Sistem Pembacaan Plat Nomor Otomatis untuk Kendali Akses Parkir Menggunakan YOLOv8 dan Tesseract

Authors

  • Muhammad Faiz Anindyo Widodo Tekom University
  • Anggunmeka Luhur Prasasti Tekom University
  • Faisal Candrasyah Hasibuan Tekom University

Abstract

Abstrak — Sistem parkir konvensional menghadapi tantangan dalam efisiensi dan keamanan, terutama dalam pencatatan data dan verifikasi akses manual. Untuk mengatasi masalah ini, dikembangkan sebuah simulasi sistem parkir cerdas berbasis Internet of Things (IoT) yang mengintegrasikan teknologi Automatic Number Plate Recognition (ANPR) sebagai mekanisme verifikasi utama untuk pembukaan palang otomatis. Sistem ini memanfaatkan model deteksi objek YOLOv8 untuk mengidentifikasi plat nomor kendaraan dan Tesseract OCR untuk mengekstrak karakternya. Pengujian dilakukan pada prototipe skala miniatur yang menggunakan Raspberry Pi 4 sebagai pusat kendali dan kamera webcam. Fokus pengujian meliputi akurasi pembacaan plat nomor format 7 dan 8 digit serta waktu pemrosesan yang dibutuhkan. Hasil simulasi menunjukkan bahwa sistem ANPR mampu menjalankan fungsinya secara efektif dalam lingkungan terkendali, dengan rata-rata waktu pemrosesan per plat nomor berada dalam kisaran 3-4 detik, meskipun akurasi bervariasi antara format plat. Analisis ini membuktikan kelayakan pendekatan berbasis machine learning sebagai fondasi teknis untuk sistem parkir otomatis yang efisien dan aman di masa mendatang. Kata kunci— ANPR, YOLOv8, Tesseract OCR, Raspberry Pi, Simulasi, Parkir Otomatis

References

L. Wang, J. Chen, C. Zhang, X. Cao, and J. Chen,

“Vehicle delay model applied to dynamic and static

traffic impact analysis of large parking lots,”

Applied Sciences Switzerland, vol. 11, no. 20, 2021,

doi: 10.3390/app11209771.

T. P. Hong, A. C. Soh, H. Jaafar, and A. J. Ishak,

“Real-time monitoring system for parking space

management services,” in Proceedings - 2013 IEEE

Conference on Systems, Process and Control,

ICSPC 2013, 2013, pp. 149–153. doi:

1109/SPC.2013.6735122.

A. Badr, M. M. Abdel, A. M. Thabet, and A. M.

Abdelsadek, “Automatic number plate recognition

system,” Annals of the University of Craiova

Mathematics and Computer Science Series, vol. 38,

no. 1, pp. 62–71, 2011.

N. Bhaskar, P. T. Waghmare, A. K. Puttur, and O.

V. Pereira, Advanced smart parking management

system integrating deep learning and optical

character recognition. 2025. doi:

1201/9781003616252-59.

I. Valova, T. Kaneva, and N. Valov, “Conceptual

Model of a Parking System with Automatic License

Plate Recognition,” in IEEE International

Symposium for Design and Technology of

Electronics Packages, SIITME - Conference

Proceedings, 2024, pp. 168–173. doi:

1109/SIITME63973.2024.10814907.

M. Talib, J. Suad, and A. H. Y. Al-Noori,

“YOLOv8-CAB: Improved YOLOv8 for Real-time

Object Detection,” Karbala International Journal of

Modern Science, vol. 10, no. 1, pp. 56–68, 2024,

doi: 10.33640/2405-609X.3339.

A. Tupsounder, R. Patwari, R. Ambati, A.

Chavarkar, and K. Shirsat, “Automatic Recognition

of Non-standard Number Plates using YOLOv8,” in

Proceedings of the 18th INDIAcom; 2024 11th

International Conference on Computing for

Sustainable Global Development, INDIACom 2024,

, pp. 314–319. doi:

23919/INDIACom61295.2024.10498740.

M. Pallawabonang, M. Adnan, A. Mukmin, S.

Zuhriyah, E. Prakasa, and Yuyun, “Leveraging

YOLOv8 for Real-Time Parking Space Detection,”

in 2024 Beyond Technology Summit on Informatics

International Conference Bts I2c 2024, 2024, pp.

–444. doi: 10.1109/BTSI2C63534.2024.10942123.

D. Zhang et al., “Optimization of YOLOv8 model

based on pruning,” in Proceedings of SPIE the

International Society for Optical Engineering, 2024.

doi: 10.1117/12.3049687.

F. Lubis et al., “Integrated Smart Parking System

Using Internet of Things (IoT) and Digital Image

Processing with Faster Region Based Convolutional

Neural Network (Faster R-CNN) and Optical

Character Recognition (OCR),” in Proceedings -

ELTICOM 2024: 8th International Conference on

Electrical, Telecommunication and Computer

Engineering: Tech-Driven Innovations for Global

Organizational Resilience, 2024, pp. 342–348. doi:

1109/ELTICOM64085.2024.10864954.

H. Santhi, G. Gopichand, and P. Gayathri,

“Automated smart parking system using IoT,”

Journal of Advanced Research in Dynamical and

Control Systems, vol. 10, no. 9 Special, pp. 1110–

, 2018.

C. Ajchariyavanich et al., “Park king: An IoT-based

smart parking system,” in 5th IEEE International

Smart Cities Conference, ISC2 2019, 2019, pp. 729–

doi: 10.1109/ISC246665.2019.9071721.

N. Shaikh, H. Shah, and H. Sharma, IoT-Based

Smart Car Parking Agent Using Raspberry Pi, vol.

2024. doi: 10.1007/978-981-97-1323-3_18.

N. Anggraini, A. F. Zein, L. K. Wardhani, and K.

Fadhillah, “Smart Parking System With Background

Subtraction Algorithm Using Progressive Web Apps

(PWAs) Technology on Raspberry Pi 4,” in 2023

th International Conference on Cyber and IT

Service Management Citsm 2023, 2023. doi:

1109/CITSM60085.2023.10455254.

K. V. Jobin, C. V. Jiji, and P. R. Anurenjan,

“Automatic number plate recognition system using

modified stroke width transform,” in 2013 4th

National Conference on Computer Vision, Pattern

Recognition, Image Processing and Graphics,

NCVPRIPG 2013, 2013. doi:

1109/NCVPRIPG.2013.6776246.

M. Yulianti, C. Suhery, I. Ruslianto, J. Sistem

Komputer, and F. H. MIPA Universitas

Tanjungpura Jl Hadari Nawawi, “PENDETEKSI

TEMPAT PARKIR MOBIL KOSONG

MENGGUNAKAN METODE CANNY,” 2017.

Downloads

Published

2025-12-04

Issue

Vol. 12 No. 5 (2025): Oktober 2025

Section

Prodi S1 Teknik Komputer