Plant Leaf Disease Detection Using Integrated Color and Texture Features
In the realm of precision agriculture, a pivotal challenge lies in the detection, identification, and grading of crop diseases. This multifaceted task necessitates the involvement of expert human resources and time-sensitive actions aimed at mitigating the risks of production losses and the rapid sp...
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| Format: | Article |
| Language: | English |
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Technoscience Publications
2024-12-01
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| Series: | Nature Environment and Pollution Technology |
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| Online Access: | https://neptjournal.com/upload-images/(16)B-4170.pdf |
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| author | Jayamala Kumar Patil and Vinay Sampatrao Mandlik |
| author_facet | Jayamala Kumar Patil and Vinay Sampatrao Mandlik |
| author_sort | Jayamala Kumar Patil and Vinay Sampatrao Mandlik |
| collection | DOAJ |
| description | In the realm of precision agriculture, a pivotal challenge lies in the detection, identification, and grading of crop diseases. This multifaceted task necessitates the involvement of expert human resources and time-sensitive actions aimed at mitigating the risks of production losses and the rapid spread of diseases. The effectiveness of the majority of developed systems in this domain hinges on the quality of image features and disease segmentation accuracy. This paper presents a comprehensive research endeavor in the domain of Content-Based Image Retrieval (CBIR), specifically tailored to detect and classify leaf diseases. The proposed system integrates both color and texture features to underpin its functionality, providing a robust framework for accurate disease detection. By leveraging advanced image processing techniques, the system enhances the precision of disease identification, which is crucial for timely and effective intervention in agricultural practices. To evaluate the system’s performance, maize leaves afflicted by rust and blight serve as prime candidates for testing. These diseases were chosen due to their prevalence and significant impact on crop yield. The experimental results demonstrate that the developed system consistently excels in its disease detection and identification tasks, boasting an impressive efficiency rate of 98.33%. This high level of accuracy underscores the potential of the system to be a valuable tool in precision agriculture, aiding farmers and agricultural experts in maintaining healthy crops and optimizing production. The integration of color and texture features not only improves the detection accuracy but also provides a comprehensive understanding of the disease characteristics. This dual-feature approach ensures that the system can distinguish between different types of diseases with high precision, making it a versatile solution for various agricultural applications. The findings of this research highlight the importance of advanced image analysis techniques in enhancing the capabilities of disease detection systems, paving the way for more efficient and effective agricultural practices. |
| format | Article |
| id | doaj-art-c3f09def62d74154a958cc93c2d0232e |
| institution | Kabale University |
| issn | 0972-6268 2395-3454 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Technoscience Publications |
| record_format | Article |
| series | Nature Environment and Pollution Technology |
| spelling | doaj-art-c3f09def62d74154a958cc93c2d0232e2025-01-20T07:13:36ZengTechnoscience PublicationsNature Environment and Pollution Technology0972-62682395-34542024-12-012342101211310.46488/NEPT.2024.v23i04.016Plant Leaf Disease Detection Using Integrated Color and Texture FeaturesJayamala Kumar Patil and Vinay Sampatrao MandlikIn the realm of precision agriculture, a pivotal challenge lies in the detection, identification, and grading of crop diseases. This multifaceted task necessitates the involvement of expert human resources and time-sensitive actions aimed at mitigating the risks of production losses and the rapid spread of diseases. The effectiveness of the majority of developed systems in this domain hinges on the quality of image features and disease segmentation accuracy. This paper presents a comprehensive research endeavor in the domain of Content-Based Image Retrieval (CBIR), specifically tailored to detect and classify leaf diseases. The proposed system integrates both color and texture features to underpin its functionality, providing a robust framework for accurate disease detection. By leveraging advanced image processing techniques, the system enhances the precision of disease identification, which is crucial for timely and effective intervention in agricultural practices. To evaluate the system’s performance, maize leaves afflicted by rust and blight serve as prime candidates for testing. These diseases were chosen due to their prevalence and significant impact on crop yield. The experimental results demonstrate that the developed system consistently excels in its disease detection and identification tasks, boasting an impressive efficiency rate of 98.33%. This high level of accuracy underscores the potential of the system to be a valuable tool in precision agriculture, aiding farmers and agricultural experts in maintaining healthy crops and optimizing production. The integration of color and texture features not only improves the detection accuracy but also provides a comprehensive understanding of the disease characteristics. This dual-feature approach ensures that the system can distinguish between different types of diseases with high precision, making it a versatile solution for various agricultural applications. The findings of this research highlight the importance of advanced image analysis techniques in enhancing the capabilities of disease detection systems, paving the way for more efficient and effective agricultural practices.https://neptjournal.com/upload-images/(16)B-4170.pdfplant disease detection, content-based image retrieval cbir, ycbcr histogram, lggp histogram, advanced image analysis, maize leaf rust |
| spellingShingle | Jayamala Kumar Patil and Vinay Sampatrao Mandlik Plant Leaf Disease Detection Using Integrated Color and Texture Features Nature Environment and Pollution Technology plant disease detection, content-based image retrieval cbir, ycbcr histogram, lggp histogram, advanced image analysis, maize leaf rust |
| title | Plant Leaf Disease Detection Using Integrated Color and Texture Features |
| title_full | Plant Leaf Disease Detection Using Integrated Color and Texture Features |
| title_fullStr | Plant Leaf Disease Detection Using Integrated Color and Texture Features |
| title_full_unstemmed | Plant Leaf Disease Detection Using Integrated Color and Texture Features |
| title_short | Plant Leaf Disease Detection Using Integrated Color and Texture Features |
| title_sort | plant leaf disease detection using integrated color and texture features |
| topic | plant disease detection, content-based image retrieval cbir, ycbcr histogram, lggp histogram, advanced image analysis, maize leaf rust |
| url | https://neptjournal.com/upload-images/(16)B-4170.pdf |
| work_keys_str_mv | AT jayamalakumarpatilandvinaysampatraomandlik plantleafdiseasedetectionusingintegratedcolorandtexturefeatures |