Introduction: This project is designed so that students can understand the technology
used in the now a
day’s driver less metro train which is used in most of the developed countries like
Germany, France, and Japan etc. These trains are equipped with the CPU, which control
the train. The train is programmed for the
specific path. Every station on the path is
defined; stoppage timing of the train
and distance between the two
stations is predefined.
In this project we try to give the same prototype for this type of trains. We are using microcontroller 8051 as CPU. The motion of the train is controlled by the Stepper Motor, for displaying message in the train we are using Intelligent LCD Display of two lines. The train is designed for three stations, named as Jagatpura, Lal Kothi & Rambhag. The Stoppage time is of 3 Sec and time between two consecutive stations is 6 sec. There is a LCD display for showing various messages in the train for passengers. There are indicators, which are used to show the train direction i.e. Up path and Down path. Before stopping at station the train blows the buzzer. It also includes an emergency brake system due to which the train stops as soon as the brakes are applied and resumes journey when the emergency situation is over.
In this project we try to give the same prototype for this type of trains. We are using microcontroller 8051 as CPU. The motion of the train is controlled by the Stepper Motor, for displaying message in the train we are using Intelligent LCD Display of two lines. The train is designed for three stations, named as Jagatpura, Lal Kothi & Rambhag. The Stoppage time is of 3 Sec and time between two consecutive stations is 6 sec. There is a LCD display for showing various messages in the train for passengers. There are indicators, which are used to show the train direction i.e. Up path and Down path. Before stopping at station the train blows the buzzer. It also includes an emergency brake system due to which the train stops as soon as the brakes are applied and resumes journey when the emergency situation is over.
This paper describes a prototype that has been developed to demonstrate the concept of integrated gaming and simulation for incident management. Architecture for the purpose was developed and presented at the last conference. A hypothetical emergency
incident scenario has been developed for demonstrating the applicability of integrated simulation and gaming. A number of simulation and gaming modules
have been utilized to model
the major aspects
of the hypothetical scenario. The modules demonstrate the value of utilizing simulation for incident
management applications.
They can be used to highlight
the value of simulation and gaming for training applications in particular. Two of the simulation modules have been integrated using a modified implementation of the high level architecture to give an idea of the advantages.
Technical issues in integration
are dentified.
Basic components:
- AT89C51
- LCD(16*2)
- ULN2003
- Stepper Motor
- Resistors
- Capacitors
- 7805
- Crystal Oscillators
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| Nazish Shahab |
*** For Program and Hex File kindlly Contact to Nazish Shahab.
Price in Jaipur: Rs-2000
Price in other cities of Rajasthan: Rs-2200
Price in other cities of India: Rs-2500
Designed By- Er. Nazish Shahab
Near JNU Main Campus,
Jagatpura, Jaipur, 302025
Contact- 7665409048/7877698634
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