Parking Lot System Using Arduino

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Parking Lot System Design

Musthakeem N. Mubeen, Mubashir Wani, Faza Fazul 0929897 0913527 1017094

The aim of this project is to design and build a prototype of an automated parking system which will show the number of parking spaces left inside the parking lot. It will have a pre installed number of maximum cars that can be parked. An infra red sensor will count the entry and exit of each car and open the barricade for the entry and exit. The entry and exit system can how ever be chosen. A display on the monitor outside the parking lot will show how many cars can still be parking inside the parking lot. In this project, 9 parking spaces have been alloted with only one entry/exit door. The control is done using Arduino Board at 15 Mhz.


Design of a project of parking monitoring and control system to count the number of automobiles entering and leaving a parking, open the gate for authorized personnel, provide information about free parking spaces, create data base to provide statistics about people entering and leaving the parking space in addition to using this system for security issues such as preventing violating people to enter the parking space. This system uses efficient sensors and display circuits to withstand the surrounding environment. The system will be powered form power utility available to supply the system components with required supply for sensors, display, Arduino, and motors.

II. Project Objectives

1. To design and build up a prototype of an automated car park system

2. To learn how to control the prototype system for automated parking

3. To learn how to program Arduino and make it work on any system we need.

III. Project Specifications

• High quality sensor and long life LED.

• Low power consumption.

• Very clear display and efficient controller.

• Easy to install and maintain.

• Easily designed system to minimize the cost.

IV. System Overview:

The parking system is based around a Arduino-controller and IR distance sensors. It is quick and efficient in operation. The Arduino controller is interfaced with the stepper motor , the IR sensors and the display of the car parking control system collectively. The seven segment display and serial interface is used to display the number of cars in the parking lot. Block diagram of the system is shown in the figure below.


Basic Components:

• Stepper motor

• IR Distance Sensors

• Seven segment Display

• Stepper Motor

A stepper motor is a digital device, in that digital information is processed to accomplish an end result, in this case, controlled motion. It is reasonable to assume that a step motor will faithfully follow digital instructions just as a computer is expected to. This is the distinguishing feature of a step motor.

In essence, step motors are electrical motors that are driven by digital pulses rather than a continuously applied voltage. Each pulse equals one rotary increment, or step (hence, step motors), which is only a portion of one complete rotation.

IR Distance Sensors

The Sharp distance sensors are a popular choice for many projects that require accurate distance measurements. This IR sensor is more economical than sonar rangefinders, yet it provides much better performance than other IR alternatives. Interfacing to most microcontrollers is straightforward: the single analog output can be connected to an analog-to-digital converter for taking distance measurements, or the output can be connected to a comparator for threshold detection. The detection range of this version is...
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