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Deep Multibranch Fusion Residual Network for Insect Pest Recognition

Wenjie Liu, Guoqing Wu, Fuji Ren

2020IEEE Transactions on Cognitive and Developmental Systems32 citationsDOIOpen Access PDF

Abstract

Earlier insect pest recognition is one of the critical factors for agricultural yield. Thus, an effective method to recognize the category of insect pests has become significant issues in the agricultural field. In this article, we proposed a new residual block to learn multiscale representation. In each block, it contains three branches: one is parameter-free, and the others contain several successive convolution layers. Moreover, we proposed a module and embedded it into the new residual block to recalibrate the channelwise feature response and to model the relationship of the three branches. By stacking this kind of block, we constructed the deep multibranch fusion residual network (DMF-ResNet). For evaluating the model performance, we first test our model on CIFAR-10 and CIFAR-100 benchmark data sets. The experimental results show that DMF-ResNet outperforms the baseline models significantly. Then, we construct DMF-ResNet with different depths for high-resolution image classification tasks and apply it to recognize insect pests. We evaluate the model performance on the IP102 data set, and the experimental results show that DMF-ResNet could achieve the best accuracy performance than the baseline models and other state-of-the-art methods. Based on these empirical experiments, we demonstrate the effectiveness of our approach.

Topics & Concepts

ResidualComputer scienceBlock (permutation group theory)Convolution (computer science)Benchmark (surveying)Artificial intelligencePattern recognition (psychology)Residual neural networkTest setFeature (linguistics)Feature extractionAlgorithmArtificial neural networkMathematicsLinguisticsGeodesyGeographyGeometryPhilosophySmart Agriculture and AIDate Palm Research StudiesDigital Imaging for Blood Diseases