Real-Time Corn Variety Recognition Using an Efficient DenXt Architecture with Lightweight Optimizations
文献类型: 外文期刊
作者: Zhao, Jin 1 ; Liu, Chengzhong 1 ; Han, Junying 1 ; Zhou, Yuqian 2 ; Li, Yongsheng 2 ; Zhang, Linzhe 1 ;
作者机构: 1.Gansu Agr Univ, Coll Informat Sci & Technol, Lanzhou 730070, Peoples R China
2.Gansu Acad Agr Sci, Crop Res Inst, Lanzhou 730070, Peoples R China
关键词: at nodulation; corn plant; image classification; deep learning; DenseNet 121
期刊名称:AGRICULTURE-BASEL ( 影响因子:3.6; 五年影响因子:3.8 )
ISSN:
年卷期: 2025 年 15 卷 1 期
页码:
收录情况: SCI
摘要: As a pillar grain crop in China's agriculture, the yield and quality of corn are directly related to food security and the stable development of the agricultural economy. Corn varieties from different regions have significant differences inblade, staminate and root cap characteristics, and these differences provide a basis for variety classification. However, variety characteristics may be mixed in actual cultivation, which increases the difficulty of identification. Deep learning classification research based on corn nodulation features can help improve classification accuracy, optimize planting management, enhance production efficiency, and promote the development of breeding and production technologies. In this study, we established a dataset of maize plants at the elongation stage containing 31,000 images of 40 different types, including corn leaves, staminates, and root caps, and proposed a DenXt framework model. Representative Batch Normalization (RBN) is introduced into the DenseNet-121 model to improve the generalization ability of the model, and the SE module and deep separable convolution are integrated to enhance the feature representation and reduce the computational complexity, and the Dropout regularization is introduced to further improve the generalization ability of the model and reduce the overfitting. The proposed network model achieves a classification accuracy of 97.79%, which outperforms VGG16, Mobilenet V3, ResNet50 and ConvNeXt image classification models in terms of performance. Compared with the original DenseNet 121 network model, the DenXt model improved the classification accuracy by 3.23% and reduced the parameter count by 32.65%. In summary, the new approach addresses the challenges of convolutional neural networks and provides easy-to-deploy lightweight networks to support corn variety recognition applications.
- 相关文献
作者其他论文 更多>>
-
Vis-NIR and NIR hyperspectral imaging combined with convolutional neural network with attention module for flaxseed varieties identification
作者:Zhu, Dongyu;Han, Junying;Liu, Chengzhong;Zhang, Jianping;Qi, Yanni
关键词:Hyperspectral imaging; Flaxseed; Identification; Convolutional neural network; Channel attention and transformer modules
-
Potato Plant Variety Identification Study Based on Improved Swin Transformer
作者:Xing, Xue;Liu, Chengzhong;Han, Junying;Ma, Baixiong;Feng, Quan;Qi, Enfang;Qu, Yaying
关键词:deep learning; potato; Swin Transformer; convolutional neural network; variety identification
-
DSD1/ZmICEb regulates stomatal development and drought tolerance in maize
作者:Zhou, Wenqi;Zhou, Yuqian;Li, Yongsheng;He, Haijun;Yang, Yanzhong;Wang, Xiaojuan;Lian, Xiaorong;Dong, Xiaoyun;Ma, Zengke;Yin, Jun;Chen, Liang;Hou, Suiwen
关键词:drought tolerance; maize; stomata; stomatal development;
ZmICEb -
Flaxseed protein content prediction based on hyperspectral wavelength selection with fractional order ant colony optimization
作者:Wang, Bo;Han, Junying;Liu, Chengzhong;Zhang, Jianping;Qi, Yanni
关键词:hyperspectral imaging; wavelength selection; visible-near infrared; protein content; fractional order ant colony optimization
-
LEHP-DETR: A model with backbone improved and hybrid encoding innovated for flax capsule detection
作者:Wang, Changshun;Han, Junying;Liu, Chengzhong;Zhang, Jianping;Qi, Yanni
关键词:
-
Combining Vis-NIR and NIR hyperspectral imaging techniques with a data fusion strategy for rapid and nondestructive determination of multiple nutritional qualities in flaxseed
作者:Zhu, Dongyu;Han, Junying;Liu, Chengzhong;Zhang, Jianping;Qi, Yanni
关键词:Hyperspectral imaging; Flaxseed; Data fusion; Multiple nutritional qualities; Visualization
-
Maize ZmDLR2/BRU1 Is Required for Lateral Root Primordium Emergence by Participating in DNA Repair
作者:Li, Daojun;Wang, Yudong;Li, Yan;Wang, Wenli;Wang, Chunfei;Wang, Xiaoqing;Li, Tong;Li, Yang;Zhang, Xiaomin;Song, Chunpeng;Hu, Zhubing;Li, Daojun;Wang, Yudong;Li, Yan;Wang, Wenli;Wang, Chunfei;Li, Yang;Zhang, Xiaomin;Song, Chunpeng;Hu, Zhubing;Zhou, Wenqi;Zhou, Yuqian;Lian, Xiaorong
关键词:DNA damage; drought; lateral root; ZmDLR2/BRU1
