Development Of Car Crash Detector Via Accelerometer And Tracking System/ Ivan Rey L. Ayuban, Mary Kyle Barnachea, Francis M. Ontog, Nilvin T. Perpinosas and Jerwin Reapor.--

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Ayuban, Ivan Rey L [author]

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Material type: Text

TextPublication details: Technological University of the Philippines, Manila. October 2022Description: x, 81 pages. 29 cmContent type:

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BTH TL 146 A98 2022

Dissertation note: College of Industrial Technology.-- Bachelor of Engineering Technology major in Mechanical Engineering Technology with option in Automotive Technology: Technological University of the Philippines, Manila. 2022 Summary: The study "Development of Car Crash Detector via Accelerometer and Tracking System" addresses the critical issue of road accidents by proposing an advanced Car Crash Detector. Given the rising frequency of traffic incidents and the importance of the "Golden Hour" in emergency medicine, this research underscores the need for a rapid, automated response to accidents. Current challenges like delayed information and inadequate accident data contribute to high mortality rates, highlighting the need for improved safety solutions. The study's primary goal is to design, develop, and evaluate a proactive safety system that uses accelerometers and a tracking system to automatically notify emergency contacts in the event of a crash. The proposed device integrates accelerometers with an Arduino microcontroller, GPS, GSM modules, and a battery-operated system. The key objectives include designing the system, building a cost-effective prototype, and assessing its capacity, applicability, dependability, and efficiency. The methodology involves a detailed, step-by-step approach to prototype creation, featuring block diagrams, process flow diagrams, isometric drawings, and schematic diagrams. This thorough approach aims to ensure the system's functionality and reliability. The proposed system quickly detects crash signs using accelerometers and microcontrollers, automatically sending notifications to pre-set emergency contacts via GPS and GSM modules. Testing has confirmed the system's reliability in detecting crashes and sending SOS messages promptly. This research represents a significant advancement in emergency response and road safety, improving global safety by reducing response times and enhancing the effectiveness of emergency services. Keywords: accelerometer, Arduino, crash detection, emergency response, safety system, tracking system.

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Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis CIT	TUP Manila Library	Thesis Section-2nd floor	BTH TL 146 A98 2022 (Browse shelf(Opens below))	c.1	Not for loan		BTH0004103

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Bachelor's thesis

College of Industrial Technology.-- Bachelor of Engineering Technology major in Mechanical Engineering Technology with option in Automotive Technology: Technological University of the Philippines, Manila. 2022

Includes bibliographic references and index.

The study "Development of Car Crash Detector via Accelerometer and Tracking System"
addresses the critical issue of road accidents by proposing an advanced Car Crash Detector.
Given the rising frequency of traffic incidents and the importance of the "Golden Hour" in
emergency medicine, this research underscores the need for a rapid, automated response to
accidents. Current challenges like delayed information and inadequate accident data
contribute to high mortality rates, highlighting the need for improved safety solutions. The
study's primary goal is to design, develop, and evaluate a proactive safety system that uses
accelerometers and a tracking system to automatically notify emergency contacts in the
event of a crash. The proposed device integrates accelerometers with an Arduino
microcontroller, GPS, GSM modules, and a battery-operated system. The key objectives
include designing the system, building a cost-effective prototype, and assessing its
capacity, applicability, dependability, and efficiency. The methodology involves a detailed,
step-by-step approach to prototype creation, featuring block diagrams, process flow
diagrams, isometric drawings, and schematic diagrams. This thorough approach aims to
ensure the system's functionality and reliability. The proposed system quickly detects crash
signs using accelerometers and microcontrollers, automatically sending notifications to
pre-set emergency contacts via GPS and GSM modules. Testing has confirmed the system's
reliability in detecting crashes and sending SOS messages promptly. This research
represents a significant advancement in emergency response and road safety, improving
global safety by reducing response times and enhancing the effectiveness of emergency
services.
Keywords: accelerometer, Arduino, crash detection, emergency response, safety system,
tracking system.

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