Enhanced Sea Horse Optimization with Deep Learning-based Multimodal Fusion Technique for Rice Plant Disease Segmentation and Classification

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY
Damien Raj Felicia Rose Anandhi, Selvarajan Sathiamoorthy
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引用次数: 126

Abstract

The detection of diseases in rice plants is an essential step in ensuring healthy crop growth and maximizing yields. A real-time and accurate plant disease detection technique can assist in the development of mitigation strategies to ensure food security on a large scale and economical rice crop protection. An accurate classification of rice plant diseases using DL and computer vision could create a foundation to achieve a site-specific application of agrochemicals. Image investigation tools are efficient for the early diagnosis of plant diseases and the continuous monitoring of plant health status. This article presents an Enhanced Sea Horse Optimization with Deep Learning-based Multimodal Fusion for Rice Plant Disease Detection and Classification (ESHODL-MFRPDC) technique. The proposed technique employed a DL-based fusion process with a hyperparameter tuning strategy to achieve an improved rice plant disease detection performance. The ESHODL-MFRPDC approach used Bilateral Filtering (BF)-based noise removal and contrast enhancement as a preprocessing step. Furthermore, Mayfly Optimization (MFO) with a Multi-Level Thresholding (MLT) based segmentation process was used to recognize the diseased portions in the leaf image. A fusion of three DL models was used for feature extraction, namely Residual Network (ResNet50), Xception, and NASNet. The Quasi-Recurrent Neural Network (QRNN) was used for the recognition of rice plant diseases, and its hyperparameters were set using the ESHO method. The performance of the ESHODL-MFRPDC method was validated using the rice leaf disease dataset from the UCI database. An extensive comparison study demonstrated the promising performance of the proposed method over others.
基于深度学习多模态融合技术的海马优化水稻病害分割与分类
水稻病害的检测是确保作物健康生长和产量最大化的重要步骤。实时和准确的植物病害检测技术可以帮助制定缓解战略,以确保大规模的粮食安全和经济的水稻作物保护。利用深度学习和计算机视觉对水稻病害进行准确分类,可以为实现农用化学品的定点应用奠定基础。图像调查工具对于植物病害的早期诊断和植物健康状况的持续监测是有效的。本文提出了一种基于深度学习的海马优化水稻病害检测与分类(ESHODL-MFRPDC)技术。该技术采用基于dl的融合过程和超参数调谐策略来提高水稻病害检测性能。ESHODL-MFRPDC方法采用基于双边滤波(BF)的去噪和对比度增强作为预处理步骤。在此基础上,采用基于多级阈值分割(MLT)的Mayfly Optimization (MFO)分割方法对叶片图像中的病变部位进行识别。采用残差网络(ResNet50)、Xception和NASNet三种深度学习模型进行特征提取。将拟递归神经网络(QRNN)用于水稻病害的识别,并采用ESHO方法设置其超参数。利用UCI数据库的水稻叶病数据验证了ESHODL-MFRPDC方法的性能。广泛的比较研究表明,所提出的方法优于其他方法。
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来源期刊
Engineering, Technology & Applied Science Research
Engineering, Technology & Applied Science Research ENGINEERING, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
46.70%
发文量
222
审稿时长
11 weeks
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