文献类型: 外文期刊
第一作者: Gao, Ronghua
作者: Gao, Ronghua;Wang, Rong;Feng, Lu;Li, Qifeng;Wu, Huarui;Wang, Rong;Gao, Ronghua;Wang, Rong;Feng, Lu;Li, Qifeng;Wu, Huarui;Gao, Ronghua;Wang, Rong;Feng, Lu;Li, Qifeng;Wu, Huarui
作者机构:
关键词: Crop disease identification; Image classification; Attention mechanism; Residual neural network
期刊名称:COMPUTERS AND ELECTRONICS IN AGRICULTURE ( 影响因子:5.565; 五年影响因子:5.494 )
ISSN: 0168-1699
年卷期: 2021 年 190 卷
页码:
收录情况: SCI
摘要: Efficient and accurate recognition of crop diseases plays an important role in disease prevention. Aiming at the low accuracy of existing crop disease recognition methods, we improve the attention mechanism and residual neural network (ResNet) to propose a dual-branch, efficient, channel attention (DECA)-based crop disease recognition model. The DECA module uses a dual-branch 1D convolution operation to filter effective feature information. It also introduces an adaptive convolution kernel parameter kand an adaptive parameter alpha to participate in the reverse training of the model so that the model can independently select effective features and establish dependencies between channels. Then, the DECA module is added to the residual module to recalibrate the channel characteristics and improve the characteristic representability of the residual module. Finally, a DECA_ResNet model is proposed to realize crop disease recognition. The crop disease model based on improved attention is verified on the AI Challenger 2018 dataset, PlantVillage dataset, and self-collected cucumber disease dataset; the disease recognition accuracies are 86.35%, 99.74% and 98.54%, respectively, which are higher than those of the ResNet and squeeze-and-excitation network (SENet) before improvement. The recognition accuracy of the proposed model in the PlantVillage dataset is higher than that of existing models. The experimental results show that the proposed plant recognition model with 18 layers (DECA_ResNet18) can achieve a high recognition accuracy. The DECA module can independently select each branch feature without causing a significant increase in the number of parameters, which improves the plant disease recognition accuracy and reduces the extraction of redundant features.
分类号:
- 相关文献
作者其他论文 更多>>
-
Research on Positioning and Navigation System of Greenhouse Mobile Robot Based on Multi-Sensor Fusion
作者:Cheng, Bo;Li, Xiaoyue;Zhang, Ning;Song, Weitang;He, Xueying;Wu, Huarui
关键词:agricultural greenhouse; navigation robot; multi-sensor fusion; ultra-wideband; inertial measurement unit; odometry; rangefinder
-
A Clean and Health-Care-Focused Way to Reduce Indoor Airborne Bacteria in Calf House with Long-Wave Ultraviolet
作者:Ding, Luyu;Yao, Chunxia;Li, Qifeng;Ding, Luyu;Yao, Chunxia;Li, Qifeng;Ding, Luyu;Yao, Chunxia;Li, Qifeng;Zhang, Qing;Wang, Chaoyuan;Shan, Feifei
关键词:closed calf house; emission rate; size distribution; microbial composition; health improvement
-
An FPGA implementation of Bayesian inference with spiking neural networks
作者:Li, Haoran;An, Lingling;Wan, Bo;An, Lingling;Wan, Bo;Fang, Ying;Fang, Ying;Li, Qifeng;Liu, Jian K.
关键词:spiking neural networks; probabilistic graphical models; Bayesian inference; importance sampling; FPGA
-
A Point Cloud Segmentation Method for Pigs from Complex Point Cloud Environments Based on the Improved PointNet++
作者:Chang, Kaixuan;Xu, Xingmei;Li, Qifeng;Ma, Weihong;Xue, Xianglong;Xu, Zhankang;Li, Mingyu;Guo, Yuhang;Meng, Rui;Li, Qifeng;Ma, Weihong;Qi, Xiangyu;Xue, Xianglong;Li, Mingyu;Guo, Yuhang;Meng, Rui;Li, Qifeng;Ma, Weihong;Xue, Xianglong;Li, Mingyu;Guo, Yuhang;Meng, Rui;Li, Qifeng;Xu, Zhankang
关键词:point cloud segmentation; PointNet++; 3D point cloud processing; SoftPool
-
An ultra-lightweight method for individual identification of cow-back pattern images in an open image set
作者:Wang, Rong;Gao, Ronghua;Li, Qifeng;Zhao, Chunjiang;Ding, Luyu;Yu, Ligen;Ma, Weihong;Wang, Rong;Zhao, Chunjiang;Gao, Ronghua;Li, Qifeng;Zhao, Chunjiang;Ding, Luyu;Yu, Ligen;Ma, Weihong;Ru, Lin
关键词:Cow-back pattern; Cow recognition; LightCowsNet; Open image set; Deep learning
-
Soil water movement may regulate soil water consumption and improve cotton yields under different cotton cropping systems
作者:Wu, Fengqi;Guo, Simeng;Huang, Weibin;Wang, Zhanbiao;Feng, Lu;Li, Yabing;Han, Yingchun;Wang, Zhanbiao;Feng, Lu;Wang, Guoping;Li, Xiaofei;Lei, Yaping;Zhi, Xiaoyu;Xiong, Shiwu;Jiao, Yahui;Xin, Minghua;Yang, Beifang;Li, Yabing;Wu, Fengqi;Wu, Fengqi;Guo, Simeng;Li, Yabing;Huang, Weibin;Wang, Zhanbiao
关键词:Cotton; Yield; Soil water movement; Soil water consumption; Planting system
-
Cabbage Transplantation State Recognition Model Based on Modified YOLOv5-GFD
作者:Sun, Xiang;Miao, Yisheng;Wang, Yuansheng;Li, Qingxue;Zhu, Huaji;Wu, Huarui;Sun, Xiang;Miao, Yisheng;Wu, Xiaoyan;Wang, Yuansheng;Li, Qingxue;Zhu, Huaji;Wu, Huarui;Sun, Xiang;Miao, Yisheng;Wang, Yuansheng;Li, Qingxue;Zhu, Huaji;Wu, Huarui;Wu, Xiaoyan
关键词:the state of cabbage transplantation; target detection; deep separable convolution; YOLOv5s
