Abstract
One of the government's top priorities for creating a safe driving environment is pedestrian safety. To guarantee safety in all respects, many safety measures have been put into place by the government and adopted by the populace. The main goal of this study is to indirectly lower the number of accidents by eliminating their core causes. Careless driving and excessive speeding are the main causes of accidents. This document ensures that a car is designed to travel at a specific pace in each area, keeping it within safe speed limit. This lessens the impact of accidents, including material and human loss. This is accomplished by using the proper microcontroller, RF transmitter, and receiver through a comparison process. The car equipped with a receiver, receives the data signal from the traffic sign board, compares it to the output, and adjusts the speed of the vehicle to a safe level. By doing this, the car is always forced to go at the designated speed, and driving behaviour is altered, reducing the likelihood of accidents. This offers a supplementary safety precaution that focuses on eliminating the primary sources of mishaps.
References
- A.Karthikeyan, G.Arshad Parvez, K.Kishore Kumar, M.Lavanya and R.Mathuprakas, “RFID-Based Automatic Vehicle Speed Control,” JETIR January 2023, Volume 10, Issue 1. F594-f597
- Wei, Conghao, and Ni Lin. "Design and implementation of real-time vehicle speed monitoring device for front and rear vehicles." In Journal of Physics: Conference Series, vol. 2290, no. 1, p. 012018. IOP Publishing, 2022.
- Khan, Shafi Ullah, Noor Alam, Sana Ullah Jan, and In Soo Koo. "IoT-enabled vehicle speed monitoring system." Electronics 11, no. 4 (2022): 614.
- Meenakshi, V., D. Godwin Immanuel, M. Kavitha, V. Vijeya Kaveri, and CR Edwin Selva Rex. "Automatic Speed Controller of Vehicles Using Arduino Board." In 2021 International Conference on Innovative Computing, Intelligent Communication and Smart Electrical Systems (ICSES), pp. 1-5. IEEE, 2021.
- Mikulić, Iva, Igor Bošković, and Goran Zovak. "Effects of driving style and vehicle maintenance on vehicle roadworthiness." Promet-Traffic&Transportation 32, no. 5 (2020): 667-677.
- Sathiskumar, S., G. V. Navean, R. Hari Prakash, and S. Vishnu Praveen. "Automatic vehicle speed control system in a restricted zone." International Journal Of Scientific & Technology Research 9, no. 02 (2020).
- Prakash, S. Arun, Rahul M. Warrier, R. Arun Krishna, and Aswathy K. Nair. "Real time automatic speed control unit for vehicles." In 2018 2nd International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud)(I-SMAC) I-SMAC (IoT in Social, Mobile, Analytics and Cloud)(I-SMAC), 2018 2nd International Conference on, pp. 157-161. IEEE, 2018.
- S Bhargave, Shubhangi Sanjay, Monika Vijay Jadhav, and Aditi Sunil Patil. "Automatic Vehicle Speed Control System." International Journal of Innovative Science and Research Technology 3, no. 1 (2018).
- Mangala, A. G., and R. Balasubramani. "A review on vehicle speed detection using image processing." Int. J. Curr. Eng. Sci. Res 4, no. 11 (2017): 23-28.
- Gandhi, Tarak, and Mohan Manubhai Trivedi. "Pedestrian protection systems: Issues, survey, and challenges." IEEE Transactions on intelligent Transportation systems 8, no. 3 (2007): 413-430.
- Gerdes, J. Christian, and J. Karl Hedrick. "Vehicle speed and spacing control via coordinated throttle and brake actuation." Control Engineering Practice 5, no. 11 (1997): 1607-1614.