Benchmarking mobileNetV3 and efficientNet-B0 for corn leaf disease classification with imbalanced dataset using stratified cross-validation

Muhammad Shandy  Alfarizal; Muhamad Kelvin Saputra; Ade Fajar Kurniawan; Khanahaya Adriano Fadhil; Anindita Septiarini; Novianti Puspitasari

doi:10.52465/joscex.v7i2.30

Authors

Muhammad Shandy Alfarizal Department of Informatics, Universitas Mulawarman, Indonesia Author
Muhamad Kelvin Saputra Department of Informatics, Universitas Mulawarman, Indonesia Author
Ade Fajar Kurniawan Department of Informatics, Universitas Mulawarman, Indonesia Author
Khanahaya Adriano Fadhil Department of Informatics, Universitas Mulawarman, Indonesia Author
Anindita Septiarini Department of Informatics, Universitas Mulawarman, Indonesia Author
Novianti Puspitasari Department of Informatics, Universitas Mulawarman, Indonesia Author

DOI:

https://doi.org/10.52465/joscex.v7i2.30

Keywords:

Corn leaf disease, Imbalanced dataset, Transfer learning, Computer vision, Deep learning

Abstract

Corn leaf diseases pose a serious threat to crop productivity, yet most publicly available datasets for this task exhibit severe class imbalance that can mislead conventional accuracy-based evaluation. This study benchmarks two lightweight transfer learning architectures, MobileNetV3-Large and EfficientNet-B0, for multi-class corn leaf disease classification on the Seasonal Corn Leaf Disease Dataset from Mendeley Data 2025 containing 2,943 images across five imbalanced classes. Evaluation was conducted using Stratified 5-Fold Cross-Validation with Macro-F1 as the primary metric, complemented by per-class analysis through aggregated out-of-fold predictions. Class weights were applied to the CrossEntropyLoss function as a fixed experimental control for class imbalance, with the primary objective being the benchmarking of the two architectures rather than the comparison of imbalance-handling strategies. The experimental results revealed that EfficientNet-B0 consistently outperformed MobileNetV3, achieving a Macro-F1 of 0.9778 and an accuracy of 0.9796 with lower variance across folds. Error analysis through the OOF confusion matrix and a misclassification gallery confirmed that persistent errors predominantly occurred between Gray Leaf Spot and Healthy classes, particularly on early-symptom images captured under inconsistent lighting conditions.