Deep Learning-Driven Diagnosis of Pigeon Pox Using DenseNet Architecture
- Fakhre Alam,
- Asad Ullah,
- Dilawar Shah,
- Shujaat Ali,
- Muhammad Tahir
Muhammad Tahir
Kardan University
Corresponding Author:m.tahir@kardan.edu.af
Author ProfileAbstract
This research proposes an automatic approach for classifying pigeon pox
lesions using the DenseNet model, a deep learning architecture renowned
for its dense connectivity patterns and efficient feature reuse. Pigeon
pox, caused by the avipox virus, poses significant threats to avian
populations and the poultry industry worldwide. Traditional diagnostic
methods are laborious and time-consuming, prompting the exploration of
machine learning techniques for automated disease diagnosis. The
proposed approach leverages DenseNet for feature extraction from pigeon
pox images, aiming to develop a robust and accurate classification
system capable of distinguishing between healthy and infected birds
based on visual features extracted from skin lesions. The study
systematically evaluates the performance of the DenseNet model,
demonstrating exceptional discriminatory power with an AUC of 0.99,
accuracy of 0.98, and F1-score of 0.98. Comparative analysis with other
deep learning models further validates DenseNet's superiority in pigeon
pox classification. Overall, the proposed approach offers a promising
solution for the early detection and control of pigeon pox, thereby
improving bird health and welfare while mitigating economic losses in
the poultry industry.