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Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?

This study examined Fuzzy Sigmoidal, Bayesian, and Demspter-Shafer classifications to map shorelines in Kuala Terengganu, Malaysia for different types of coasts. These three soft classification methods were applied to simulated Satellite Pour l’Observation de la Terre-5 (SPOT-5 with 10 and 20 m spat...

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Main Authors: Muslim, A. M., Hossain, M. S., Razman, N., Nadzri, M. I., Khalil, I., Hashim, M.
Format: Article
Published: Taylor and Francis Ltd. 2019
Subjects:
G70.39-70.6 Remote sensing
Online Access:http://eprints.utm.my/id/eprint/88804/
http://www.dx.doi.org/10.1080/2150704X.2018.1523583
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spelling my.utm.888042020-12-29T04:25:39Z http://eprints.utm.my/id/eprint/88804/ Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts? Muslim, A. M. Hossain, M. S. Razman, N. Nadzri, M. I. Khalil, I. Hashim, M. G70.39-70.6 Remote sensing This study examined Fuzzy Sigmoidal, Bayesian, and Demspter-Shafer classifications to map shorelines in Kuala Terengganu, Malaysia for different types of coasts. These three soft classification methods were applied to simulated Satellite Pour l’Observation de la Terre-5 (SPOT-5 with 10 and 20 m spatial resolutions) images covering the three shoreline locations which were typically different in shape and orientation: (a) rocky breakwater coasts (CT-1), (b) rocky and sandy airport coasts (CT-2), and (c) sandy beach coasts (CT-3) for predicting shorelines. Visual inspection and statistical measures showed that variations in accuracies were evident, predominantly due to differences in CTs; mapping accuracy decreased with an increase of spatial resolution, but accuracy increased if shorelines were aligned exact parallel to the column of pixel grid. Sigmoidal can predict shoreline over the CT-3 areas with greater accuracy than the other two methods and has less dependence on spatial resolutions for across the CTs. But effective use of Bayesian membership function for mapping shoreline over certain small and narrow jetty-like structures makes this classifier also efficient. The soft classifier assessed in this study produced reliable shoreline maps and should help shoreline change detection and monitoring from coarser spatial resolution imagery. Taylor and Francis Ltd. 2019 Article PeerReviewed Muslim, A. M. and Hossain, M. S. and Razman, N. and Nadzri, M. I. and Khalil, I. and Hashim, M. (2019) Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts? Remote Sensing Letter, 10 (1). pp. 39-48. ISSN 2150-704X http://www.dx.doi.org/10.1080/2150704X.2018.1523583 DOI: 10.1080/2150704X.2018.1523583
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic G70.39-70.6 Remote sensing
spellingShingle G70.39-70.6 Remote sensing
Muslim, A. M.
Hossain, M. S.
Razman, N.
Nadzri, M. I.
Khalil, I.
Hashim, M.
Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?
description This study examined Fuzzy Sigmoidal, Bayesian, and Demspter-Shafer classifications to map shorelines in Kuala Terengganu, Malaysia for different types of coasts. These three soft classification methods were applied to simulated Satellite Pour l’Observation de la Terre-5 (SPOT-5 with 10 and 20 m spatial resolutions) images covering the three shoreline locations which were typically different in shape and orientation: (a) rocky breakwater coasts (CT-1), (b) rocky and sandy airport coasts (CT-2), and (c) sandy beach coasts (CT-3) for predicting shorelines. Visual inspection and statistical measures showed that variations in accuracies were evident, predominantly due to differences in CTs; mapping accuracy decreased with an increase of spatial resolution, but accuracy increased if shorelines were aligned exact parallel to the column of pixel grid. Sigmoidal can predict shoreline over the CT-3 areas with greater accuracy than the other two methods and has less dependence on spatial resolutions for across the CTs. But effective use of Bayesian membership function for mapping shoreline over certain small and narrow jetty-like structures makes this classifier also efficient. The soft classifier assessed in this study produced reliable shoreline maps and should help shoreline change detection and monitoring from coarser spatial resolution imagery.
format Article
author Muslim, A. M.
Hossain, M. S.
Razman, N.
Nadzri, M. I.
Khalil, I.
Hashim, M.
author_facet Muslim, A. M.
Hossain, M. S.
Razman, N.
Nadzri, M. I.
Khalil, I.
Hashim, M.
author_sort Muslim, A. M.
title Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?
title_short Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?
title_full Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?
title_fullStr Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?
title_full_unstemmed Shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?
title_sort shoreline mapping: how do fuzzy sigmoidal, bayesian, and demspter-shafer classifications perform for different types of coasts?
publisher Taylor and Francis Ltd.
publishDate 2019
url http://eprints.utm.my/id/eprint/88804/
http://www.dx.doi.org/10.1080/2150704X.2018.1523583
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score 13.18916

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