Comparison of Classification Techniques on Fused Optical and SAR Images for Shoreline Extraction: A Case Study at Northeast Coast of Peninsular Malaysia

Manaf, Syaifulnizam Abd; Mustapha, Norwati; Sulaiman, Nasir; Husin, Nor Azura; Hamid, Mohd Radzi Abdul

doi:10.3844/jcssp.2016.399.411

Cited by 15 publications

(3 citation statements)

References 35 publications

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“…In an effort to develop a more robust water extraction technique that is tailored to overcome challenges in humid tropical climates of South Asia, we aim to fuse complementary strengths of remote sensing data types. Various studies have targeted fusion of multiple sensor products for various goals, such as shoreline extraction [4], change detection [5], retrieving daily normalized difference vegetation index (NDVI) and leaf area index (LAI) [6], and temporal aggregation for land cover mapping [7]. Studies by Kaplan and Avdan [1], Huang et al [8], and Irwin et al [12] have monitored wetlands and surface water by different fusion techniques.…”

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confidence: 99%

A Fusion Approach for Water Area Classification Using Visible, Near Infrared and Synthetic Aperture Radar for South Asian Conditions

Ahmad

Hossain

Eldardiry

et al. 2020

IEEE Trans. Geosci. Remote Sensing

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Consistent estimation of water surface area from remote sensing remains challenging in regions such as South Asia with vegetation, mountainous topography, and persistent monsoonal cloud cover. High-resolution optical imagery, which is often used for global inundation mapping, is highly impacted by clouds, while synthetic aperture radar (SAR) imagery is not impacted by clouds and is affected by both topographic layover and vegetation. Here, we compare and contrast inundation extent measurements from visible (Landsat-8 and Sentinel-2) and SAR (Sentinel-1) imagery. Each data type (wavelength) has complementary strengths and weaknesses which were gauged separately over selected water bodies in Bangladesh. High-resolution cloudfree PlanetScope imagery at 3-m resolution was used as a reference to check the accuracy of each technique and data type. Next, the optical and radar images were fused for a rule-based water area classification algorithm to derive the optimal decision for the water mask. Results indicate that the fusion approach can improve the overall accuracy by up to 3.8%, 18.2%, and 8.3% during the wet season over using the individual products of Landsat8, Sentinel-1, and Sentinel-2, respectively, at three sites, while providing increased observational frequency. The fusion-derived products resulted in overall accuracy ranging from 85.8% to 98.7% and Kappa coefficient varying from 0.61 to 0.83. The proposed SAR-visible fusion technique has potential for improving satellite-based surface water monitoring and storage changes, especially for smaller water bodies in humid tropical climate of South Asia.

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confidence: 99%

A Fusion Approach for Water Area Classification Using Visible, Near Infrared and Synthetic Aperture Radar for South Asian Conditions

Ahmad

Hossain

Eldardiry

et al. 2020

IEEE Trans. Geosci. Remote Sensing

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“…[13] employed K-means clustering based on the pixel coordinates of RGB three-band values as three-dimensional coordinates. Additionally, [14] applied Bayesian principles, and [15], [16], [17] designed support vector machine (SVM) solutions, all focusing on binary classification of water bodies against other land features. Solbo et al [18] employed a primitive, fully connected artificial neural network approach for surface water mapping in SAR images.…”

Section: B Detection Methods Based On Machine Learningmentioning

confidence: 99%

A Learning Framework With Multispectral Band-Differentiated Encoding for Remote Sensing Water Body Detection

Wei,

Xie,

et al. 2024

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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Classic Deep Convolutional Neural Network (DCNN) models have demonstrated notable efficacy in segmenting remote sensing images. However, their ability to enhance the precision of water body detection, particularly for smaller ones amid intricate backgrounds, remains challenging. This paper proposes the Negative Laplacian Filter (NLF) method as a solution, enhancing regional color contrast during preprocessing to capture more intricate details effectively. Furthermore, a novel approach employs a differential dualencoding structure that encodes diverse spectra based on their spectral attributes. Lastly, leveraging prior insights from remote sensing, we introduce the Weak Label Weight Adjustment (WLWA) operation for refining predicted images in post-processing stages. The proposed model significantly outperforms the comparison models on our remote sensing water body dataset.

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“…For the highresolution image, an optical image from Sentinel-2 is used along with the SAR image from Sentinel 1A. Table 1: Detail of information spectral bands of sentinel-2 images Sentinel-2A (Optical Data) Sentinel-2 was introduced by the ESA to perform global spatial resolution monitoring as part of the EUs Copernicus program (Manaf et al, 2016;Hagolle et al, 2015;Segl et al, 2015). Sentinel-2 images cover 13 wavelengths in the visible, Near Infrared (NIR) and Shortwave Infrared (SWIR).…”

Section: Introductionmentioning

confidence: 99%

Multi-Temporal Sentinel-2 Images for Classification Accuracy

Yuhendra¹,

Yulianti²

2019

Journal of Computer Science

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The term 'multi-temporal' refers to data recorded by sensors scanning the same scene at different dates and times. In this research, Sentinel-2A images were selected for the analyses. Sentinel-2 is a very new program of the European Space Agency (ESA) designed for fine spatial resolution global monitoring. Land Cover-Land Use (LCLU) classification tasks can take advantage of the fusion of radar and optical remote sensing data, generally leading to increased mapping accuracy. Here we propose a methodological approach to fuse information from the new European Space Agency Sentinel-1 and Sentinel-2 imagery for accurate land cover mapping of a portion of the South Solok region, West Sumatra. Data pre-processing used the European Space Agency's Sentinel Application Platform and the SEN2COR toolboxes. The two main objectives of this study are to evaluate the potential use and synergetic effects of ESA Sentinel-1A C-band SAR and Sentinel-2A Optical data for classification and mapping of LCLU. First, the pre-processing chain supported by sensor-specific toolboxes developed by ESA represents a reliable and fast approach for the preparation of ready-to-process imagery. Second, an investigation to derive a methodological framework to integrate Sentinel-1 and Sentinel-2 imagery for land cover mapping by integrating radar and optical imagery has been set up and tested. The results of object-based classification produced higher accuracy than pixel-based classifications if the same type of classifier is used. The classifier algorithms using k-Nearest Neighbors (k-NN) function performed slightly better, with an overall accuracy of 91.30%.

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Comparison of Classification Techniques on Fused Optical and SAR Images for Shoreline Extraction: A Case Study at Northeast Coast of Peninsular Malaysia

Cited by 15 publications

References 35 publications

A Fusion Approach for Water Area Classification Using Visible, Near Infrared and Synthetic Aperture Radar for South Asian Conditions

A Fusion Approach for Water Area Classification Using Visible, Near Infrared and Synthetic Aperture Radar for South Asian Conditions

A Learning Framework With Multispectral Band-Differentiated Encoding for Remote Sensing Water Body Detection

Multi-Temporal Sentinel-2 Images for Classification Accuracy

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