NutriScreener: Retrieval Augmented Multi-Pose Graph Attention Network for Malnourishment Screening
DOI:
https://doi.org/10.1609/aaai.v40i45.41214Abstract
Child malnutrition remains a global crisis, yet existing screening methods are laborious and poorly scalable, hindering early intervention. In this work, we present NutriScreener, a retrieval-augmented, multi-pose graph attention network that combines CLIP-based visual embeddings, class-boosted knowledge retrieval, and context awareness to enable robust malnutrition detection and anthropometric prediction from children's images, simultaneously addressing generalizability and class-imbalance. In a clinical study, doctors rated it 4.3/5 for accuracy and 4.6/5 for efficiency, confirming its deployment readiness in low-resource settings. NutriScreener was trained and tested on 2,141 children from AnthroVision and additionally evaluated on diverse cross-continent populations, including ARAN and an in-house collected CampusPose dataset, achieving 0.79 recall, 0.82 AUC, and significantly lower anthropometric RMSEs, demonstrating reliable measurement in unconstrained, pediatric settings. Cross-dataset results show up to 25\% recall gain and up to 2.3 cm reduction in head circumference RMSE using demographically matched knowledge bases. NutriScreener offers a scalable and accurate solution for early malnutrition detection in low-resource environments.
Published
2026-03-14
How to Cite
Khan, M., Vatsa, M., Singh, K., & Singh, R. (2026). NutriScreener: Retrieval Augmented Multi-Pose Graph Attention Network for Malnourishment Screening. Proceedings of the AAAI Conference on Artificial Intelligence, 40(45), 38708-38716. https://doi.org/10.1609/aaai.v40i45.41214
Issue
Section
AAAI Special Track on AI for Social Impact I
