This work is licensed under the Creative Commons Attribution 4.0 International License.
Petrou, M. M., & Kamata, S. I. (2021). Image processing: dealing with texture. John Wiley & Sons.PetrouM. M.KamataS. I. (2021). Image processing: dealing with texture. John Wiley & Sons.Search in Google Scholar
Nixon, M., & Aguado, A. (2019). Feature extraction and image processing for computer vision. Academic press.NixonM.AguadoA. (2019). Feature extraction and image processing for computer vision. Academic press.Search in Google Scholar
Burger, W., & Burge, M. J. (2022). Digital image processing: An algorithmic introduction. Springer Nature.BurgerW.BurgeM. J. (2022). Digital image processing: An algorithmic introduction. Springer Nature.Search in Google Scholar
Shinde, P. P., & Shah, S. (2018, August). A review of machine learning and deep learning applications. In 2018 Fourth international conference on computing communication control and automation (ICCUBEA) (pp. 1-6). IEEE.ShindeP. P.ShahS. (2018, August). A review of machine learning and deep learning applications. In 2018 Fourth international conference on computing communication control and automation (ICCUBEA) (pp. 1-6). IEEE.Search in Google Scholar
Tian, C., Fei, L., Zheng, W., Xu, Y., Zuo, W., & Lin, C. W. (2020). Deep learning on image denoising: An overview. Neural Networks, 131, 251-275.TianC.FeiL.ZhengW.XuY.ZuoW.LinC. W. (2020). Deep learning on image denoising: An overview. Neural Networks, 131, 251-275.Search in Google Scholar
Wu, J., Sheng, V. S., Zhang, J., Li, H., Dadakova, T., Swisher, C. L., ... & Zhao, P. (2020). Multi-label active learning algorithms for image classification: Overview and future promise. ACM Computing Surveys (CSUR), 53(2), 1-35.WuJ.ShengV. S.ZhangJ.LiH.DadakovaT.SwisherC. L.ZhaoP. (2020). Multi-label active learning algorithms for image classification: Overview and future promise. ACM Computing Surveys (CSUR), 53(2), 1-35.Search in Google Scholar
Li, S., Song, W., Fang, L., Chen, Y., Ghamisi, P., & Benediktsson, J. A. (2019). Deep learning for hyperspectral image classification: An overview. IEEE Transactions on Geoscience and Remote Sensing, 57(9), 6690-6709.LiS.SongW.FangL.ChenY.GhamisiP.BenediktssonJ. A. (2019). Deep learning for hyperspectral image classification: An overview. IEEE Transactions on Geoscience and Remote Sensing, 57(9), 6690-6709.Search in Google Scholar
Zhang, X., Zhai, D., Li, T., Zhou, Y., & Lin, Y. (2023). Image inpainting based on deep learning: A review. Information Fusion, 90, 74-94.ZhangX.ZhaiD.LiT.ZhouY.LinY. (2023). Image inpainting based on deep learning: A review. Information Fusion, 90, 74-94.Search in Google Scholar
Srivastava, S., Divekar, A. V., Anilkumar, C., Naik, I., Kulkarni, V., & Pattabiraman, V. (2021). Comparative analysis of deep learning image detection algorithms. Journal of Big data, 8(1), 66.SrivastavaS.DivekarA. V.AnilkumarC.NaikI.KulkarniV.PattabiramanV. (2021). Comparative analysis of deep learning image detection algorithms. Journal of Big data, 8(1), 66.Search in Google Scholar
Liu, X., Song, L., Liu, S., & Zhang, Y. (2021). A review of deep-learning-based medical image segmentation methods. Sustainability, 13(3), 1224.LiuX.SongL.LiuS.ZhangY. (2021). A review of deep-learning-based medical image segmentation methods. Sustainability, 13(3), 1224.Search in Google Scholar
Liu, Y., Pu, H., & Sun, D. W. (2021). Efficient extraction of deep image features using convolutional neural network (CNN) for applications in detecting and analysing complex food matrices. Trends in Food Science & Technology, 113, 193-204.LiuY.PuH.SunD. W. (2021). Efficient extraction of deep image features using convolutional neural network (CNN) for applications in detecting and analysing complex food matrices. Trends in Food Science & Technology, 113, 193-204.Search in Google Scholar
Liu, Y., Chen, X., Wang, Z., Wang, Z. J., Ward, R. K., & Wang, X. (2018). Deep learning for pixel-level image fusion: Recent advances and future prospects. Information fusion, 42, 158-173.LiuY.ChenX.WangZ.WangZ. J.WardR. K.WangX. (2018). Deep learning for pixel-level image fusion: Recent advances and future prospects. Information fusion, 42, 158-173.Search in Google Scholar
Wang, R., Lei, T., Cui, R., Zhang, B., Meng, H., & Nandi, A. K. (2022). Medical image segmentation using deep learning: A survey. IET image processing, 16(5), 1243-1267.WangR.LeiT.CuiR.ZhangB.MengH.NandiA. K. (2022). Medical image segmentation using deep learning: A survey. IET image processing, 16(5), 1243-1267.Search in Google Scholar
Isensee, F., Jaeger, P. F., Kohl, S. A., Petersen, J., & Maier-Hein, K. H. (2021). nnU-Net: a self-configuring method for deep learning-based biomedical image segmentation. Nature methods, 18(2), 203-211.IsenseeF.JaegerP. F.KohlS. A.PetersenJ.Maier-HeinK. H. (2021). nnU-Net: a self-configuring method for deep learning-based biomedical image segmentation. Nature methods, 18(2), 203-211.Search in Google Scholar
Lucas, A., Iliadis, M., Molina, R., & Katsaggelos, A. K. (2018). Using deep neural networks for inverse problems in imaging: beyond analytical methods. IEEE Signal Processing Magazine, 35(1), 20-36.LucasA.IliadisM.MolinaR.KatsaggelosA. K. (2018). Using deep neural networks for inverse problems in imaging: beyond analytical methods. IEEE Signal Processing Magazine, 35(1), 20-36.Search in Google Scholar
Yang, X., Ye, Y., Li, X., Lau, R. Y., Zhang, X., & Huang, X. (2018). Hyperspectral image classification with deep learning models. IEEE Transactions on Geoscience and Remote Sensing, 56(9), 5408-5423.YangX.YeY.LiX.LauR. Y.ZhangX.HuangX. (2018). Hyperspectral image classification with deep learning models. IEEE Transactions on Geoscience and Remote Sensing, 56(9), 5408-5423.Search in Google Scholar
Wang, P., Fan, E., & Wang, P. (2021). Comparative analysis of image classification algorithms based on traditional machine learning and deep learning. Pattern recognition letters, 141, 61-67.WangP.FanE.WangP. (2021). Comparative analysis of image classification algorithms based on traditional machine learning and deep learning. Pattern recognition letters, 141, 61-67.Search in Google Scholar
Krishna, S. T., & Kalluri, H. K. (2019). Deep learning and transfer learning approaches for image classification. International Journal of Recent Technology and Engineering (IJRTE), 7(5S4), 427-432.KrishnaS. T.KalluriH. K. (2019). Deep learning and transfer learning approaches for image classification. International Journal of Recent Technology and Engineering (IJRTE), 7(5S4), 427-432.Search in Google Scholar
Wang, J., & Perez, L. (2017). The effectiveness of data augmentation in image classification using deep learning. Convolutional Neural Networks Vis. Recognit, 11(2017), 1-8.WangJ.PerezL. (2017). The effectiveness of data augmentation in image classification using deep learning. Convolutional Neural Networks Vis. Recognit, 11(2017), 1-8.Search in Google Scholar
Rawat, W., & Wang, Z. (2017). Deep convolutional neural networks for image classification: A comprehensive review. Neural computation, 29(9), 2352-2449.RawatW.WangZ. (2017). Deep convolutional neural networks for image classification: A comprehensive review. Neural computation, 29(9), 2352-2449.Search in Google Scholar
Hamida, A. B., Benoit, A., Lambert, P., & Amar, C. B. (2018). 3-D deep learning approach for remote sensing image classification. IEEE Transactions on geoscience and remote sensing, 56(8), 4420-4434.HamidaA. B.BenoitA.LambertP.AmarC. B. (2018). 3-D deep learning approach for remote sensing image classification. IEEE Transactions on geoscience and remote sensing, 56(8), 4420-4434.Search in Google Scholar
Guo, T., Dong, J., Li, H., & Gao, Y. (2017, March). Simple convolutional neural network on image classification. In 2017 IEEE 2nd International Conference on Big Data Analysis (ICBDA) (pp. 721-724). IEEE.GuoT.DongJ.LiH.GaoY. (2017, March). Simple convolutional neural network on image classification. In 2017 IEEE 2nd International Conference on Big Data Analysis (ICBDA) (pp. 721-724). IEEE.Search in Google Scholar
Mikołajczyk, A., & Grochowski, M. (2018, May). Data augmentation for improving deep learning in image classification problem. In 2018 international interdisciplinary PhD workshop (IIPhDW) (pp. 117-122). IEEE.MikołajczykA.GrochowskiM. (2018, May). Data augmentation for improving deep learning in image classification problem. In 2018 international interdisciplinary PhD workshop (IIPhDW) (pp. 117-122). IEEE.Search in Google Scholar
Anisha Chakravorty & Shounak Chakraborty. (2024). A novel semi-supervised approach for semantic segmentation of aerial remote sensing images under limited ground-truth availability. Signal, Image and Video Processing(prepublish),1-9.ChakravortyAnishaChakrabortyShounak (2024). A novel semi-supervised approach for semantic segmentation of aerial remote sensing images under limited ground-truth availability. Signal, Image and Video Processing(prepublish),1-9.Search in Google Scholar
Bo Zhang,Li Xu,Ke Hao Liu,Ru Yang,Mao Zhen Li & Xiao Yang Guo. (2025). Piecewise convolutional neural network relation extraction with self-attention mechanism. Pattern Recognition111083-111083.ZhangBoXuLiLiuKe HaoYangRuLiMao ZhenGuoXiao Yang (2025). Piecewise convolutional neural network relation extraction with self-attention mechanism. Pattern Recognition111083-111083.Search in Google Scholar
Chandravardhan Singh Raghaw,Parth Shirish Bhore,Mohammad Zia Ur Rehman & Nagendra Kumar. (2024). An Explainable Contrastive-based Dilated Convolutional Network with Transformer for Pediatric Pneumonia Detection. Applied Soft Computing(PA),112258-112258.RaghawChandravardhan SinghBhoreParth ShirishRehmanMohammad Zia UrKumarNagendra (2024). An Explainable Contrastive-based Dilated Convolutional Network with Transformer for Pediatric Pneumonia Detection. Applied Soft Computing(PA),112258-112258.Search in Google Scholar
