CHAPTER 3 –FEASIBILITY ANALYSIS

There are the feasibility analysis of the wireless control Wi-Fi car, In which it can be control through any android or IOS application which will be created upon requirements .The applications will be created by some of programing to run the wireless car .it can be c, c++ or python .This car has some attractive features like ultrasonic sensors to capture any obstacle in the way so the robo car can automatically makes its way. It has camera which will fitted on the tilted pan which can control by the application so we can capture the 360 videos or photos of any environment .

the application works on android and ios too, and the car has a Arduino uno device in which all the programing will be done by which we can control the car to left right and the camera control all the things install as program in that Arduino uno device .there are some DC motors, wires batteries and some microchips.

3.2 OPERATIONAL FEASIBILTY

The main component of spy camera car system is the WIFI module X1. WIFI module X1 like a brain for RC camera car. I used a WIFI module X1 to establish connection between the car and my application. Camera is connected with Pan-Tilt X1 when the user give rotation command from the application the WIFI module X1 instruction and send the instruction to Pan-Tilt X1 to rotate the camera and WIFI module X1 transferring the video stream to the application.

3.3TECHNICAL FEASIBILTY

The important part of RC car is chassis, fix the holder on the chassis and now interface red link to the VIN of Crowtial-motor base shield, the dark link associate with the GND of motor base shield.

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Now this time to power up and test the motor are working or not. At that point interface him CrowduinoUNO with USB connection to PC and Upload the test code. On the off chance that the vehicle wheel can’t keep running same way trade the two wire of engine if the Motor 1 go ahead, yet the Motor 2 return, Now we simply change the link of engine 2, the red link to OUT2, the dark link to OUT1, at that point test once more.Every wheel are running well so now we need the camera that can move in mufti direction with the help of pan-Tilt combine the pan-Tilt with the camera. We install Pan-Tilt with the chassis make four holes and fix. First thing we want Plug the camera onto the Pan-Tilt and interface the WLAN module to the UART port of Crowtial-Motor base defend. Presently the Connect the Pan-Tilt to the Crowtial-Motor base defend, up-servo connect with D7 and down-servo connect with D6. Thenconnect the camera to the WLAN module with a USB link and transfer the code. We need to application which can run the RC car so install app on smartphone and power the RC car, then open Wi-Fi setting phone search for Wi-Fi signal “Electro” connect it without any password.

3.4 ECONOMICAL FEASIBILTY

HARDWARE QAUNTITY COST

ARDUINO UNO

1

1300

CROWTAIL-MOTOR BASED SHIELD

1

480

WIFI MODULE

1

230

USB CAMERA

1

950

VEHICLE CHASSIS

1

920

PAN TILT

1

350

BATTERY

1

800

MOTOR DC

4

250

TOTAL

5280

3.5 SUMMERY

In this chapter we talk about the feasibility analysis of the project in which all the important things regarding project is discussed. There is technical feasibility, operational and economic feasibility. In this we can know about what’s the parts are using and what they cost .How they will operated , on which language the program should be run and how they will work .If the app is user friendly or not .

CHAPTER 4 –SYSTEMPLANNINGANDREQUIREMENTS

4.1 NON-FUNCTIONAL REQUIREMENTS

Non-functional requirements define the overall qualities or properties of the subsequent framework. Non-functional requirements are constraints of the product built up that must meet to make the system helpful. These incorporates the followings.

4.1.1 PERFORMANCE REQUIREMENTS

The system uses short response time, high throughput and easy Utilization. This project is intended to assist the people with having authority over things. For the best performance it requires a decent WIFI association so it stays associated with the web and can almost certainly read voice direction send by means of Google assistance from cell phone, likewise it requires a decent power association with no changes so it works faultlessly and make life simpler.

4.1.2 AVAILABILITY REQUIREMENTS

Hardware that are required for this project are easily available in the market on cheaper price. This will make our product easily purchasable by anyone and can be used in many different places with different implementation as our system is available for service when requested by the user at any time.

4.1.3 CAPACITY REQUIREMENTS

The system can be extended to increase total throughput under an increased load when resources (normally equipment) are included. It can deal with the heaviness of the camera module multiple times the size of the body and can keep running on ideal speed.

4.1.4 RELIABILITY REQUIREMENTS

The system plays out its required capacities under expressed conditions for a particular period. As our robot car need a decent WIFI connection and a mobile app to control its movement and live screen transmission to our cellphone. Our app can also work via the Google assistance to move in different direction so if the mobile screen is broken user can still monitor and use it for surveillance.

4.1.5 DESIGN CONSTRAINTS

The system design was too compact to build whole robot together in one piece. We have to build the different sections separately and ultimately put it together with minimal effort to put them together. Voice assistance can’t work without Wi-Fi if it’s not available. Moreover, Smartphone should also have a decent connection to internet.

4.2 FUNCTIONAL REQUIRMENTS

The functional requirements were created through inspecting writing survey, reexamining comparative systems, meetings to generate new ideas with colleagues and meetings with specialists. User of the system has explicit functional requirements that empower user to utilize the system. These requirements portray what the Robot or App should do.

The primary user necessity to utilize the project is having an Android device, other functional requirements are user arrangement the product application to begin utilizing the system 1-User should have an Android Device given Wi-Fi. 2-Also user should have the Android application of this project to interface with the robot. 3-There must be remote Router connector.

4.3 EXISTING SYSTEM STUDY

Now a days because of progression in innovation various recently planned keen homes utilize Wi-Fi enabled robot for various applications. Generally they are utilized for home security reason. Along these lines one can watch out for the general population coming inside home just by the robot car just by bringing a camera into it. Various other application are also done by this robot car like doing various takes a shot at the command ex-switching on the lights or utilized by the military to watch and protect their nation’s visitor and can also utilize it to keep an eye on their foe’s base and their exercises without imperiling their warriors when the robot is given command by the Wi-Fi enabled gadget.

4.3.1 OVERVIEW

The Robo car can be easily moved starting with one place then onto the next just by a single device. Robo car can be utilized for security reason with the establishment of a camera. We can cause the car to do different undertaking like observation our encompassing or use as a strategic device to get data with negligible danger of getting captured.

4.3.2 SPECIFICATION

HARDWARE SPECIFCATION:

ARDUINO UNO:

The ASCII text file Arduino atmosphere permits user to put in writing code and transfer it to the I/O board.The environment is written in Java.The Arduino development atmosphere contains a text editor for writing code, message space, text console, and toolbar with buttons for common functions, and a series of menus.It connects to the Arduino hardware to transfer programs and communicate with them. Arduino programs are written in C or C++.Arduino options, capable of compilation and uploading programs to the Board with one click .Software written using Arduino is called sketches.

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robo car. (2019, Nov 25). Retrieved from http://paperap.com/robo-car-best-essay/

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