Today the rate of vehicle theft is very high. For this reason, vehicle security systems have become one of the main requirements for vehicle users. As the frequency of accidents increases due to traffic jams, the safety of the vehicle is of paramount importance to the vehicle owner. The cost of the anti-theft systems is also expensive; hence an effective alternative is needed. This paper aims to build a vehicle safety system by using various small-size, low-power, and low-cost devices compared with the vehicle price. The proposed system helps users by controlling the vehicle’s speed, as well as opening and closing the vehicle doors and the driver’s window and controlling the fuel pump, in addition to transferring photos and videos from inside the vehicle through a simple application. An anti-theft system based on a Wi-Fi modem and Raspberry Pi 4 Model has been implemented and tested in a modern vehicle where the vehicle’s speed was controlled via Raspberry Pi 4B Kit with MICRO SERVO SG90 and potentiometer. Relays were used to manage the vehicle doors, driver’s window, and fuel pump. Live photos will be taken from the camera installed inside the vehicle. The proposed system is controlled by creating a driver application with various options using Node-Red (Nick O’Leary and Dave Conway-Jones-Rapid Event Developer), which is controlled on the driver’s mobile phone.
Cite this paper
Salih, T. A. and Asaad, A. M. (2022). Design and Implementation of Anti-Theft Speed Control System Using Wi-Fi and Raspberry Pi 4 Technology. Open Access Library Journal, 9, e8882. doi: http://dx.doi.org/10.4236/oalib.1108882.
Liu, B., Liu, N., Chen, G., Dai, X. and Liu, M. (2018) A Low-Cost Vehicle Anti-Theft System Using Obsolete Smartphone. Mobile Information Systems, 2018, Article ID: 6569826. https://doi.org/10.1155/2018/6569826
Safdar, S., Zeb, A., Khan, A. and Kaleem, Z. (2018) Android Based Vehicle Tracking System. EAI Endorsed Transactions on Energy Web and Information Technology, 5, e5. https://doi.org/10.4108/eai.10-4-2018.154447
Raharja, N.M., Fathansyah, M.A. and Chamim, A.N.N. (2022) Vehicle Parking Security System with Face Recognition Detection Based on Eigenface Algorithm. Journal of Robotics and Control (JRC), 3, 78-85.
Aziz, T., Faisal, T.M., Ryu, H. and Hossain, Md.N. (2021) Vehicle Speed Control and Security System. International Conference on Electronics, Information and Communications (ICEIC), Jeju, 31 January-3 February 2021, 1-4.
Dhamdhere, V.V. and Kulkarni, N. (2019) Raspberry Pi Based Intelligent Car Anti-Theft System through Face Recognition Using Fingerprint Detection. International Journal of Advance Engineering and Research Development, 6, 7-9.
Engiz, B.K. and Bashir, R. (2019) Implementation of a Speed Control System Us-ing Arduino. 6th International Conference on Electrical and Electronics Engi-neering (ICEEE), Istanbul, 16-17 April 2019, 294-297.
Haider, A., Khan, A.A.H. and Denai, M. (2017) A Smart Wireless Car Ignition System for Vehicle Security. Advances in Automobile Engineering, 6, Article ID: 1000169. https://doi.org/10.4172/2167-7670.1000169
Noman, A.T., Hossain, S., et al. (2018) Design and Implementation of Microcon-troller Based Anti-Theft Vehicle Security System Using GPS, GSM and RFID. 4th International Conference on Electrical Engineering and Information & Commu-nication Technology (iCEEiCT), Dhaka, 13-15 September 2018, 97-101.
Reddy, K.A., Patel, S., Bharath, K.P. and Kumar, M.R. (2019) Embedded Vehicle Speed Control and Over-Speed Violation Alert Using IoT. Innovations in Power and Advanced Computing Technologies (i-PACT), Vellore, 22-23 March 2019, 1-5.
Hosny, K.M., Magdi, A., Lashin, N.A., El-Komy, O. and Salah, A. (2022) Robust Color Image Watermarking Using Multi-Core Raspberry Pi Cluster. Multimedia Tools and Application, 81, 17185-17204.
Jaladi, A.R., Khithani, K., Pawar, P., Malvi, K. and Sahoo, G. (2017) Environmental Monitoring Using Wireless Sensor Networks (WSN) Based on IOT. International Research Journal of Engineering and Technology, 4, 1371-1378.
Setiawan, F.B., Siva, P.M., Pratomo, L.H. and Riyadi, S. (2021) Design and Implementation of Smart Forklift for Automatic Guided Vehicle Using Raspberry Pi 4. Journal of Robotics and Control (JRC), 2, 508-514.
Irawan, Y. and Wahyuni, R. (2021) Electronic Equipment Control System for Households by Using Android Based on IoT (Internet of Things). Journal of Physics: Conference Series, 1783, Article ID: 012094.
Visan, I. and Diaconu, E.M. (2021) Home Automation System Using ESP8266 Microcontroller and Blynk Applications. Scientific Bulletin of the Electrical Engi-neering Faculty, 21, 59-62. https://doi.org/10.2478/sbeef-2021-0024
Lekic, M. and Gardasevic, G. (2018) IoT Sensor Integration to Node-RED Plat-form. 17th International Symposium INFOTEH-JAHORINA, East Sarajevo, 21-23 March 2018, 1-5. https://doi.org/10.1109/INFOTEH.2018.8345544
Macheso, P., Manda, T.D., Chisale, S., Dzupire, N., Mlatho, J. and Mukanyiligira, D. (2021) Design of ESP8266 Smart Home Using MQTT and Node-RED. International Conference on Artificial Intelligence and Smart Systems (ICAIS), Coimbatore, 25-27 March 2021, 502-505. https://doi.org/10.1109/ICAIS50930.2021.9396027
Kodali, R.K. and Anjum, A. (2018) IoT Based HOME Automation Using Node-RED. Second International Conference on Green Computing and Internet of Things (ICGCIoT), Bangalore, 16-18 August 2018, 386-390.