Development of a YOLO-Based Artificial Intelligence (AI) System for Early Detection of Stunting Risk in Children in 3T Regions of North Sumatra Province

Rizki Ramadhansyah; Septian Simatupang; Rizky Abdillah

doi:10.47709/cnahpc.v7i4.6954

Authors

Rizki Ramadhansyah Politeknik Wilmar Bisnis Indonesia
Septian Simatupang Politeknik Wilmar Bisnis Indonesia, Medan City, Indonesia
Rizky Abdillah Politeknik Wilmar Bisnis Indonesia, Medan City, Indonesia

DOI:

https://doi.org/10.47709/cnahpc.v7i4.6954

Keywords:

Stunting Detection, Artificial Intelligence, YoloV8, Health Issues, 3T Regions

Abstract

Stunting is a chronic nutritional problem that has long-term impacts on children’s physical growth, cognitive development, and future productivity. This condition remains a major challenge in the 3T regions (frontier, outermost, and disadvantaged areas) of North Sumatra Province due to limited healthcare personnel, lack of measurement facilities, and delays in early detection. This study aims to develop an artificial intelligence system integrating YOLOv8 and Random Forest to automatically and in real time detect stunting risk in children. The YOLOv8 model is utilized to detect the presence of a child and estimate height through visual image analysis, while the Random Forest algorithm classifies the risk level based on the Height-for-Age Z-score (HAZ) derived from anthropometric and demographic data. The dataset consists of 29 children from 3T regions, with training and testing splits used to evaluate model performance. The results show that the system achieved an accuracy of 97.8%, precision of 96.5%, recall of 95.9%, F1-score of 96.2%, and an area under the ROC curve (AUC) of 0.98. The system successfully detects children in real time, produces risk classifications consistent with manual measurements, and automatically documents examination data. The novelty of this research lies in the integration of YOLO for automatic height measurement and Random Forest for nutritional classification, which has not been applied in the 3T regional context. This system has the potential to serve as a digital tool for healthcare workers and posyandu cadres to accelerate child nutrition monitoring in an efficient, accurate, and well-documented manner.

Downloads

Download data is not yet available.

References

Anaei, G., Andrews, K. G., Sudfeld, C. R., Fink, G., McCoy, D. C., et al. (2016). Risk factors for childhood stunting in 137 developing countries: A comparative risk assessment analysis at global, regional, and country levels. PLoS Medicine, 13(11), e1002164. https://doi.org/10.1371/journal.pmed.1002164

Beal, T., et al. (2018). A review of child stunting determinants in Indonesia. Maternal & Child Nutrition, 14(4), e12617. https://doi.org/10.1111/mcn.12617

Caraka, R. E., Sari, A., Prasetyo, Y., et al. (2024). Understanding pediatric health trends in Papua: Insights from SUSENAS, RISKESDAS, remote sensing, and its relevance to Prabowo and Gibran’s free lunch and milk program. IEEE Access, 12, 51536–51555. https://doi.org/10.1109/ACCESS.2024.3380018

Dewey, K. G., & Begum, K. (2021). Long-term consequences of stunting in early life. Maternal & Child Nutrition, 7(S3), 5–18.

Guo, J., & Li, B. (2018). The application of medical artificial intelligence technology in rural areas of developing countries. Health Equity, 2(1), 174–181. https://doi.org/10.1089/heq.2018.0037

Huey, S. L., et al. (2016). Stunting: The need for application of advances in technology to understand a complex health problem. eBioMedicine, 6, 26–27.

Karim, H., & Ariatmanto, D. (2024). Methods for development mobile stunting application: A systematic literature review. SinkrOn, 8(1), 244–257. Retrieved from https://www.jurnal.polgan.ac.id/index.php/sinkron/article/view/13123

Kementerian Kesehatan Republik Indonesia. (2023). Profil Kesehatan Indonesia 2022. Jakarta: Kemenkes RI.

Lan, Y., Huang, K., Yang, C., Lei, L., Ye, J., Zhang, J., Zen, W., Zhang, Y., & Deng, J. (2021). Real-time identification of rice weeds by UAV low-altitude remote sensing based on improved semantic segmentation model. Remote Sensing, 13(21), 4370. https://doi.org/10.3390/rs13214370

Lukmana, H. H., Al-Husaini, M., Hoeronis, I., & Puspareni, L. D. (2023). Pengembangan sistem informasi deteksi dini stunting berbasis sistem pakar menggunakan metode forward chaining. Jutisi: Jurnal Ilmiah Teknik Informatika dan Sistem Informasi, 12(3), 1463. https://doi.org/10.35889/jutisi.v12i3.1435

Memorandum. (2025). Nexmedis manfaatkan AI untuk turunkan angka stunting di wilayah terpencil Indonesia. Retrieved from https://memorandum.disway.id/read/117387/nexmedis-manfaatkan-ai-untuk-turunkan-angka-stunting-di-wilayah-terpencil-indonesi

Pahlevi, O., Wulandari, D. A. N., Rahayu, L. K., Leidiyana, H., & Handrianto, Y. (2024). Model klasifikasi risiko stunting pada balita menggunakan algoritma CatBoost classifier. Bulletin CSR, 4(6), 414–421. Retrieved from https://www.hostjournals.com/bulletincsr/article/view/373

Pramana, A. A. G. Y., Maulana, M. F., Tirtayasa, M. C., & Tyas, D. A. (2024). Enhancing early stunting detection: A novel approach using artificial intelligence with an integrated SMOTE algorithm and ensemble learning model. In Proceedings of the 2024 IEEE Conference on Artificial Intelligence (CAI) (pp. 486–493). Singapore. https://doi.org/10.1109/CAI59869.2024.00098

Schoenbuchner, S. M., Dolan, C., Mwangome, M., et al. (2019). The relationship between wasting and stunting: A retrospective cohort analysis of longitudinal data in Gambian children from 1976 to 2016. American Journal of Clinical Nutrition, 110(2), 498–507. https://doi.org/10.1093/ajcn/nqy326

Shaheen, M. Y. (2021). Applications of artificial intelligence (AI) in healthcare: A review. https://doi.org/10.14293/S2199-1006.1.SOR-.PPVRY8K.v1

Timilsina, A. (2024). YOLOv8 architecture explained! Retrieved from https://abintimilsina.medium.com/yolov8-architecture-explained-a5e90a560ce5

Togatorop, V., Rahayuwati, L., & Susanti, R. (2023). Predictor of stunting among children 0–24 months old in Indonesia: A scoping review. Jurnal Obsesi: Jurnal Pendidikan Anak Usia Dini, 7(5), 5654–5674. https://doi.org/10.31004/obsesi.v7i5.5222

UNICEF Indonesia. (2022). Improving child nutrition: The achievable imperative for global progress. New York: UNICEF.

Vilcins, D., Sly, P. D., & Jagals, P. (2018). Environmental risk factors associated with child stunting: A systematic review of the literature. Annals of Global Health, 84(4), 551–562. https://doi.org/10.9204/aogh.2361

YOLO architectures in computer vision: From YOLOv1 to YOLOv8 and YOLO-NAS. (2023). Machine Learning and Knowledge Extraction, 5(4), 1680–1716. Retrieved from https://www.mdpi.com/2504-4990/5/4/83