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Design And Construction Of A Farm Intruder With Camera And SD Card Recorder

5 Chapters
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56 Pages
|
8,025 Words
Agricultural Engineering | Electrical Electronics Engineering | Engineering

Abstract

Table of Content

Chapter One

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The design and construction of a farm intruder with camera and SD card recorder entails the development of a sophisticated surveillance system tailored for agricultural environments. This system integrates advanced motion detection sensors, durable casing, and weatherproof components to ensure reliable operation in outdoor settings. The primary function is to detect and record any unauthorized intrusions onto the farm premises, offering real-time monitoring capabilities. The inclusion of a high-resolution camera enables clear visual identification of intruders, while the SD card recorder securely stores footage for later review and evidence collection. By combining cutting-edge technology with robust construction, this farm intruder system enhances security measures, mitigates risks, and safeguards agricultural assets against potential threats.

ABSTRACT

Nigeria being an agricultural country needs some innovation in the field of agriculture. Monitoring and control of farming environment play an important role in farming production and management. Farm lands and plantations in Nigeria and African countries are usually very large scale running into hundreds of acres and in most cases fencing these large expanses of land can be prohibitively expensive and very stressful. Farmers therefore resort to building fences using sticks and ropes and these provide the only security measure they can adopt. These security measures are trivial and very ineffective as intruders can easily jump over them and cart away with as much crops as they can carry without the knowledge of the owners, especially when such fences are built around dark crevices. Also, with the present situations in Africa where farmers are facing security threats in their farms, especially with the Fulani herdsmen, the wireless sensor networks technology can be used in this effect to get real time information of the farm and know when an intrusion occurs, the nature or type of intrusion with the necessary action(s) to follow. The architecture of the WSNs system comprises of a set of sensor nodes, surveillance facilities and a base station that communicate with each other and gather information to make decisions about the situation at hand. The system overcomes the limitation of building fences using sticks which can be very much stressful. It also has the advantages of motion detection with camera and alert system as a security measure. Hardware of this system has been designed using microcontroller AT Mega 328, PIR (Passive Infra Red) motion sensor as the primary sensor for motion detection, camera for capturing images and SD card (in ESP32- CAM module) save images capture by camera.

The Abstract of “Design And Construction Of A Farm Intruder With Camera And SD Card Recorder” ends here.

TABLE OF CONTENT

Title page
Approval page
Dedication
Acknowledgement
Abstract
Table of content

CHAPTER ONE
INTRODUCTION
1.1 Background of the project
1.2 Problem Statement
1.3 Aim and objectives of the study
1.4 Significance of the study
1.5 Scope of the study
1.6 Application of the study
1.7 Limitation of the study
1.8 Project Organisation

CHAPTER TWO
LITERATURE REVIEW
2.1 Overview of surveillance
2.2 Types of surveillance
2.4 Overview of wireless security cameras
2.5 RELATED WORK

CHAPTER THREE
METHODOLOGY
3.1 Proposed system
3.2 System block diagram
3.3 Description of system hardware
3.4 System circuit diagram
3.5 Software details

CHAPTER FOUR
TEST AND RESULT ANALYSIS
4.1 Test
4.2 Result
4.3 Prototype
4.4 Contribution of the project

CHAPTER FIVE
5.1 Conclusion
5.2 Recommendation and future scope
Referencex

The ‘Table of Content” of “Design And Construction Of A Farm Intruder With Camera And SD Card Recorder” ends here. Scroll down to read Chapter One of this Design And Construction Of A Farm Intruder With Camera And SD Card Recorder work.

CHAPTER ONE

1.0 INTRODUCTION
1.1 Background of the study
Generally, in the world, the economy of many countries is dependent upon agriculture. In spite of the economic growth and development, agriculture is the backbone of the economies all over the world. Agriculture contributes to the gross domestic product as it is the main stay of many countries. Agriculture meets food requirements of the people and serves as raw materials for several industries. There is always a huge loss of crops due to animal interference in agricultural land, crops are being destroyed and farmers are lost in large numbers [1]. Nigeria being an agricultural country needs some innovation in the field of agriculture. Farm lands and plantations in Nigeria and African countries are usually very large scale running into hundreds of acres and in most cases fencing these large expanses of land can be prohibitively expensive and very stressful. Farmers therefore resort to building fences using sticks and ropes and these provide the only security measure they can adopt. These security measures are trivial and very ineffective as intruders can easily jump over them and cart away with as much crops as they can carry them without the knowledge of the owners, especially when such fences are built around dark crevices. Wireless sensor networks (WSNs) empower monitoring and controlling of corresponding physical environments from remote area with better efficiency and accuracy [2]. This work presents the design and the Implementation of WSNs for farm monitoring and security, which is easy to install. It is a microcontroller-based circuit to monitor and control intrusion by alerting the farm owner after the use of alarm on the farmland in order to scare aware intruders. The system is optimized with the aim of achieving maximum plant growth and yield. This work is motivated by different views relating to farming security. The security measures employed by farmers in building fences using sticks and ropes as the only security measure, which can be very stressful and time consuming, and in turn limit farmers from farming on a large scale. The limitations of [1] and [3] as they only send alert to the farm owner on sensing intrusion without raising an alarm first before alerting the farmer. Many intruders which may be birds, animals or human will get scared and leave the farm premises immediately an alarm is raised. This will save the farm owner of the stress of going to the farm immediately after receiving an alert since an ordinary alarm will chase many animals away. Also, with the present situations in Africa where the farmers are facing security threats in their farms, especially with the herdsmen, the wireless sensor networks technology can be used in this effect to get real time information of the farm and know when an intrusion occurs with the necessary action(s) to follow.

1.2 Problem Statement
Farm surveillance is a major concern in this day and age as with the rapid increase in the technology around us there is a need to get updated with it. There are many cases in which farm monitoring is needed and we set out to discover a solution to the problem that we researched.
In the past, the security measures employed by farmers is by building fences using sticks and ropes as the only security measure, which can be very stressful and time consuming, and in turn limit farmers from farming on a large scale and at the end of the whole effort the system will not give a full security. The proposed system overcomes these problem by raising an alarm which get the intruder scared and leave the farm premises immediately an alarm is raised, the intruder is also captured using a camera and the captured event of the intruder is recorded with SD card. This will save the farm owner of the stress of going to the farm immediately after receiving an alert since an ordinary alarm will chase many intruders away.

1.3 Aim and objectives of the study
The main aim of the study is to build a farm intruder with a camera and SD card recorder. The objectives of the work are:
i. To build the system prototype.
ii. To develop the safety monitoring system to keep an eye on our farm.
iii. To detect the unusual movement. The users must be able to watch the surveillance through user-interface (application, web-interface).
iv. To protect livestocks and properties.
v. To detect crime and provide evidential material for court proceedings.

1.4 Significance of the study
This study will serve as a means of securing farm produce, livestock and properties. With this system the user will just sit and watch about what is happening his or her farm.
The study will enlighten student involved as well as the reader of the article on the need of having constant security or environmental monitoring system.
To the government authority and law enforcement agency, this study will serve as means of providing evident in time of crime or argument.

1.5 Scope of the study
The scope of this study covers the building a farm intruder with ESP32- CAM module (SD card recorder). Hardware of this system has been designed using microcontroller AT Mega 328, PIR (Passive Infra Red) motion sensor as the primary sensor for motion detection, camera for capturing images and SD card save images capture by camera.. This system lets the user to monitor their farms 24/7 from a remote location and in case of unusual activities; the user is alerted through the web interface. Then the user can monitor all events from the web camera. The system was developed using Arduino as the main micro-controller and a PIR sensor, which detects the movement in the house. An ESP32 Camera module is installed, which can show the user what is going on in the house as soon as any movement is detected. A buzzer is also installed, which can be activated by the user to scare off any intruders or if there are any unwanted activities taking place.

1.6 Application of the study
This device apart from using it in a farm can also be used to monitor and secure places like:
i. Homes
ii. Offices
iii. Business environment
iv. Worship centres,
v. To monitor airports,
vi. railway stations,
vii. bus stations,
viii. hotels,
ix. shopping malls and
x. all the other public places that need monitoring and protection.

1.7 Limitation of the study
Setting up a surveillance camera in your properties may cost huge amount of money. It also needs to have a 24hrs power supply system, which means the installation of the system becomes a problem for areas or countries where power supply is a challenge.

1.8 Project Organisation
The work is organized as follows: chapter one discuses the introductory part of the work, chapter two presents the literature review of the study, chapter three describes the methods applied, chapter four discusses the results of the work, chapter five summarizes the research outcomes and the recommendations.

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This is a security system to monitor and record potential intruders for a farm. Creating such a system involves a few key components. Here’s a basic outline of what you might need:

  1. Surveillance Cameras:
    • Choose weatherproof cameras suitable for outdoor use to withstand different environmental conditions.
    • Opt for cameras with infrared capabilities for night vision.
  2. Camera Mounts and Housing:
    • Ensure sturdy mounts for secure installation.
    • Use weatherproof housings to protect cameras from the elements.
  3. Digital Video Recorder (DVR) or Network Video Recorder (NVR):
    • A DVR or NVR is used to record and store footage. DVRs typically use analog cameras, while NVRs work with IP cameras.
    • Ensure it has sufficient storage capacity for your needs. You may want to use large-capacity SD cards or external hard drives.
  4. SD Card Recorder:
    • Some cameras come with built-in SD card slots for local storage. Ensure the cameras you choose have this feature.
    • Select high-capacity and reliable SD cards to store video footage.
  5. Power Supply:
    • Ensure a stable power supply for your cameras and recording devices. This may involve running power cables or using solar-powered solutions.
  6. Connectivity:
    • If using IP cameras, ensure a stable network connection. Wireless cameras are an option, but wired connections are generally more reliable for continuous recording.
  7. Remote Monitoring:
    • Choose a system that allows you to monitor the cameras remotely. Many modern systems have smartphone apps or web interfaces.
  8. Motion Detection:
    • Enable motion detection on your cameras to conserve storage space and only record when there’s activity.
  9. Signage:
    • Place signs indicating the presence of surveillance cameras, as this can act as a deterrent to potential intruders.
  10. Legal Considerations:
    • Be aware of privacy and legal considerations in your area. Ensure that your surveillance system complies with local laws.
  11. Maintenance:
    • Regularly check and maintain your system to ensure it’s functioning correctly. Replace SD cards or hard drives as needed.

Before purchasing any equipment, it’s advisable to assess the specific needs and layout of your farm to determine the most effective camera placement and system configuration. Additionally, consulting with a security professional may help you design a system tailored to your requirements.