TY - GEN
T1 - Automatic Detection of Leaf Diseases in Hibiscus Plants Using Live Image Dataset with User Interface
AU - Sriram, Suthir
AU - Jaishwal, Richa Kumari
AU - Regmi, Shudarsan
AU - Nivethitha, V.
AU - Thangavel, M.
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - The agriculture sector globally faces significant challenges due to plant diseases, with ensuring crop loss and economic barriers. Hibiscus plants, grown as both ornamental and medicinal plants, are affected by diseases that can damage the various parts of the plant and reduce their growth and yield. In this research, we suggest an approach to automatically identify hibiscus plant diseases, using deep-learning strategies. Our proposed work involves the development of a Convolutional Neural Network model trained on an extensive dataset that included images of hibiscus leaves infected with plant diseases, as well as images of healthy hibiscus leaves. Our model leveraged Transfer learning and it showed promise in the detection of the disease and the type of disease in the hibiscus leaves. The significant advantage of this approach is the early detection of hibiscus plant diseases, which is an opportunity for hibiscus disease management and loss reduction and improved health of the plant. The novelty of our approach lies in its focus on the distinct visual markers of hibiscus plant diseases, such as discoloration, shrinkage, and fungal spores like Anthracnose and leaf rust, which are critical in determining plant health. Also, it facilitates early detection, enabling timely intervention with minimal pesticide use. This ensures healthier plantations and contributes to sustainable cultivation practices. Furthermore, the insights gained from this study can serve as a blueprint for addressing plant diseases in other agricultural species, thereby advancing global food security. Our model achieved a high test accuracy of 97.21%, with a precision of 96.88%, recall of 96.45%, and an F1 score of 96.66%. Additionally, the model demonstrated robust performance in distinguishing between healthy and diseased leaves, as evidenced by a ROC-AUC score of 98.50%, underscoring its effectiveness in disease detection for hibiscus plants.
AB - The agriculture sector globally faces significant challenges due to plant diseases, with ensuring crop loss and economic barriers. Hibiscus plants, grown as both ornamental and medicinal plants, are affected by diseases that can damage the various parts of the plant and reduce their growth and yield. In this research, we suggest an approach to automatically identify hibiscus plant diseases, using deep-learning strategies. Our proposed work involves the development of a Convolutional Neural Network model trained on an extensive dataset that included images of hibiscus leaves infected with plant diseases, as well as images of healthy hibiscus leaves. Our model leveraged Transfer learning and it showed promise in the detection of the disease and the type of disease in the hibiscus leaves. The significant advantage of this approach is the early detection of hibiscus plant diseases, which is an opportunity for hibiscus disease management and loss reduction and improved health of the plant. The novelty of our approach lies in its focus on the distinct visual markers of hibiscus plant diseases, such as discoloration, shrinkage, and fungal spores like Anthracnose and leaf rust, which are critical in determining plant health. Also, it facilitates early detection, enabling timely intervention with minimal pesticide use. This ensures healthier plantations and contributes to sustainable cultivation practices. Furthermore, the insights gained from this study can serve as a blueprint for addressing plant diseases in other agricultural species, thereby advancing global food security. Our model achieved a high test accuracy of 97.21%, with a precision of 96.88%, recall of 96.45%, and an F1 score of 96.66%. Additionally, the model demonstrated robust performance in distinguishing between healthy and diseased leaves, as evidenced by a ROC-AUC score of 98.50%, underscoring its effectiveness in disease detection for hibiscus plants.
KW - Convolutional Neural Network
KW - Deep Learning
KW - Hygiene Crops
UR - http://www.scopus.com/inward/record.url?scp=85216219572&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85216219572&partnerID=8YFLogxK
U2 - 10.1109/CYBERCOM63683.2024.10803253
DO - 10.1109/CYBERCOM63683.2024.10803253
M3 - Conference contribution
AN - SCOPUS:85216219572
T3 - 2024 International Conference on Cybernation and Computation, CYBERCOM 2024
SP - 198
EP - 203
BT - 2024 International Conference on Cybernation and Computation, CYBERCOM 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2024 International Conference on Cybernation and Computation, CYBERCOM 2024
Y2 - 15 November 2024 through 16 November 2024
ER -