Abstract
Satellite Image Processing is a vital field of research and development that involves the processing of images of the Earth and satellites obtained by artificial satellites. Images are digitally taken before being analyzed by computers to get information. Due to image format inadequacies and defects, data received from imaging sensors on satellite platforms includes deficiencies and errors, necessitating additional activities to improve image quality. The massive network of remote sensing satellites circling the Earth provides comprehensive and periodic coverage of the Earth, enabling a wide range of uses for human benefit. Before being applied to the kernel fuzzy C-means algorithm with spatial information with Penguin search Optimization (SKFCM with PeSOA) segmentation step, the image data is pre-processed. To extract a collection of features from the segmented nucleus, hybrid feature extraction is performed. In this hybrid approach, the discrete wavelet transform with gray-level co-occurrence matrix (DWT with GLCM) algorithm was used. The attributes that have been segmented and retrieved are utilised to train the Enhanced Probabilistic Neural Network classifier. Metrics such as accuracy, f-measure, specificity, and sensitivity are used to assess classification efficiency. When compared to other classifiers, the Enhanced Probabilistic Neural Network classifier has 98.1 percent accuracy.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data Availability
All the authors mentioned in the manuscript have agreed for authorship, read and approved the manuscript, and given consent for submission and subsequent publication of the manuscript.
References
Abdu Rahiman V (2018) Sudhish N George, “Robust single image super-resolution using neighbor embedding and fusion in the wavelet domain.” Elsevier- Computers and Electrical Engineering 70:674–689
Ablin R, Helen Sulochana C (2013) A Survey of Hyper Spectral Classification in Remote Sensing. International Journal of Advanced Research in Computer and Communication Engineering 2(8):2986–3000
Alkhelaiwi M, Boulila W, Ahmad J, Koubaa A, Driss M (2021) An efficient approach based on privacy-preserving deep learning for satellite image classification. Remote Sensing 13(11):2221
Beichen Li, Yuan Zhou, Yeda Zhang, Aihua Wang (2018) “Depth image super-resolution based on joint sparse coding”, Elsevier-Pattern Recognition Letters pp 1–9
Boulila W, Khlifi M, Ammar A, Koubaa A, Benjdira B, Farah IR (2022) A hybrid privacy-preserving deep learning approach for object classification in very high-resolution satellite images. Remote Sens 14(18):4631
Camps-Valls, G (2009), ‘Machine learning in remote sensing data processing’, International Workshop on Machine Learning for Signal Processing (MLSP), pp. 1–6
Camps-Valls G, Bioucas-Dias J, Crawford M (2016) A special issue on advances in machine learning for remote sensing and geosciences. IEEE Geoscience and Remote Sensing Magazine 4(2):5–7
Chutia D, Bhattacharyya DK, Sarma KK, Kalita R, Sudhakar S (2015) Hyperspectral Remote Sensing Classifications: A Perspective Survey. Trans GIS 20(4):463–490
Demirel H, Anbarjafari G (2011) Image Resolution Enhancement by Using Discrete and Stationary Wavelet Decomposition. IEEE Trans Image Process 20(5):1458–1460. https://doi.org/10.1109/TIP.2010.2087767
Deng Z, Sun H, Zhou S, Zhao J, Lei L, Zou H (2018) Multi-scale object detection in remote sensing imagery with convolutional neural network. ISPRS J Photogramm Remote Sens 145:3–22
Desai, Shasvat, Debasmita Ghose (2022) "Active Learning for Improved Semi-Supervised Semantic Segmentation in Satellite Images." In Proceedings of the IEEE/CVF Winter Conference on Applications of Computer Vision, pp. 553–563
Efrat N, Glasner D, Apartsin A, Nadler B, Levin A (2013) “Accurate blur models vs. image priors in single-image super-resolution”, in Computer Vision (ICCV), 2013 IEEE International Conference, pp. 2832–2839
Gadamsetty S, Rupa C, Anusha C, Iwendi C, Gadekallu TR (2022) Hash-based deep learning approach for remote sensing satellite imagery detection. Water 14(5):707
Geeta R, Gupta & Kamalapur, SM, (2014) Study of Classification of Remote Sensing Images using Particle Swarm Optimization based approach. International Journal of Application or Innovation in Engineering & Management 3(10):2319–4847
Ghiyamat A, HelmiShafri ZM (2010) A review on hyperspectral remote sensing for homogeneous and heterogeneous forest biodiversity assessment. Int J Remote Sens 31(7):1837–1856
Lary DJ, Alavi AH, Gandomi AH, Walker AL (2016) Machine learning in geosciences and remote sensing. Geoscience Frontiers, Special Issue: Progress of Machine Learning in Geosciences 7(1):3–10
Li K, Cao F (2019) Super-resolution using neighborhood regression with local structure prior. Elsevier Signal Processing: Image Communication 72:58–68
Li, Lin, Wang, Wei, Luo, Heng, Ying, Shen (2017) “Super-Resolution Reconstruction of High- Resolution Satellite ZY-3 TLC Images”, Sensors. 17. https://doi.org/10.3390/s17051062.
Liu Q, Basu S, Ganguly S, Mukhopadhyay S, DiBiano R, Karki M, Nemani R (2020) Deepsat v2: feature augmented convolutional neural nets for satellite image classification. Remote Sensing Letters 11(2):156–165
MasoumehZareapoor DK, Jain JY (2018) Local spatial information for image super-resolution. Elsevier Cognitive Systems Research 52:49–57
Nyborg, Joachim, Charlotte Pelletier, Ira Assent (2022) "Generalized classification of satellite image time series with thermal positional encoding." In Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition, pp. 1392–1402
Panda, Sudam, Prasad, M, Guna, Jenamani (2011) “POCS Based Super-Resolution Image Reconstruction Using an Adaptive Regularization Parameter”, IJCSI Int J Comput Sci Issues. 8
Pendurkar S, Banerjee B, Saha S, Bovolo F (2019) “Single Image Super-Resolution for Optical Satellite Scenes Using Deep De-convolutional Network”. In: Ricci ICIAP 2019. Lecture Notes in Computer Science, vol 11751. Springer, Cham
Pineda F, Ayma V, Aduviri R, Beltran C (2020) “Super-Resolution Approach Using Generative Adversarial Network Models for Improving Satellite Image Resolution”. SIMBig 2019. Communications in Computer and Information Science, vol 1070. Springer, Cham
Rhyma Purnamasayangsukasih, Norizah, Ismail Adnan A, Shamsudin (2016) “A review of uses of satellite imagery in monitoring mangrove Forests”, IOP Conf Series: Earth Environ Sci. https://doi.org/10.1088/1755-1315/37/1/012034.
Rai Amit Kumar (2020) Nirupama Mandal, Akansha Singh, and Krishna Kant Singh. ”Landsat 8 OLI satellite image classification using convolutional neural network”. Proced Comput Sci 167:987–993
Rohith G, Vasuki A (2015) “A Novel approach to super-resolution image reconstruction algorithm from low-resolution panchromatic images”, 2015 3rd International Conference on Signal Processing, Communication and Networking (ICSCN), pp. 1–8. https://doi.org/10.1109/ICSCN.2015.7219842.
Shermeyer J, Van Etten A (2019) “The Effects of Super-Resolution on Object Detection Performance in Satellite Imagery”, 2019 IEEE/CVF Conference on Computer Vision and Pattern Recognition Workshops (CVPRW), Long Beach, CA, USA, pp. 1432–1441
Tahir Arsalan, Munawar Hafiz Suliman, Akram Junaid, Adil Muhammad, Ali Shehryar, Kouzani Abbas Z, Parvez Mahmud MA (2022) Automatic target detection from satellite imagery using machine learning. Sensors 22(3):1147
Tamborrino C, Interdonato R, Teisseire M (2022) Sentinel-2 satellite image time-series land cover classification with bernstein copula approach. Remote Sens 14(13):3080
Thiagarajan Kowsalya, Anandan MukunthanManapakkam, Stateczny Andrzej, Divakarachari ParameshachariBidare, Lingappa HemalathaKivudujogappa (2021) Satellite image classification using a hierarchical ensemble learning and correlation coefficient-based gravitational search algorithm. Remote Sens 13(21):4351
Witwit W, Yifan Z, Karl J, Sri A (2018) Global motion based video super-resolution reconstruction using discrete wavelet transform. Multimed Tools Appl 77:27641–27660
Zhang Di, He J, Du M (2012) Morphable model space-based face super resolution reconstruction and recognition. Image vis Comput 30:100–108. https://doi.org/10.1016/j.imavis.2012.01.005
Zhao Jianwei, Chen Chen, Zhou Zhenghua, Cao Feilong (2019) Single image super-resolution based on adaptive convolutional sparse coding and convolutional neural networks. Elsevier-J Vis Commun Image R 58:651–661
Author information
Authors and Affiliations
Contributions
All authors contributed to the study conception and design. Material preparation, data collection and analysis were performed by Dr.N. Bharatha Devi and B B Beenarani. The first draft of the manuscript was written by Dr.Sivanantham. E. All authors read and approved the final manuscript.
Corresponding author
Ethics declarations
Competing interests
The authors declare no competing interests.
Consent to Participate
Not applicable for this section.
Consent for publication
Not applicable for this section.
Conflict of Interest
The authors declare that they have no conflict of interest.
Additional information
Communicated by H. Babaie
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Devi, N.B., Beenarani, B.B. & Sivanantham, E. Satellite image detection and classification using hybrid segmentation and feature extraction with enhanced probabilistic neural network. Earth Sci Inform 16, 1281–1292 (2023). https://doi.org/10.1007/s12145-023-00957-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12145-023-00957-1