YOLOv8-Based Deep Learning System for Liver Tumor Detection

Authors

  • Sanusi Abdullahi Sidi

    Department of Computer Science, Federal College of Education Gidan Madi, Sokoto State, Nigeria.
    Author
    https://orcid.org/0009-0007-8278-621X

  • Anas Tukur Balarabe

    Department of Computer Science, Faculty of Computing, Sokoto State University, Sokoto State, Nigeria.
    Author
    https://orcid.org/0000-0001-7739-4616

  • Abdulrashid Sani

    Department of Computer Science, Faculty of Computing, Sokoto State University, Sokoto State, Nigeria.
    Author
    https://orcid.org/0009-0000-9033-786X

  • Bashar Aliyu Yauri

    Department of Computer Science, Faculty of Computing, Abdullahi Fodio University of Science and Technology, Aliero, Kebbi State, Nigeria.
    Author
    https://orcid.org/0000-0002-9953-6213

  • Zahriya L. Hassan

    Department of Computer Science, Faculty of Computing, Sokoto State University, Sokoto State, Nigeria.
    Author

Keywords:

Liver Tumor Detection; YOLOv8; Deep Learning; Medical Image Analysis; Nigerian Healthcare.

Abstract

Early and accurate detection of liver tumors remains a major challenge in medical imaging, This study develops a YOLOv8-based deep learning system for automated liver tumor detection using CT images. A total of 16,404 liver CT slices from the Medical Segmentation Decathlon (MSD) dataset were used to train the proposed model, which was trained and evaluated using several metrics. A callback function was employed to monitor and terminate the training. After 50 epochs, the proposed system achieved a precision, Recall, F1-score and mAP of of 0.96, 0.815, and 0.88, @0.5 of 0.884, demonstrating strong detection accuracy across heterogeneous liver textures and tumor sizes. The model also achieved a fast inference speed of 8.50 ms per image with a lightweight 11.4M-parameter architecture, confirming its suitability for real-time or near-real-time deployment. Qualitative outputs further validated accurate tumor localisation with high confidence scores. These results show that the YOLOv8-based system provides reliable, sensitive, and computationally efficient liver tumor detection, making it a practical decision-support tool for healthcare settings. The study contributes to improving early diagnosis and strengthening clinical imaging workflows.

Author Biographies

  • Sanusi Abdullahi Sidi, Department of Computer Science, Federal College of Education Gidan Madi, Sokoto State, Nigeria.




     

  • Anas Tukur Balarabe, Department of Computer Science, Faculty of Computing, Sokoto State University, Sokoto State, Nigeria.

     

     

  • Abdulrashid Sani, Department of Computer Science, Faculty of Computing, Sokoto State University, Sokoto State, Nigeria.

     

     

  • Bashar Aliyu Yauri, Department of Computer Science, Faculty of Computing, Abdullahi Fodio University of Science and Technology, Aliero, Kebbi State, Nigeria.




     

  • Zahriya L. Hassan, Department of Computer Science, Faculty of Computing, Sokoto State University, Sokoto State, Nigeria.




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Published

2026-02-20

Issue

Vol. 13 No. 2 (2026): VOLUME 13 ISSUE 2

Section

Articles

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