Sugarcane Leaf Health Grading Using State-of-the-Art Deep Learning Approaches

The abstract provides a thorough summary of a classification model intended to assess the health characteristics of sugarcane leaves in different classes. The precision values of the model range from 96.93% to 97.40%, which indicates its superior performance metrics and guarantees the precise identi...

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Bibliographic Details
Published in2024 3rd International Conference for Innovation in Technology (INOCON) pp. 1 - 6
Main Authors Banerjee, Deepak, Sharma, Neha, Upadhyay, Deepak, Singh, Vijay, Gill, Kanwarpartap Singh
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.03.2024
Subjects
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Class
Deep learning
Distance measurement
Health
Instruments
Precision
Predictive models
Technological innovation
Weight measurement
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Summary:The abstract provides a thorough summary of a classification model intended to assess the health characteristics of sugarcane leaves in different classes. The precision values of the model range from 96.93% to 97.40%, which indicates its superior performance metrics and guarantees the precise identification of positive cases inside each class. The recall values show how well the model captures most real positive events while minimizing false negatives, ranging from 96.96% to 97.48%. The precision and recall of an F1-Score are well balanced, as seen by their constant hovering around 97%. A dataset with well-distributed values and percentage of support exhibits a balanced representation across classes. The model, which uses CNNs and SVMs, achieves 87.39% accuracy on 11,133 images. The model successfully classifies sugarcane leaf health with an amazing overall accuracy of 99%, demonstrating its proficiency in this area. The weighted average, micro average, and macro average measures all support the model's consistency and dependability across classes. The class-wise evaluations' unweighted mean, or the macro average, is 97.18%. The model's strong handling of different class sizes is highlighted by the weighted average, which accounts for class imbalances depending on support and is in line with the macro average of 97.19%. The global aggregate provided by the micro average for all classes is in perfect alignment with the class-specific measures, indicating the overall superiority of the model. Together, the findings establish the classification model as a potent and trustworthy instrument with excellent accuracy and precision across a range of health categories for evaluating sugarcane leaf health.
DOI:10.1109/INOCON60754.2024.10511478