Recent Trends in Information Technology and its Application (e-ISSN:2584-0991)

In the context of today's crowded urban environments, the growing issue of insufficient parking availability due to the rising number of vehicles and inadequate infrastructure poses significant challenges. This paper tackles the problems of arriving at parking facilities only to find no spaces and struggling to locate open parking spots within extensive lots, resulting in time wastage and driver frustration. To alleviate these difficulties, the implementation of an efficient Smart Parking Management System is required for various parking facilities. This system aims to streamline and simplify the parking experience, minimizing time wastage, and providing real-time information on available parking spaces. The Smart Parking project leverages an array of technologies, including Arduino micro-controllers, a user-friendly display system, and servo motors, to automate the identification and management of open parking slots. Furthermore, the system offers real-time parking space information through a 16x2 LCD display located outside the parking facility, enhancing user convenience by eliminating the need to enter the facility in search of parking. Its adaptability and potential for further enhancements make it a promising solution for addressing contemporary urban parking challenges.

Sarangi, M., Das, S. K., & Babu, K. S. (2019, July). Smart parking system: survey on sensors, technologies and applications. In 2019 1st International Conference on Advances in Information Technology (ICAIT) (pp. 250-255). IEEE.

Cenkeramaddi, L. R., Bhatia, J., Jha, A., Vishkarma, S. K., & Soumya, J. (2020, November). A survey on sensors for autonomous systems. In 2020 15th IEEE Conference on Industrial Electronics and Applications (ICIEA) (pp. 1182-1187). IEEE.

Nayak, M., & Dass, A. K. (2023). GSM and Arduino based Smart Home Safety and Security System. Recent Trends in Information Technology and its Application, 6(1), 20-25.

H. Chaudhary, P. Bansal and B. Valarmathi, "Advanced CAR parking system using Arduino," 2017 4th International Conference on Advanced Computing and Communication Systems (ICACCS), Coimbatore, India, 2017, pp. 1-5, doi: 10.1109/ICACCS.2017.8014701.

Nayak, M., Dass, A. K., & Kshatri, S. S. (2023). An AI-Based Efficient Model for the Classification of Traffic Signals Using Convolutional Neural Network. In Building Secure Business Models Through Blockchain Technology: Tactics, Methods, Limitations, and Performance (pp. 20-35). IGI Global.

Dass, A. K., & Das, S. K. (2023). An Optimal Data Communication System in Wireless Sensor Network Using Artificial Neural Network. In Constraint Decision-Making Systems in Engineering (pp. 120-134). IGI Global.

Dass, A. K., Das, S., & Pattanaik, S. R. (2023). An Intelligent Agent-Based Localization System in Underwater Wireless Sensor Networks. In Constraint Decision-Making Systems in Engineering (pp. 135-155). IGI Global.

https://techatronic.com/automatic-car-parking-system-project-using-arduino/

Dogaroglu, B., Caliskanelli, S. P., & Tanyel, S. (2021). Comparison of intelligent parking guidance system and conventional system with regard to capacity utilisation. Sustainable Cities and Society, 74, 103152.

Sahoo, M. K., Dash, A. K., Senapati, S. K., Pavani, B., Deepak, P., Dash, S., & Akshaykumar, G. (2023). IoT-Based Traffic and Router Management System for Drivers. Intelligent Technologies for Sensors: Applications, Design, and Optimization for a Smart World, 199.