Your search keyword '"CNN model"' showing total 2 results

1. Optimized Convolutional Neural Network for Robust Crop/Weed Classification.

Author

Panda, Bikramaditya, Mishra, Manoj Kumar, Mishra, Bhabani Shankar Prasad, and Tiwari, Abhinandan Kumar

Subjects

*CONVOLUTIONAL neural networks, *WEEDS, *REAL-time control, *INFORMATION technology, *AUTOMATIC control systems, *CROPS, *WEED control

Abstract

Precision farming makes extensive use of information technology, which also aids agronomists in their work. Weeds typically grow alongside crops, lowering the production of those crops. Weeds are eliminated with the aid of herbicides. Without knowing what kind of weed it is, the pesticide may also harm the crop. The weeds from the farms must be categorized and identified in order to be controlled. Automatic control of weeds is essential to enlarge crop production and also to avoid rigorous hand weeding as labor scarcity has led to a surge in food manufacturing costs, especially in the developed countries such as India. On the other hand, the advancement of an intelligent, reliable automatic system for weed control in real time is still challenging. This paper intends to introduce a new crop/ weed classification model that includes three main phases like pre-processing, feature extraction and classification. In the first phase, the input image is subjected to pre-processing, which deploys a contrast enhancement process. Subsequent to this, feature extraction takes place, where "the features based on gray-level co-occurrence matrix (GLCM) as well as gray-level run-length matrix (GLRM)" are extracted. Then, these extracted features along with the RGB image (totally five channels) are subjected to classification, where "optimized convolutional neural network" (CNN) is employed. In order to make the classification more accurate, the weight and the activation function of CNN are optimally chosen by a new hybrid model termed as the hybridized whale and sea lion algorithm (HW–SLA) model. Finally, the superiority of the adopted scheme is validated over other conventional models in terms of various measures. [ABSTRACT FROM AUTHOR]

Published

2023

2. A deep learning model for mass screening of COVID‐19.

Author

Dhaka, Vijaypal Singh, Rani, Geeta, Oza, Meet Ganpatlal, Sharma, Tarushi, and Misra, Ankit

Subjects

*COVID-19, *DEEP learning, *ARTIFICIAL neural networks, *CONVOLUTIONAL neural networks, *INTELLECTUAL property, *SIGNAL convolution

Abstract

The objective of this research is to develop a convolutional neural network model 'COVID‐Screen‐Net' for multi‐class classification of chest X‐ray images into three classes viz. COVID‐19, bacterial pneumonia, and normal. The model performs the automatic feature extraction from X‐ray images and accurately identifies the features responsible for distinguishing the X‐ray images of different classes. It plots these features on the GradCam. The authors optimized the number of convolution and activation layers according to the size of the dataset. They also fine‐tuned the hyperparameters to minimize the computation time and to enhance the efficiency of the model. The performance of the model has been evaluated on the anonymous chest X‐ray images collected from hospitals and the dataset available on the web. The model attains an average accuracy of 97.71% and a maximum recall of 100%. The comparative analysis shows that the 'COVID‐Screen‐Net' outperforms the existing systems for screening of COVID‐19. The effectiveness of the model is validated by the radiology experts on the real‐time dataset. Therefore, it may prove a useful tool for quick and low‐cost mass screening of patients of COVID‐19. This tool may reduce the burden on health experts in the present situation of the Global Pandemic. The copyright of this tool is registered in the names of authors under the laws of Intellectual Property Rights in India with the registration number 'SW‐13625/2020'. [ABSTRACT FROM AUTHOR]

Published

2021