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Agriculture Robot
1. Venus International College of
Technology , Gandhinagar.
PEST CONTROLLING IN AGRICULTURE BY
AUTOMATIC ROBOT
Name:- Er.No.:-
1. RAHUL R. DAREKAR 110810119006
2. VIPUL N. PATEL 110810119013
3. PRAVEEN R. CHAUHAN 110810119053
4. SURESH M. PRAJAPATI 110810119059
Guide Name :- Asst. Prof. ASHVIN JANKHANIYA
2. Project Idealization
• Introduction
• Decision on the project title
• Literature review
• Patent Search analysis Review
• Problem definition & Introduction of Problem
• Proposed Problem solution and expected result improvement
• Validation of the project
• Conclusion
• Future scope
• Work Plan
• Websites , Research papers and Books
3. Introduction
Recent Century is full of of technology, none field can’t be remain without use of
the technology, Agriculture is one of those fields.
More than 42% of the total population in the world has chosen agriculture as their
primary occupation.
The farmers have to do many works , such of them are also not good for their
health.
Some problems about also their crops as some insects can damage their crops.
To decease or remove these damages different types of pesticides available .
But they are not safe for human health while spraying .
4. Fungicides, Herbicides and pesticides are used for securing crops.
Pesticide: Pesticides are used to control insects that can be harmful to crops. They
are effective but have many side effects for the environment.
Fig.1 Leaves of crops damaged by insects
5. Fig 2. farmer while spraying pesticides
In recent years, the development of autonomous vehicles in agriculture
has experienced increased interest.
These vehicles should be capable of working 24 hours a day all year
round, in all weather conditions.
So, this project is based on spraying the pesticide liquids on crops in the
field with the help of robots which can reduce the manually work.
6. In this project work an engineering solution to the current human health
hazards involved in spraying potentially toxic chemicals.
Such types of robots are called as Agrobots.
Here in this project we want to design a robot, which can be controlled by
using a remote for spraying the pesticides in the field or greenhouse.
Fig 3. Robot used for experiment in Pusan
university lab
7. Agrobot’s components
Agrobots consist of many components such as RF transmitter, RF receiver,
microcontroller etc…
Main components are:1.Remote
2.Robot
1. In this system Remote is worked as RF transmitter which encodes the data.
Remote is built by using Key-board, which is interfaced with the controller
89c2051.
The RF transmitter will transmit the data that is given by the controller.
2. Robot is worked as RF receiver which decodes the data received from the
remote control.
Robot is designed by DC motors for the movement of the robot, RF receiver in
order to receive the data.
8. Short description of robot’s parts:-
1.Remote & Keyboard:-There are 6 keys in the remote for controlling the
Agrobot. This is interfaced to the controller.
1) Forward 4) Right turn
2) Reverse 5) Spraying
3) Left turn 6) Stop
2.Microcontroller:-It is a small computer on a single circuit containing a
processor core, memory and programmable peripherals.
Two microcontrollers are used in the system ,first 89c2051 is used as
transmitter, second 89c51 is used as receiver.
3.Power supply(Battery):-This is an important Part why because all the
components require power supply to be operating. Micro controller requires +5v,
relay and DC motors require +12v.
9. 4.DC MOTORS:-DC motor used in the robot is the basic component of the
system, It is operated by using H-bridge IC, which will be controlled by the
microcontroller.
5.Air compressor:-It is a device that converts power into kinetic energy by
compressing and pressurizing air , which on command , can be released in quick
bursts .
It is used in robot for spraying liquids and pesticides.
Fig.4 Battery Fig.5 D.C. Motors
10. 6.Air tank & liquid fill tank:-It is a pneumatic pressure vessel for storing
compressed air and for storing the pesticides.
7.H-BRIDGE circuit:-An H bridge is an electronic circuit that enables a
voltage to be applied across a load in either direction.
For the movement the Agrobot, microcontroller is designed by using DC
motors, which will be driven by the H-bridge IC, depending on the
instructions of the micro-controller.
fig,.6 Air Compressor
11. 8.Nozzle and Sprayer: This part is used for spaying the liquid pesticides from the
tank as the pressure of compressor. We can change spraying intensity by changing
the pressure of compressor. Spraying pipe is connected with nozzle
Fig.7 H Bridge circuit
Fig8. Nozzle and Sprayer
12. 9. Wheels and carrier: Wheels are used for driving the carrier which contains
all the components of robot.
4 inch dia. Wheels are used in this robot
Fig.9 Wheel and carrier
14. Working of robot and block diagram
Working principal of Agrobot:
To spray the liquids of
pesticide on the crops to protect
them against insects while
travelling in the field with help of
sprayer.
The Robot contains
components Key board,
microcontroller, battery etc. will
work as shown in block diagram.
Key board of remote which
works as transmitter transmits
the signal given to it.
Block diagram of working
15. This signal is captured by robot which works as receiver by
microcontroller.
As robot senses signal with help of h bridge circuit D.C motor will
actuate and motors get revolution.
Wheels which are connected through D.C motors also revolves.
Wheels are rotated as given order reverse, forward, left, right.
When voltage is given to circuit as right wheel ,motor of right side
actuates and wheel takes right turn.
For left turn repeat this procedure simultaneously.
As the carrier of robot travels in the field , the robot spray the liquid
pesticides on the crops with help of sprayer at particular distance.
16. Decision on the Project title
On the earth 42% of population is dependent on an occupation of agriculture
,they have to do a lot of work and more load on them.
Among these works spraying pesticides is harmful and difficult because
chemicals used in these pesticide liquids are dangerous .
It may causes problems of breathing and some physical problems.
So ,they have to suffer more problems during farming.
So, an agriculture robot which helps the farmers to pesticide the liquids and
minimize their workload ,we named that robot for spraying pesticides “PEST
CONTROLLING IN AGRICULTURE BY ROBOT”.
17. Literature Review
Sr. no.3 Author name Research Paper Title Abstract or Conclusion Publish date &
Year
1. Julián Sánchez-Hermosilla, Francisco
Rodríguez Ramón González,
José Luís Guzmán2and Manuel
Berenguel
A mechatronic
description of an
autonomous mobile
robot for
agricultural tasks in
greenhouses
The mechanical design of the
mobile robot has been carried
out using CAD/CAE
technologies in which the main
features of greenhouses, the
electronic components have
been considered
1 march 2010
2. T.Balaji, R.Bhalamurugan , M.R.
Stalin john, Dr.k.Velmurugan
Versatile
Applied For Agricultural
Robot Vehicles
Finally we conclude that our
proposal used to humiliate the
human effort in agriculture. In
the existing system the robot is
built for some specific
application such as Fruit
Harvesting,Transplant
Handling,Sheep Shearing
3. Tony E. Grift Development of
Autonomous Robots for
Agricultural Applications
The flexibility of the robot was
not truly employed, since simple
front wheel steering proved
sufficient for between-row
guidance. The SICK laser unit
provided
5 June 2003
18. Patent Search Analysis Report
Sr.
no.
Author name Patent Title Conclusion Patent Database
1. Vijaykumar N Chalwa,
Shilpa S Gundagi
Mechatronics Based Remote
Controlled Agricultural Robot
The robot for agricultural purpose an
Agrobot is a concept for the near the
performance and cost of the product
once optimized, will prove to be work
through in the agricultural spraying
operations.
Department of
Mechanical
Engineering, BIT,
Barshi
7 JULY 2014
2. Yan Li, Chunlei Xia,
Jangmyung Lee
Vision based pest detection
and automatic spray of
greenhouse plant
In this paper, a depth measurement
method for detecting
pests on leaves is proposed. And it
provides pests position for
automatically spraying pesticide on the
leaves where the pest
model pasted on.
Pusan National
University Intelligent
Robot Lab
5 August 2009
3. Philip J. Sammons,
Tomonari Furukawa and
Andrew Bulgin
Autonomous Pesticide
Spraying Robot for use in a
Greenhouse
The results showed the robot was able
to successfully
the physical specifications outlined by
The National Centre for Greenhouse
Horticulture so as to be
able to function within their
greenhouses. The robot
also met the economic and time
constraints that it
was subject to. The robot was able to
drive up and
back along the tracks in the
greenhouse.
ARC Centre of
Excellence for
Autonomous Systems
9 September 2005
19. Problem Definition
During work farmers have to suffer many problems ,At the time of spraying
pesticide liquids they have to face some breathing dieses.
Chemicals used in the pesticide liquids are harmful and dangerous for
mankind, if they don’t pay attention during spraying they have to suffer
problems.
Robots have to done work also an unequal surface, so it is hard to do work
in the fields.
Sensing distance, these robots are works in particular distance sets by user.
Capital cost of the robot.
20. Problem Solution Proposed and Expected
Result Improvement
Workload on farmers minimized by using these type of agrobots, and
also reduce the chance of danger of breathing problems.
By making track for robot it will be worked properly in slippery and
unequal surface.
By using chain instead of wheels in the field ,robot can work more
effectively on unequal surface of the field.
By using High sensitivity sensor we can work far distance on the field in
any atmosphere.
Farmers don’t have to go in the field because robots do their work
properly and effectively.
Time consumed by robots for spraying liquids is less than mankind, and
they can improve the working efficiency.
21. Conclusion
The robot for agricultural purpose an Agrobot is a concept for the near the
performance and cost of the product once optimized, will prove to be work through
in the agricultural spraying operations.
Workload on the farmers is decreased and health problems also.
Successful in constructing robot which can be travelled on rough surfaces also
and weighing enough load of compressor and other equipments.
Successful in developing a robot whose construction is enough to withstand the
challenges of the field.
Sure about that once this concept will be presented in a manner suitable to Indian
market, it will definitely help in bringing down the 15% molality rate found in the
Indian formers associated with the agricultural spraying operation
22. Future scope
Future scope of this type of robots are very bright because it is very
usefull in agriculture and reduce the workload.
It reduce the time consumed in spraying the pesticide liquid and
works very effectively.
It will help the farmers to do work in any season and conditions.
It will reduce the danger for the farmers from different breathing
and physical problems.
23. Work Plan
• Agriculture robot for pest controlling project Is divided in two parts.
• In this semester travelling carrier which runs with help of D.C motor is shown
in video.
• Spraying function can’t be shown because of unavailability Of air compressor.
• In next semester all the parts of robots will be assembled like sprayer, nozzle,
air compressor.
• After assembling of these parts with robot carrier it can spray liquids at
particular pressure and distance, where it is required.
• Calculation of pressure of compressor, speed , design, testing of parts will be
considered also in next semester.
24. Web sites, Research papers and books
We have come to know from these Websites:-
1. WWW.Robotics.pusan.ac.kr
2. http://warse.org/pdfs/2014/ijeter01272014.pdf
3. www.Web.iaincirebon.ac.id
We have come to know from these Research papers:-
1. Mechatronics Based Remote Controlled Agricultural Robot by
Vijaykumar N Chalwa, Shilpa S Gundagi
2. Autonomous Pesticide Spraying Robot for use in a Greenhouse by
Philip J. Sammons, Tomonari Furukawa and Andrew Bulgin