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System implementation-code documentation-algorithm, methodologies, protocols used.
The designed system will create a new environment for the safety of traveller in the automobile industries. An intelligent car system will counter the problem and ensure the safety of the traveller sitting in the closed car cabin as well as provide a safe exit during adverse conditions.
The main components of this proposed system are PIR motion sensor, carbon dioxide (CO2) sensor, micro-controller, water sensor, smoke sensor, GSM modem, GPS, air blower, car buzzer and power windows.
In this system, there are three modules aligned together:
The above modules will detect the CO2 level and smoke in car, and also the water level around the car engine.
First of all, when the car is locked and the engine is off, then the PIR motion sensor will try to find a living being in the car.
If it detects any, then it will activate the three modules that will work as mentioned below.
1. There are two levels at which the micro controller will take necessary actions:
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If action is specified then the mentioned action will be performed but if not, then the system will work automatically and will open the windows.
If this mechanism also fails then the car's buzzer will alert nearby people and will simultaneously send SMS to nearby hospital and police station.
This level of CO2 shows that both the mechanisms have failed and so the car's buzzer will turn on and will alert nearby people, simultaneously the GSM will send SMS to nearby hospital and police station.
The following are the circuit diagrams of some modules:
In this chapter, the working of modules is shown through pictorial form. It will guide from the process of development of PCB, through the testing of components, to the final implementation.
The motto of this proposed work is to save the traveller from suffocation due to scarcity of oxygen in the closed car cabin. With the use of electronic devices, this intelligent system is being implemented. It will be low cost system that can be used in the smart cars for the mentioned reason. A small computer (micro-controller) will handle the decision making process and will open the connection for power supply to the power windows, air blower, buzzer and other sensors. This system helps the driver to know if there is anyone who is left in the car or a living being is suffering from dearth of oxygen. It will also check if the person or the pet, in the car cabin, is having a critical situation, according to which an alert message will be send to the nearby hospital, and turn on the car buzzer to inform the nearby people about something wrong is happening in the car.
Foreseeing this system, a sensor can be developed which will scan the pulse rate or will measure the respiration rate fast with ease. This will not only tell the driver about the person suffocating in the car but will also inform if someone is having panic attack or any difficulty which rises his/her/it's respiration rates. Grace Wusk and Hampton Gabler proposed a system on car crash by detecting the respiratory rates and heart rates using seat sensor [6]. Using this method, the proposed methodology can be enhanced for anti-suffocation in smart car systems.
Safety system implementation in the automobiles. (2019, Dec 14). Retrieved from https://studymoose.com/safety-system-implementation-in-the-automobiles-essay
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