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SEV‐Net: Residual network embedded with attention mechanism for plant disease severity detection

Yun Zhao, Jiagui Chen, Xing Xu, Jingsheng Lei, Wujie Zhou

2021Concurrency and Computation Practice and Experience48 citationsDOI

Abstract

Summary Early and accurate assessment of plant disease severity is key to preventing disease attack. Traditional detection methods rely on manual vision to distinguish between types of disease infection, but this is time consuming, laborious and inaccurate. To address this problem, this paper proposes a deep learning‐based attentional network model (SEV‐Net) for plant disease severity identification and classification. The network embeds the improved channel and spatial attention module into the residual block of ResNet. The proposed attention module reduces the redundancy of information between channels and focuses on the most information‐rich regions of the feature map. In this experiment, SEV‐Net achieved an accuracy of 97.59% and 95.37% for multiple and single plant (Tomato) disease severity classification, which was better than existing attentional networks (SE‐Net and CBAM). Moreover, the combination of visualization techniques showed that SEV‐Net was adept at distinguishing small variations between plant diseases, proving the feasibility and effectiveness of the network. Furthermore, we have also designed and developed an Android application for real‐time classification of plant disease severity. The system deploys the SEV‐Net network model, which has higher classification accuracy and faster recognition speed.

Topics & Concepts

Computer scienceResidualArtificial intelligenceRedundancy (engineering)Plant diseaseMachine learningNet (polyhedron)VisualizationData miningPattern recognition (psychology)AlgorithmGeometryOperating systemBiotechnologyBiologyMathematicsSmart Agriculture and AIPlant Virus Research StudiesBanana Cultivation and Research
SEV‐Net: Residual network embedded with attention mechanism for plant disease severity detection | Litcius