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Proceedings of the 20th Conference on Computer Science and Intelligence Systems (FedCSIS)

Annals of Computer Science and Information Systems, Volume 43

Optimizing Deep Learning for Cotton Leaf Disease Detection Using Meta-Heuristic Feature Selection Algorithms

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DOI: http://dx.doi.org/10.15439/2025F3752

Citation: Proceedings of the 20th Conference on Computer Science and Intelligence Systems (FedCSIS), M. Bolanowski, M. Ganzha, L. Maciaszek, M. Paprzycki, D. Ślęzak (eds). ACSIS, Vol. 43, pages 605614 ()

Full text

Abstract. Effective and efficient disease detection is crucial, particularly for economically important crops like cotton. In this paper, we move from the initial development of a deep-learning model for cotton leaf disease detection, called Deep-CCNet, to a more comprehensive comparison of different feature selection algorithms, such as RainWater Algorithm, Particle Swarm Optimization, Bee Evolutionary Algorithm, Genetic Algorithm, and Binary Dragonfly Algorithm. Although Deep-CCNet achieved satisfactory classification performance, the goal of this study is to improve the classification performance and efficiency of deep learning models with meta-heuristic feature selection techniques. This study aims to determine which feature selection method achieves the best balance between performance and computational efficiency. We used the Kaggle ``cotton leaf disease dataset'', which has 1,711 images from four classes (namely curl virus, bacterial blight, fusarium wilt, and healthy leaf images), to compare these techniques systematically. Our research attempts to find the most effective method that maximizes model performance while minimizing computing resources, in addition to benchmarking the computational and performance parameters of each approach. The results of this study provide a new approach for the choice of feature selection methods in plant pathology, leading to better early disease diagnosis and increased crop resilience via efficient farming practices.

References

  1. S. Radhakrishnan, “Sustainable cotton production,” in Sustainable fibres and textiles, pp. 21–67, Elsevier, 2017.
  2. S. P. Patil and R. S. Zambre, “Classification of cotton leaf spot disease using support vector machine,” International Journal of Engineering Research, vol. 3, no. 4, pp. 1511–1514, 2014.
  3. A. Farooq, J. Farooq, A. Mahmood, A. Shakeel, K. A. Rehman, A. Batool, M. Riaz, M. T. H. Shahid, and S. Mehboob, “An overview of cotton leaf curl virus disease (clcud) a serious threat to cotton productivity,” Australian Journal of Crop Science, vol. 5, no. 13, pp. 1823–1831, 2011.
  4. A. Jenifa, R. Ramalakshmi, and V. Ramachandran, “Cotton leaf disease classification using deep convolution neural network for sustainable cotton production,” in 2019 IEEE international conference on clean energy and energy efficient electronics circuit for sustainable development (INCCES), pp. 1–3, IEEE, 2019.
  5. H. Qayyum, S. T. H. Rizvi, M. Naeem, U. b. Khalid, M. Abbas, and A. Coronato, “Enhancing diagnostic accuracy for skin cancer and covid-19 detection: A comparative study using a stacked ensemble method,” Technologies, vol. 12, no. 9, p. 142, 2024.
  6. A. Ismail, M. Naeem, U. B. Khalid, and M. Abbas, “Improving adherence to medication in an intelligent environment using reinforcement learning,” Journal of Reliable Intelligent Environments, vol. 11, no. 1, p. 3, 2025.
  7. N. Ullah, J. A. Khan, S. Almakdi, M. S. Alshehri, M. A. Qathrady, E. A. Aldakheel, and D. S. Khafaga, “A lightweight deep learning-based model for tomato leaf disease classification,” Computers, Materials & Continua, 2023.
  8. P. Timalsina, S. Bhattarai, S. Paudel, and S. Jha, “Enhancing plant disease detection through image analysis using ssdmobilenetv2 and resnet50,” in Proceedings of the Ninth International Conference on Research in Intelligent Computing in Engineering (V. K. Solanki, T. D. Tan, P. Kumar, and M. Cardona, eds.), vol. 42 of Annals of Computer Science and Information Systems, p. 79–87, PTI, 2024.
  9. M. H. Calp and V. K. Solanki, “Classification of plant species with iris dataset using ann, knn and k-means algorithms,” in Proceedings of the Eighth International Conference on Research in Intelligent Computing in Engineering (P. Kumar, M. Cardona, V. K. Solanki, T. D. Tan, and A. Wahid, eds.), vol. 38 of Annals of Computer Science and Information Systems, p. 7–10, PTI, 2023.
  10. N. Ullah, J. A. Khan, S. Almakdi, M. S. Alshehri, M. Al Qathrady, N. El-Rashidy, S. El-Sappagh, and F. Ali, “An effective approach for plant leaf diseases classification based on a novel deepplantnet deep learning model,” Frontiers in Plant Science, vol. 14, p. 1212747, 2023.
  11. A. Ismail, M. Naeem, M. H. Syed, M. Abbas, and A. Coronato, “Advancing patient care with an intelligent and personalized medication engagement system,” Information, vol. 15, no. 10, p. 609, 2024.
  12. N. Ullah, F. Guzmán-Aroca, F. Martı́nez-Álvarez, I. De Falco, and G. Sannino, “A novel explainable ai framework for medical image classification integrating statistical, visual, and rule-based methods,” Medical Image Analysis, p. 103665, 2025.
  13. N. Ullah, I. De Falco, and G. Sannino, “A novel deep learning approach for colon and lung cancer classification using histopathological images,” in 2023 IEEE 19th International Conference on e-Science (e-Science), pp. 1–10, IEEE, 2023.
  14. X. Zhang, X. Zhang, and W. Wang, “Convolutional neural network,” in Intelligent Information Processing with Matlab, pp. 39–71, Springer, 2023.
  15. D. Gutiérrez-Avilés, M. J. Jiménez-Navarro, J. F. Torres, and F. Martı́nez-Álvarez, “MetaGen: A framework for metaheuristic development and hyperparameter optimization in machine and deep learning,” Neurocomputing, vol. 637, p. 130046, 2025.
  16. J. Kennedy and R. Eberhart, “Particle swarm optimization,” in Proceedings of ICNN’95-international conference on neural networks, vol. 4, pp. 1942–1948, ieee, 1995.
  17. M. M. Mafarja, D. Eleyan, I. Jaber, A. Hammouri, and S. Mirjalili, “Binary dragonfly algorithm for feature selection,” in 2017 International conference on new trends in computing sciences (ICTCS), pp. 12–17, IEEE, 2017.
  18. R. Zebari, A. Abdulazeez, D. Zeebaree, D. Zebari, and J. Saeed, “A comprehensive review of dimensionality reduction techniques for feature selection and feature extraction,” Journal of Applied Science and Technology Trends, vol. 1, no. 1, pp. 56–70, 2020.
  19. T. Biyanto, “Rain water algorithm.” https://www.mathworks.com/matlabcentral/fileexchange/65617-rain-water-algorithm, 2025. MATLAB Central File Exchange, retrieved May 14, 2025.
  20. M. Farzaneh, “Feature selection in classification using genetic algorithm.” https://www.mathworks.com/matlabcentral/fileexchange/74105-feature -selection-in-classification-using-genetic-algorithm, 2025. MATLAB Central File Exchange, retrieved May 14, 2025.
  21. J. Too, A. R. Abdullah, and N. Mohd Saad, “A new co-evolution binary particle swarm optimization with multiple inertia weight strategy for feature selection,” Informatics, vol. 6, no. 2, p. 21, 2019.
  22. S. Mirjalili, “Dragonfly algorithm: a new meta-heuristic optimization technique for solving single-objective, discrete, and multi-objective problems,” Neural computing and applications, vol. 27, pp. 1053–1073, 2016.
  23. S. M. H. Mousavi, “Bees cnn evolutionary algorithm.” https://github.com/SeyedMuhammadHosseinMousavi/Bees-CNN-Algorithm, 2025. GitHub repository, retrieved May 14, 2025.
  24. A. A. Sarangdhar and V. Pawar, “Machine learning regression technique for cotton leaf disease detection and controlling using iot,” in 2017 international conference of electronics, communication and aerospace technology (ICECA), vol. 2, pp. 449–454, IEEE, 2017.
  25. W. Shakeel, M. Ahmad, and N. Mahmood, “Early detection of cercospora cotton plant disease by using machine learning technique,” in 2020 30th International Conference on Computer Theory and Applications (ICCTA), pp. 44–48, IEEE, 2020.
  26. A. Jenifa, R. Ramalakshmi, and V. Ramachandran, “Classification of cotton leaf disease using multi-support vector machine,” in 2019 IEEE International Conference on Intelligent Techniques in Control, Optimization and Signal Processing (INCOS), pp. 1–4, IEEE, 2019.
  27. N. Ullah, J. A. Khan, L. A. Alharbi, A. Raza, W. Khan, and I. Ahmad, “An efficient approach for crops pests recognition and classification based on novel deeppestnet deep learning model,” IEEE Access, vol. 10, pp. 73019–73032, 2022.
  28. C. K. Rai and R. Pahuja, “Classification of diseased cotton leaves and plants using improved deep convolutional neural network,” Multimedia Tools and Applications, vol. 82, no. 16, pp. 25307–25325, 2023.
  29. M. J. Jiménez-Navarro, C. Restrepo-Estrada, L. Melgar-Garcı́a, and D. Gutiérrez-Avilés, “Feature Selection Guided by CVOA Metaheuristic for Deep Neural Networks: Application to Multivariate Time Series Forecasting,” Lecture Notes in Networks and Systems, vol. 749, p. 209–218, 2023.
  30. F. Martı́nez-Álvarez, G. Asencio-Cortés, J. F. Torres, D. Gutiérrez-Avilés, L. Melgar-Garcı́a, R. Pérez-Chacón, C. Rubio-Escudero, A. Troncoso, and J. C. Riquelme, “Coronavirus Optimization Algorithm: A bioinspired metaheuristic based on the COVID-19 propagation model,” Big Data, vol. 8, no. 4, pp. 308–322, 2020.
  31. V. Rajasekar, K. Venu, S. R. Jena, R. J. Varthini, and S. Ishwarya, “Detection of cotton plant diseases using deep transfer learning.,” J. Mobile Multimedia, vol. 18, no. 2, pp. 307–324, 2022.
  32. S. Kotian, P. Ettam, S. Kharche, K. Saravanan, and K. Ashokkumar, “Cotton leaf disease detection using machine learning,” Proceedings of the Advancement in Electronics & Communication Engineering, 2022.
  33. M. D. Lakshmi, B. K. Sahoo, and R. K. Ganiya, “Analysis of cotton leaf curl diseases using advanced learning model,” International Journal of Intelligent Systems and Applications in Engineering, vol. 12, no. 2s, pp. 188–194, 2024.
  34. V. G. Bhujade and V. Sambhe, “Multi-disease classification and severity estimation of cotton and soybean leaves using convolutional neural network,” International Journal of Intelligent Systems and Applications in Engineering, vol. 12, no. 11s, pp. 584–594, 2024.
  35. S. Mohmmad, G. Varshitha, E. Yadlaxmi, B. S. Nikitha, D. Anurag, C. Shivakumar, and D. M. S. Isan, “Detection and classification of various diseases in cotton crops using advanced neural network approaches,” in 2024 Fourth International Conference on Advances in Electrical, Computing, Communication and Sustainable Technologies (ICAECT), pp. 1–6, IEEE, 2024.
  36. I. Haider, M. A. Khan, M. Nazir, A. Hamza, O. Alqahtani, M. T.-H. Alouane, and A. Masood, “Crops leaf disease recognition from digital and rs imaging using fusion of multi self-attention rbnet deep architectures and modified dragonfly optimization,” IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2024.
  37. V. Manurkar, S. Kulkarni, S. Rokade, and R. Mirajkar, “Cotton plant disease prediction and remedy recommendation system,” in 2024 ASU International Conference in Emerging Technologies for Sustainability and Intelligent Systems (ICETSIS), pp. 1616–1620, IEEE, 2024.
  38. B. Arathi and U. N. Dulhare, “Classification of cotton leaf diseases using transfer learning-densenet-121,” in Proceedings of third international conference on advances in computer engineering and communication systems: ICACECS 2022, pp. 393–405, Springer, 2023.
  39. M. Zafar, J. Amin, M. Sharif, M. A. Anjum, S. Kadry, and J. Kim, “Cnn based features extraction and selection using epo optimizer for cotton leaf diseases classification,” Computers, Materials and Continua, vol. 76, no. 3, pp. 2779–2793, 2023.
  40. A. B. Naeem, B. Senapati, A. S. Chauhan, S. Kumar, J. C. O. Gavilan, and W. M. Abdel-Rehim, “Deep learning models for cotton leaf disease detection with vgg-16,” International Journal of Intelligent Systems and Applications in Engineering, vol. 11, no. 2, pp. 550–556, 2023.
  41. S. Govindasamy and D. Jayaraj, “Collaborative ant colony optimization- assisted support vector machine for accurate cotton leaf disease classifica- tion and yield prediction,” Journal of Theoretical and Applied Information Technology, vol. 101, no. 15, 2023.
  42. B. N. Pandey, R. P. Singh, M. S. Pandey, and S. Jain, “Cotton leaf disease classification using deep learning based novel approach,” in 2023 International Conference on Disruptive Technologies (ICDT), pp. 559–561, IEEE, 2023.
  43. S. K. Noon, M. Amjad, M. Ali Qureshi, and A. Mannan, “Computationally light deep learning framework to recognize cotton leaf diseases,” Journal of Intelligent & Fuzzy Systems, vol. 40, no. 6, pp. 12383–12398, 2021.