Abstract
Technological advances and increasing availability of satellite sensors acquire more information about the earth and offer the potential for more accurate land cover classifications and pattern analysis. However, this type of image (satellite image) is rich and various in content, however it suffers from noise that affects the image in the acquisition. Therefore, there is a requirement of an effective and efficient method for features extraction from the noisy image. This paper presents an approach for satellite image segmentation that automatically segments image using a supervised learning algorithm into urban and nonurban area. We have applied a statistical feature including local feature computed by using the probability distribution of the phase congruency computed (El Fellah S, El haziti M, Rziza M, et Mastere M, A hybrid feature extraction for satellite image segmentation using statistical global and local feature, 2016, [1]). The results provided, demonstrate a good detection of urban area with high accuracy in absence of noise. However when noise is added to images, the classification results deteriorate. Hence, to improve these results we propose a novel features based on higher order spectra known by their robustness against noise.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
El Fellah, S., El haziti, M., Rziza, M., & et Mastere, M. (2016, April). A hybrid feature extraction for satellite image segmentation using statistical global and local feature. Volume 380 of the book series lecture notes in electrical engineering (LNEE) (pp. 247–255). https://doi.org/10.1007/978-3-319-30301-7_26.
Blaschke, T. (2010). Object based image analysis for remote sensing. ISPRS Journal of Photogrammetry and Remote Sensing, 65(1), 2–16.
Sirmacek, B., & Unsalan, C. (2011). A probabilistic approach to detect urban regions from remotely sensed images based on combination of local features. In 5th RAST2011 Conference.
Szummer, M., & Picard, R. W. (1998, January). Indoor-outdoor image classification. In Proceedings of the IEEE ICCV Workshop Bombay, India (pp. 42–51).
Pagare, R., & Shinde, A. (2012, January). A study on image annotation techniques. International Journal of Computer Applications, 37(6), 42–45.
Mehralian, S., & Palhang, M. (2013). Principal components of gradient distribution for aerial images segmentation. In 11th Intelligent Systems Conference.
Ilea, D. E., & Whelan, P. F. (2011). Image segmentation based on the integration of color texture descriptors - A review. Pattern Recognition, 44, 2479–2501.
Fauqueur, J., Kingsbury, G., & Anderson, R. (2005). Semantic discriminant mapping for classification and browsing of remote sensing textures and objects. In Proceedings of IEEE ICIP.
Ma, W. Y., & Manjunath, B. S. (1998). A texture thesaurus for browsing large aerial photographs. Journal of the American Society for Information Science, 49(7), 633–648
ShamikTiwari, V. P. Shukla, S. R. Biradar, & Singh, A. K. (1993). A blind blur detection scheme using statistical features of phase congruency and gradient magnitude. Advances in Electrical Engineering Article ID521027, 10 pages, 2014. Lang. Syst. 15, 5 (1993), 795–825. https://doi.org/10.1145/161468.16147.
Nikias, C. L., & Mendel, J. M. (1993). Signal processing with higher-order spectra. IEEE Signal Processing Magazine, 10(3), 10–37.
Petropulu, A. (1999). Higher-order spectral analysis. In Madisetti V. K. & Williams D. B. (eds.), Digital signal processing hand-book. Chapman & Hall/CRCnetBASE.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Switzerland AG
About this chapter
Cite this chapter
El Fellah, S., Lagdali, S., Rziza, M., El Fellah, Y. (2020). Analysis of Noisy Satellite Image Using Statistical Approach. In: Rebai, N., Mastere, M. (eds) Mapping and Spatial Analysis of Socio-economic and Environmental Indicators for Sustainable Development. Advances in Science, Technology & Innovation. Springer, Cham. https://doi.org/10.1007/978-3-030-21166-0_14
Download citation
DOI: https://doi.org/10.1007/978-3-030-21166-0_14
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-21165-3
Online ISBN: 978-3-030-21166-0
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)