Geography

Enhancing Food Security with High-Quality Land-Use and Land-Cover Maps: A Local Model Approach

Document Type

Article

Abstract

In 2023, 58.0% of the African population experienced moderate to severe food insecurity, with 21.6% facing severe food insecurity. Land-use and land-cover maps enable informed resource management, urban planning, environment monitoring to enhance food security. The development of global landcover maps has been facilitated by the increasing availability of earth observation data and advancements in geospatial machine learning. However, these global maps exhibit lower accuracy and inconsistencies in Africa, partly due to the lack of representative training data. To address this issue, we propose a data-centric framework with a teacher-student model setup, which uses diverse data sources of satellite images and label examples to produce local land-cover maps. Our method trains a high-resolution teacher model on images with a resolution of 0.331 m/pixel and a low-resolution student model on publicly available images with a resolution of 10 m/pixel. The student model also utilizes the teacher model's output as its weak label examples as a form of outcome-based knowledge distillation. We evaluated our framework using Murang'a county in Kenya, renowned for its agricultural productivity, as a use case. Our local models achieved higher quality maps, with improvements of 0.14 in the F1 score and 0.21 in Intersection-over-Union, compared to the best global model. Our evaluation also revealed inconsistencies in existing global maps, with a maximum agreement rate of 0.30 among themselves. Our work provides valuable guidance to decisionmakers for driving informed decisions to enhance food security.

Publication Title

IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing

Publication Date

2025

ISSN

1939-1404

DOI

10.1109/JSTARS.2025.3572247

Keywords

Africa, agriculture, AI, food security, land cover

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