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General Information
    • ISSN: 1793-8244 (Print)
    • Abbreviated Title:  J. Adv. Comput. Netw.
    • Frequency: Semiyearly
    • DOI: 10.18178/JACN
    • Editor-in-Chief: Professor Haklin Kimm
    • Managing Editor: Ms. Alyssa Rainsford
    • Abstracting/ Indexing: EBSCO, ProQuest, and Google Scholar.
    • E-mail: editor@jacn.net
    • APC: 500USD
Editor-in-chief
Professor Haklin Kimm
East Stroudsburg University, USA
I'm happy to take on the position of editor in chief of JACN. We encourage authors to submit papers on all aspects of computer networks.

HOME > Archive > 2024 > Volume 12 Number 2 (2024) >
JACN 2024 Vol.12(2): 24-29
doi: 10.18178/jacn.2024.12.2.291

Enhanced Number Plate Recognition for Restricted Area Access Control Using Deep Learning Models and EasyOCR Integration

Adil Mohamed S*, Devisurya V, Gavin S, and Kamal A
Information Technology, Kongu Engineering College, Erode 638080, India
Email: adilmohameds.20it@kongu.edu (A.M.S.); devisuryav.it@kongu.ac.in (D.V.); gavins.20it@kongu.edu (G.S.); kamala.20it@kongu.edu (K.A.)
*Corresponding author

Manuscript received April 24, 2024; revised May 26, 2024; accepted November 7, 2024, published December 24, 2024

Abstract—In today’s security landscape, the demand for dependable license plate detection systems to regulate access to restricted areas is unequivocal. This paper introduces a pioneering approach that harnesses state-of-the-art object detection models, encompassing various YOLO variants (v8, v9), and seamlessly integrates them with EasyOCR to enhance license plate recognition capabilities within restricted zones. The proposed system is meticulously engineered to bolster security protocols by swiftly and accurately identifying license plates in real-time, thereby serving as a formidable deterrent against unauthorized access attempts. Through exhaustive comparative analysis across different YOLO architectures and seamless fusion with EasyOCR, this study demonstrates the unparalleled accuracy and reliability achieved by our methodology. Comprehensive experimentation conducted on benchmark datasets underscores the efficacy of our approach, positioning it as a promising solution for integration into practical security systems, thereby establishing a new standard for license plate detection in restricted area access control.

Keywords—License plate detection, YOLO models, Computer vision, Deep learning, Convolutional neural networks (CNNs), EasyOCR, YOLOv8, YOLOv9, Single Shot Detection (SSD), MobileNetV2, Restricted area vehicle access

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Cite: Adil Mohamed S, Devisurya V, Gavin S, and Kamal A, "Enhanced Number Plate Recognition for Restricted Area Access Control Using Deep Learning Models and EasyOCR Integration," Journal of Advances in Computer Networks, vol. 12, no. 2, pp. 24-29, 2024.

Copyright © 2024 by the authors. This 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 (CC BY 4.0).
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