2. INTRODUCTION
• Toll gate Automation is designed to automatically keep track of the vehicle’s movement, record the
time and the details like Owner’s name, date of registration, vehicle model etc.
• This system is very useful for automatic vehicle tracking, time management and also for automation of
Toll gate. This project explains the implementation of Toll Gate Automation which is a step of monitoring
of vehicles, traveling in predetermined routes.
•Then this information about the source (vehicle) is displayed and Toll is deducted and stored for future
use.
•Lane Allocation algorithm is used in automation of toll gate.
3. SYSTEM ANALYSIS
Existing System :
•First is the traditional manual method where one person collects the money and issues a receipt. There are two
ways of collecting toll tax being in practice at present. other is two way receipt exists for 24 hours
• The other one is Smart Card system where the person needs to show the smart card to the system
installed at the toll tax depot to open the barrier
Proposed System :
• Each vehicle will be provided by an RF TX tag containing a unique ID. When the vehicle will reach at the toll
booth the RF receiver will detect these RF signals.
• The signals are amplified and are passed to microcontroller.
• Now, with the help of PC interface unit the data collected is passed to PC through serial port.
4. ADVANTAGES
• Record the time and the details like Owner’s name.
• Date of registration, vehicle model etc.
• Used for reference of Ciber crime enquiry in future.
• Automatic collection of toll tax.
• Time Saving.
• Free Flow of Traffic.etc
5. MODULES
Admin:
•Toll gate Automation is designed to automatically keep track of the vehicle’s movement, record the time and the details like Owner’s name,
date of registration, vehicle model etc.
Registration of owner:
• Automation of toll gate records the time and the details like Owner’s name, date of registration, vehicle model.
Track details:
• It explains the implementation of Toll Gate Automation which is a step of monitoring of vehicles, traveling in predetermined routes.
6. HARDWARE AND SOFTWARE REQUIREMENTS
Hardware Requirements
• Processor : Dual Core
• Ram : 1GB (or) Higher
• Hard disk : 160GB
7. SoftwareRequirements
•
• Technology : Java 2 Standard Edition, JDBC
• Web Server : Tomcat 7.0
• Client Side Technologies : HTML, CSS, JavaScript
• Server Side Technologies : Servlets, JSP
• Data Base Software : MySQL
• Operating System : Microsoft Windows
• IDE : Eclipse
•
•
8. SYSTEM ARCHITECTURE
• System architecture is the conceptual model that defines the structure, behaviour, and more views of a
system
9. INPUT/OUTPUT DESIGN
Input Design:
• The input design has been done keeping in view that, the interaction of the user with the system being the most
effective and simplified way.
•
Controlling the amount of input
Avoid unauthorized access to the classroom.
Eliminating extra steps
Keeping the process simple
• At this stage the input forms and screens are designed
10. Output design:
• All the screens of the system are designed with a view to provide the user with easy operations in simpler
and efficient way, minimum key strokes possible.
• user can operate the system without much help from the operating manual.
11. SYSTEM TESTING
Testing
• Software testing is a critical element of software quality assurance and represents the ultimate review of
specification, design and code generation
• Black box Testing
• White box Testing
• Unit Testing
• Validation testing
• Integration Testing
• System Testing
20. CONCLUSION:
• The Automation Of Toll Gate project has been successfully completed. The goal of the system is
achieved and the problems are solved. This project is developed in this manner that is user friendly and
required help is provided at different levels.
• By doing automation of toll plaza we can have the best solution over money loss at toll plaza by
reducing the man power required for collection of money and also can reduce the traffic indirectly
resulting in reduction of time at toll plaza.