Smart Parking System Using Arduino and Ultrasonic Sensors

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Soumyadeep Mondal

Smart Parking System Using Arduino and Ultrasonic Sensors

Authors: Soumyadeep Mondal

Unique Paper ID: 176241
PageNo: 5553-5561

Keywords: Smart Parking Arduino Uno Ultrasonic Sensors Automation IoT Traffic Management.

Abstract:
Effective parking management has become a major concern due to the quick rise in urbanisation and car ownership. Conventional parking structures frequently cause traffic jams, wasted time, and annoyance for drivers. In order to solve these problems, this study proposes a Smart Parking System that automates the parking spot detection process by utilising an Arduino Uno, ultrasonic sensors, buzzers, and an LCD display. To determine whether cars are in their allotted parking spaces, the system makes use of ultrasonic sensors. Every sensor calculates slot occupancy based on a predetermined threshold after continually measuring the distance from an obstacle (vehicle). An Arduino microcontroller processes the gathered data and updates the parking availability in real time on an LCD display. Buzzers also serve as an alarm system that shows the status of occupied slots, making it easier for drivers to find open spots. To confirm the correctness and responsiveness of the suggested system, TinkerCAD was used to simulate it and test it in various scenarios. The technology detects parked cars with little error and gives quick feedback, according on the results. This automated technology improves overall efficiency, decreases parking time, and requires less human intervention than traditional parking systems. This study demonstrates how smart parking systems can help reduce traffic and enhance space utilisation in urban settings. To further expand the system’s capabilities, future enhancements might include mobile app connectivity, IoT integration for remote monitoring, and AI-based slot prediction.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{176241,
        author = {Soumyadeep Mondal},
        title = {Smart Parking System Using Arduino and Ultrasonic Sensors},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {11},
        pages = {5553-5561},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=176241},
        abstract = {Effective parking management has become a major concern due to the quick rise in urbanisation and car ownership. Conventional parking structures frequently cause traffic jams, wasted time, and annoyance for drivers. In order to solve these problems, this study proposes a Smart Parking System that automates the parking spot detection process by utilising an Arduino Uno, ultrasonic sensors, buzzers, and an LCD display. To determine whether cars are in their allotted parking spaces, the system makes use of ultrasonic sensors. Every sensor calculates slot occupancy based on a predetermined threshold after continually measuring the distance from an obstacle (vehicle). An Arduino microcontroller processes the gathered data and updates the parking availability in real time on an LCD display. Buzzers also serve as an alarm system that shows the status of occupied slots, making it easier for drivers to find open spots. To confirm the correctness and responsiveness of the suggested system, TinkerCAD was used to simulate it and test it in various scenarios. The technology detects parked cars with little error and gives quick feedback, according on the results. This automated technology improves overall efficiency, decreases parking time, and requires less human intervention than traditional parking systems. This study demonstrates how smart parking systems can help reduce traffic and enhance space utilisation in urban settings. To further expand the system’s capabilities, future enhancements might include mobile app connectivity, IoT integration for remote monitoring, and AI-based slot prediction.},
        keywords = {Smart Parking, Arduino Uno, Ultrasonic Sensors, Automation, IoT, Traffic Management.},
        month = {April},
        }

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Cite This Article

Mondal, S. (2025). Smart Parking System Using Arduino and Ultrasonic Sensors. International Journal of Innovative Research in Technology (IJIRT), 11(11), 5553–5561.

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