Disease diagnostic method based on cascade backbone network for apple leaf disease classification
文献类型: 外文期刊
第一作者: Sheng, Xing
作者: Sheng, Xing;Wang, Fengyun;Ruan, Huaijun;Fan, Yangyang;Zheng, Jiye;Sheng, Xing;Zhang, Yangyang;Lyu, Chen
作者机构:
关键词: cascade decoder; cascade backbone network; Transformer; applet; disease classification
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:6.627; 五年影响因子:7.255 )
ISSN: 1664-462X
年卷期: 2022 年 13 卷
页码:
收录情况: SCI
摘要: Fruit tree diseases are one of the major agricultural disasters in China. With the popularity of smartphones, there is a trend to use mobile devices to identify agricultural pests and diseases. In order to identify leaf diseases of apples more easily and efficiently, this paper proposes a cascade backbone network-based (CBNet) disease identification method to detect leaf diseases of apple trees in the field. The method first replaces traditional convolutional blocks with MobileViT-based convolutional blocks particularly for feature extraction. Compared with the traditional convolutional block, the MobileViT-based convolutional block is able to mine feature information in the image better. In order to refine the mined feature information, a feature refinement module is proposed in this paper. At the same time, this paper proposes a cascaded backbone network for effective fusion of features using a pyramidal cascaded multiplication operation. The results conducted on field datasets collected using mobile devices showed that the network proposed in this paper can achieve 96.76% accuracy and 96.71% F1-score. To the best of our knowledge, this paper is the first to introduce Transformer into apple leaf disease identification, and the results are promising.
分类号:
- 相关文献
作者其他论文 更多>>
-
Transparent exopolymer particles (TEP) research: From the ocean to water treatment
作者:Li, Ming;Jia, Xiang;Fan, Wei;Li, Na;Xue, Honghai;Wu, Lei;Lyu, Chen;Shen, Mengnan;Li, Ming;Li, Ming;Jia, Xiang;Fan, Wei
关键词:TEP; Membrane fouling; Carbon cycle; VOSviewer; CiteSpace
-
Pan-genomic analysis highlights genes associated with agronomic traits and enhances genomics-assisted breeding in alfalfa
作者:He, Fei;Zhang, Yangyang;Chen, Lin;Zhang, Fan;Li, Mingna;Wang, Xue;Lv, Huigang;Li, Yajing;Li, Xianyang;Jiang, Xueqian;Xu, Ming;Sod, Bilig;Kang, Junmei;Long, Ruicai;Yang, Qingchuan;Chen, Shuai;Chai, Kun;Kong, Weilong;Qu, Shenyang;Zhang, Xingtan;Zhang, Qing;Zhang, Tiejun;He, Xiaofan;Li, Xiao
关键词:
-
Prediction of Spatial Winter Wheat Yield by Combining Multiscale Time Series of Vegetation and Meteorological Indices
作者:Xu, Hao;Wang, Lei;Feng, Wenjie;Song, Hualu;Fan, Yangyang;Qi, Kangkang;Liang, Zhichao;Wang, Shuai;Yin, Hongfei;Liu, Jia;Li, Wenjie;Zhang, Xiaohu;Zhang, Rongjuan
关键词:crop yield; phenology; random forest; long short-term memory
-
Novel method for selecting the regions of interest in hyperspectral images of apples with random poses on the sorting line
作者:Qi, Kangkang;Wang, Shuai;Mu, Yuanjie;Wang, Fengyun;Fan, Yangyang;Feng, Wenjie;Wu, Wenbin;Song, Qian;Fu, Longsheng
关键词:apple; hyperspectral imaging; nondestructive detection; region of interest; sugar content
-
Conductive MXene/Polymer Composites for Transparent Flexible Supercapacitors
作者:Ren, Shan;Pan, Xiangyu;Zhang, Yangyang;Xu, Jianlong;Zhang, Xuanyi;Gao, Xu;Zhong, Yanan;Wang, Sui-Dong;Ren, Shan;Liu, Zhifang;Li, Xian;Chen, Sheng;Wang, Sui-Dong
关键词:composite materials; conductive polymer; MXene; supercapacitors; transparent flexible devices
-
Genome-Wide Identification, Phylogenetic and Expression Analysis of Expansin Gene Family in Medicago sativa L.
作者:Li, Yajing;Zhang, Yangyang;Cui, Jing;Wang, Xue;Li, Mingna;Zhang, Lili;Kang, Junmei;Zhang, Yangyang
关键词:alfalfa; Expansins; genome-wide identification; abiotic stresses
-
Biocontrol activity and potential mechanism of volatile organic compounds from Aspergillus niger strain La2 against pear Valsa canker
作者:Hou, Hui;Shi, Bingke;Yuan, Hongbo;Wang, Zhuoni;Fan, Yangyang;Qin, Genhong;Li, Xiaoqian;Wang, Li;Tu, Hongtao;Hou, Hui;Yuan, Hongbo;Tu, Hongtao
关键词:pear Valsa canker; Aspergillus niger; volatile organic compounds; 4-methyl-1-pentanol
