Intelligent Ambulance

19743 Words Feb 6th, 2013 79 Pages
Table of Contents

1.Introduction
2. Literature survey
3.Formation of the Problem
4.System specification
5.Design of solution
6.Implementation
7.Results and Discussions
8.System testing
9.Conclusion and future scope
10.References

INTELLIGENT AMBULANCE FOR CITY TRAFFIC AND GSM TO SENT THE
STATUS OF THE PATIENT TO THE HOSPITAL
ABSTRACT:
The main aim of this project is develop an intelligent ambulance which will reach the hospitals without any problem in heavy traffics.
INTRODUCTION:
This particular project is designed for the cities with heavy traffic. Eg: In Bangalore the roads are full jammed every time. Most of the time the traffic will at least for 100meters .In this distance the traffics police can¶t hear the siren form the ambulance
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This hardware also contains memory chips onto which the software is loaded. The software residing on

the memory chip is also called the µfirmware¶. The embedded system architecture can be represented

as a layered architecture as shown in Fig.
The operating system runs above the hardware, and the application software runs above the operating system. The same architecture is applicable to any computer including a desktop computer. However, there are significant differences. It is not compulsory to have an operating system in every embedded system. For small appliances such as remote control units, air conditioners, toys etc., there is no need for an operating system and you can write only the software specific to that application. For applications involving complex processing, it is advisable to have an operating system. In such a case, you need to integrate the application software with the operating system and then transfer the entire software on to the memory chip.
Once the software is transferred to the memory chip, the software will continue to run for a long time you don¶t need to reload new software.

2.2 Characteristics
1. Embedded systems are designed to do some specific task, rather than be a general-purpose computer for multiple tasks. Some also have real-time performance constraints that must be met, for reasons such as safety and usability; others may have low or no performance requirements, allowing the system hardware to be simplified to reduce