Identification of maize kernel varieties based on interpretable ensemble algorithms

• Published in: Frontiers in plant science Vol. 16; p. 1511097
• Main Authors: Bi, Chunguang, Bi, Xinhua, Liu, Jinjing, Xie, Hao, Zhang, Shuo, Chen, He, Wang, Mohan, Shi, Lei, Song, Shaozhong
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Media S.A 2025
• Subjects: differential evolutionary algorithm; maize kernel; multimodal data; SHAP value; stacking ensemble model; variety identification; SHAP value; variety identification; differential evolutionary algorithm; multimodal data; stacking ensemble model; maize kernel
• ISSN: 1664-462X; 1664-462X
• DOI: 10.3389/fpls.2025.1511097

Maize kernel variety identification is crucial for reducing storage losses and ensuring food security. Traditional single models show limitations in processing large-scale multimodal data. This study constructed an interpretable ensemble learning model for maize seed variety identification through improved differential evolutionary algorithm and multimodal data fusion. Morphological and hyperspectral data of maize samples were extracted and preprocessed, and three methods were used to screen features, respectively. The base learner of the Stacking integration model was selected using diversity and performance indices, with parameters optimized through a differential evolution algorithm incorporating multiple mutation strategies and dynamic adjustment of mutation factors and recombination rates. Shapley Additive exPlanation was applied for interpretable ensemble learning. The HDE-Stacking identification model achieved 97.78% accuracy. The spectral bands at 784 nm, 910 nm, 732 nm, 962 nm, and 666 nm showed positive impacts on identification results. This research provides a scientific basis for efficient identification of different corn kernel varieties, enhancing accuracy and traceability in germplasm resource management. The findings have significant practical value in agricultural production, improving quality management efficiency and contributing to food security assurance.