Integration of Sensor and GPS System in Multisource Electric Vehicle for Accident Control and Safety
DOI:
https://doi.org/10.61779/jasetm.v3i2.4Keywords:
Servo Motor, Linear Actuator, Global Positioning System, Global System for Mobile Communications, Internet of Things, Over speedingAbstract
Nowadays, the major reason for road accidents is over speed, fire accidents, and driver’s negligence. This research study intends to overcome these challenges by using fire detection and accident detection. If in case any accidents occur, it sends instant SMS and live location to the related Road centers like RTC centers, hospitals, fire stations, etc., This makes the accident the location to be immediately known and it helps to save valuable lives. The flame sensor is used for fire detection. The paper is based on the ARDUINO, all the sensors are connected to it and send SMS of the live location through the GPS and GSM module. The vehicle accident location tracking system integrates several safety features using GSM (Global System for Mobile Communications) and GPS (Global Positioning System) technologies. The primary objective of the system is to enhance passenger and vehicle safety by addressing the major causes of road accidents such as over speeding and fire accidents. The system is designed to detect accidents and immediately notify relevant authorities by sending SMS alerts with the live location of the incident to road centers, hospitals, and fire stations. This rapid communication is intended to ensure that the accident site is quickly identified, thereby facilitating prompt rescue operations and potentially saving lives. Overall, the system aims to reduce the impact of road accidents by ensuring timely detection and communication, thereby improving the safety of passengers and vehicles. This system is particularly useful in scenarios where accidents occur in remote areas, where timely detection and response are crucial. By leveraging advanced technologies like GPS, GSM, and various sensors, the proposed system represents a significant step forward in improving road safety.
References
I. S. Wichman, “Material flammability, combustion, toxicity and fire hazard in transportation,” Prog. Energy Combustion Sci., vol. 29, no. 3, pp. 247–299, 2003.
Robert Sowah, Kwame O. Ampadu, Abdul R. Ofoli,.”A Fire Detection and Control System in Automobiles”. IEEE Industry Applications Magazine, March/April 2019.
Parag Parmar, Ashok M. Sapkal; “Real Time Detection and Reporting of Vehicle Collision”.International Conference on Trends in Electronics and Informatics IEEE 2017.
K. Ramesh Chandra, Pulaparthi Ramyanjani, Shaik Farid, Seelam Himaja, Reddy John Vesli, Sykham Sai Konda Reddy,” Vehicle Accident Location Tracking System using GSM and GPS “. Proceedings of the Fourth International Conference on Smart Electronics and Communication (ICOSEC-2023).
Selva Narendran S, Dr. G Prakash , Aslin Jijo G M, Santhosh Kumar M ‘IOT based Collition detection warning system, Emergency door and seat belt unlock in E-Vehicle”, International Conference on Computer, Power and Communications (ICCPC) IEEE 2022.
J. Joy Mathavan, A. W. Faslan, N. U. A. Basith,W.V.S.D. Wanigasinghe “Hardware Implimentation of Fire Detection , Control and Automatic Door Unlocking System for Automobiles”, Proceedings of the fourth International Conference on Trends in Electronics and Informatics (ICOEI 2020)
Abadal-Salam T. Hussain, Omer K Ahmed, Mohammed Fadhil, Shouket A. Ahmed, Taha A. Taha, Hazry Desa, “GPS and GSM Based Vehicle Tracking System”, 7th International Symposium on Innovative Approaches in Smart Technologies IEEE 2023.
Robert Sowah, Kwame O. Ampadu, Abdul Ofoli, Koudjo Koumadi, Godfrey A. Mills, Joseph Nortey, “Design and Implementation of A Fire Detection and Control System for Automobiles Using Fuzzy Logic”, 2016 IEEE Industry Applications Society Annual Meeting.
Souvik Roy, Akanksha Kumari, Pulakesh Roy, Rajib Banerjee, “An Arduino Based Automatic Accident Detection and Location Communication System”, International Conference for Convergence in Engineering IEEE 2020.
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Copyright (c) 2025 Anu M Ajit , K. A. Aswin, C. U. Anandhakrishna, Krishna V S Ajay
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