Vehicle With IR RemoteControlling Robotic Vehicle With IR Remote
Controlling Robotic Vehicle With IR Remote
Edgefxkits & Solutions1.8K vues
Android controlled robotAndroid controlled robot
Android controlled robot
Ben Johnke17.6K vues
ROBOTIC ARMROBOTIC ARM
ROBOTIC ARM
lavanya kaluri8.3K vues
FIANL REPORTFIANL REPORT
FIANL REPORT
Rajim Ali Miya3.1K vues
Robotic HandRobotic Hand
Robotic Hand
Mansoor Ghani5.4K vues
PptPpt
Ppt
Rishab Kumar817 vues
Unmanned Ground VehicleUnmanned Ground Vehicle
Unmanned Ground Vehicle
Shashank Srivastava1.6K vues
MILITARY ROBOT BASED ON IOTMILITARY ROBOT BASED ON IOT
MILITARY ROBOT BASED ON IOT
Meer EJAS hussain638 vues

Plus de IRJET Journal(20)

Dernier

Wire RopeWire Rope
Wire RopeIwiss Tools Co.,Ltd
8 vues5 diapositives
SEMI CONDUCTORSSEMI CONDUCTORS
SEMI CONDUCTORSpavaniaalla2005
15 vues8 diapositives
What is Unit TestingWhat is Unit Testing
What is Unit TestingSadaaki Emura
17 vues25 diapositives

Dernier(20)

Wire RopeWire Rope
Wire Rope
Iwiss Tools Co.,Ltd8 vues
SEMI CONDUCTORSSEMI CONDUCTORS
SEMI CONDUCTORS
pavaniaalla200515 vues
Wire Cutting & StrippingWire Cutting & Stripping
Wire Cutting & Stripping
Iwiss Tools Co.,Ltd6 vues
What is Unit TestingWhat is Unit Testing
What is Unit Testing
Sadaaki Emura17 vues
PlumbingPlumbing
Plumbing
Iwiss Tools Co.,Ltd9 vues
Paper 3.pdfPaper 3.pdf
Paper 3.pdf
Javad Kadkhodapour6 vues
Solar PVSolar PV
Solar PV
Iwiss Tools Co.,Ltd10 vues
Saikat Chakraborty Java Oracle Certificate.pdfSaikat Chakraborty Java Oracle Certificate.pdf
Saikat Chakraborty Java Oracle Certificate.pdf
SaikatChakraborty7871489 vues
Object Oriented Programming with JAVAObject Oriented Programming with JAVA
Object Oriented Programming with JAVA
Demian Antony D'Mello49 vues
Deutsch CrimpingDeutsch Crimping
Deutsch Crimping
Iwiss Tools Co.,Ltd13 vues
Pointers.pptxPointers.pptx
Pointers.pptx
Ananthi Palanisamy58 vues

IRJET- Amphibian Spy Robot for Continuous Monitoring

  • 1. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 04 | Apr-2018 www.irjet.net p-ISSN: 2395-0072 © 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 397 Amphibian Spy Robot for Continuous Monitoring Kashid Sachin S.1, Chavan Varsha H.2, Jadhav Akshay R.3, Prof. Gurav R. k.4 1,2,3 Student of ENTC, AGTI’S DACOE, Banawadi, Karad, Maharashtra, India 4 Professor of ENTC, AGTI’S DACOE, Banawadi, Karad, Maharashtra, India -------------------------------------------------------------------***----------------------------------------------------------------------- Abstract– An Amphibian Robot represent an amphibious robot which is viable on land as well as on water. They are made to small and compact enough to easily transport. Amphibian Spy Robot are remotely controlled robots, equipped with a camera, transmitting video data to the intervention troop. The project suppose a movable robot with a remote controller by using ARM processor. The robot equipped with a camera, remote controller, antenna, batteries, four movable wheels and two propellers. Charge Couple Device (CCD) camera is used to capture information surrounding the robot. Remote operated Amphibian Robot is a small robot designed for spying, surveillance and inspection purpose. For transmitting and receiving wireless signals to control the motors of robot control system we used Radio Frequency modules in wireless remote control system Key Words– ARM, BLDC motor, Camera, Propeller, LPC 1768 1. INTRODUCTION- Through RF signal Spy robot can capture audio and video information from the surrounding and can be sending to a remote station. The control of robot involves three distinct phases: perception, processing and action. This robot is not quite huge one and designed to be easy transportation processor, and the task is performed using motors. When the user controls by remote controller, the spy robot will move to desired destination and spy image around the robot in this project. The preceptors are sensors mounted on the robot. It’s processing is done by the processor or on-board microcontroller. This task is performed by motors. When the user controls by remote controller, the spy robot will move to desired destination and spy image around the robot in this project. In practice, it is usually an electro-mechanical machine. It is guided by computer or laptop, mobile or electronic programming. It is able to do tasks on its own. Wireless controlled robots use RF circuits which have drawbacks of limited control. 2. PROPOSED SYSTEM: The operation system is the spy robot with wireless remote control. The CCD camera can modify range more than 100ft. The wireless camera can be able to upgrade with the 360 degree left and right directions by using PIC program so that the functionality is having a movement at many sides. Moreover, this camera can upgrade to move up and down directions. Instead of DC motors which driver the CCD camera, stepper motor can also be used. The spy robot can be commanded directly by remote controller. For the advance of spy robot, it can be built a robot with wireless visual system that the user can observe and control the situation via computer or mobile. Block Diagram: ROBOTE MODULE:- Fig. 1. Block Diagram of Proposed System CONTROL MODULE :- Fig. 2 Block Diagram of Proposed System Block Diagram Description:-  Trans-Receiver o Charge-Coupled Device camera fixed on roof of robot. CCD camera captures continuous video and sends it using transmitting antenna to the receiver. Video Camera Video Transmitter ARM Processor BLDC Motor BLDC Motor Remote Controlled Receiver Wheels Propeller REMOTE CONTROLLER Video Receiver Cable/USB Television Set/Computer Monitor
  • 2. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 04 | Apr-2018 www.irjet.net p-ISSN: 2395-0072 © 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 398 o Receiver processes on received signal and displays it on computer or television set.  Remote Controller o Robot is controlled by remote in forward, reverse, right and left directions.  ARM Processor o ARM processor is the heart of entire system. o All controlling, processing and capturing processes are handled by ARM processor. o Proper Selection of ARM processors enables more efficient processing and easier coding.  Brushless DC Motors o Total six motors are used. o Out of these four motors are used for driving motor on land and remaining two are used for floating purpose.  Propeller Fig.3 Propeller o A propeller is a type of fan that transmits power by converting rotational motion into thrust. A pressure difference is produced between the forward and rear surfaces of the airfoil-shaped blade, and a fluid (such as air or water) is accelerated behind the blade. Working :- Step 1 : START Step 2: Make Connection between receiver module and displaying device. Step 3: Connect the power supply and turn it ON. Step 4 : Configure transmitter module and receiver module. Step 5 : Control and direct the robot using remote controller. Step 6 : Run robot on land or in water. Step 7 : Give the direction to the robot. Step 8 : For Right direction turn off right motor and for left direction turn off left motor. Step 9 : Start the propeller when robot is in water then, otherwise turn off propeller. Step 10 : Capture video signal throw the camera. Step 11 : Send captured video to receiver. Step 12 : Display the captured video signal on monitor and store in video format. Step 13 : Go to step 5. 3. HARDWARE REQUIREMENTS- A) Selection of Controller:- Requirement of the system:-  I/O Ports  Inbuilt Timer  Serial Port  less power consumption 1)ARM 7 LPC 2138:- Features:-  2 channel ADC  2 PORTS P0, P1.  512KB program memory  32Kb stack memory  4-pin High-Performance ARM Microcontroller  ADC 10 BIT  Cost is 600 2) Raspberry Pi 2 model:- Features:-  Broadcom BCM2836 SOC  Quad-core ARM Cortex-A7  CPU Operates on 900 MHz  IGB Memory  Operates on 5V supply  Audio connector, Ethernet connector 3) LPC 1768:- Features:-  ARM Cortex M3 Processor Running at 100 MHz frequency  12 Bit ADC  4 Ports P0,P1,P2,P3  512 KB ROM  64Kb static RAM  70 GPIO Pins  8 Channel  Cost is 1100 Rs.
  • 3. International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 05 Issue: 04 | Apr-2018 www.irjet.net p-ISSN: 2395-0072 © 2018, IRJET | Impact Factor value: 6.171 | ISO 9001:2008 Certified Journal | Page 399 B) Selection Result:- This controller LPC2138 used in our project because it’s PORT, ADC channel, serial port, operating frequency is greater than other controller and its cost is less than LPC1768 and raspberry pi. 4. APPLICATIONS& FUTURE SCOPE- In surveillance system for continuous monitoring. In military, police and in personal security. In spying and in security based applications uses this type of robot, or useful at hostage situation, search and rescue. Instead of DC motors which driver the CCD camera, Stepper motor can also be used. For the advance of spy robot, it can be built a robot with wireless visual system that the user can observe and control the situation via computer. 5. CONCLUSION- This type of robot can perform difficult and repetitive works for humans. It can have a very risky job and such dangerous job could be done by using small spy robot. But it is very useful to check and look out the place where dangerous poison gases have. Spy robot can also be used in searching people who are in building destroyed by the earthquake. Wireless camera is place in spy robots, it can be used as remote to enter and exit dangerous place that human cannot. To collect information from the enemy terrain it is used and monitor that information at a far secure area at the time of war. It also safely devise a plan for counter attack. Making a surveillance of any disaster affected area where human beings can’t go. 6. REFERENCES- [1] Dhiraj Singh Patel, Dheeraj Mishra, Devendra Pandey, Ankit Sumele and Asst. Prof. Ishwar Rathod, Mobile Operated Spy Robot, International Journal of Emerging Technology and Advanced Engineering, ISSN 2250-2459 [2] Akkshat Goel and Ibrahim Faruqi, Amphibian Bot, Indian Institute of Technology, Kanpur, May 2013 [3] Embedded System –Architecture, Programming and Design, 2nd edition by Raj Kamal [4] Motor driver ic- datasheet available http://www.engineersgarage.com/electronic- components/l293dmotor-driver-ic [5] Propeller Design Tutorial available [6] https://grabcad.com/library/tag/propeller [7] www.circuitstoday.com “Mobile Operates Spy Robot” [8] www.retron.com “Wireless Spy Camera Robots”