Automatic Generation of Water Masks from RapidEye Images

Tetteh, Gideon Okpoti; Schönert, M.

doi:10.4236/gep.2015.310003

Cited by 14 publications

(9 citation statements)

References 14 publications

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“…This is an active area of research, and therefore, multiple methods for surface water detection using remote sensing exist. A brief summary of state-of-the-art surface water masks is provided, where the developed methods were applied to either optical [23][24][25] or SAR data [26,27].…”

Section: Existing Threshold Methodsmentioning

confidence: 99%

Automated SAR Image Thresholds for Water Mask Production in Alberta’s Boreal Region

et al. 2020

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Mapping and monitoring surface water features is important for sustainably managing this critical natural resource that is in decline due to numerous natural and anthropogenic pressures. Satellite Synthetic Aperture Radar is a popular and inexpensive solution for such exercises over large scales through the application of thresholds to distinguish water from non-water. Despite improvements to threshold methods, threshold selection is traditionally manual, which introduces subjectivity and inconsistency over large scales. This study presents a novel method for objectively determining and applying a threshold to determine water masks from Synthetic Aperture Radar (SAR) imagery on a scene-by-scene basis. The method was applied to Radarsat-2 and simulated Radarsat Constellation Mission scenes, and validated against two independent validation sources with high accuracy (Kappa ranging from 0.85 to 0.93). Expectedly, greatest misclassification occurs near shorelines, which are often ecologically important zones. Comparisons between Radarsat-2 and Radarsat Constellation Mission thresholds and outputs suggest that the latter is a capable successor for surface water applications. This work represents a foundational step toward objectivity and consistency in large-scale water mapping and monitoring.

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Section: Existing Threshold Methodsmentioning

confidence: 99%

Automated SAR Image Thresholds for Water Mask Production in Alberta’s Boreal Region

et al. 2020

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“…Based on remote sensing variables using a threshold-based water detection method, the larger still and flowing freshwater bodies within the study area were detected (Klemenjak et al 2012;Tetteh and Schönert 2015). To improve the algorithms' capacity to detect water, the precise locations of all verified water bodies were identified manually in Google Earth and used to train a bioclim model using the DISMO package for R (Hijmans, Phillips et al 2013;R Core Team 2017).…”

Section: Remote Sensing Derived Resistance Surfacesmentioning

confidence: 99%

Predicting terrestrial dispersal corridors of the invasive African clawed frog Xenopus laevis in Portugal

Ginal¹,

Moreira²,

Marques³

et al. 2021

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Invasive species, such as the mainly aquatic African clawed frog Xenopus laevis, are a main threat to global biodiversity. The identification of dispersal corridors is necessary to restrict further expansion of these species and help to elaborate management plans for their control and eradication. Here we use remote sensing derived resistance surfaces, based on the normalised difference vegetation index (NDVI) and the normalised difference water index (NDWI) accounting for behavioural and physiological dispersal limitations of the species, in combination with elevation layers, to determine fine scale dispersal patterns of invasive populations of X. laevis in Portugal, where the frog had established populations in two rivers. We reconstruct past dispersal routes between these two invaded rivers and highlight high risk areas for future expansion. Our models suggest terrestrial dispersal corridors that connect both invaded rivers and identify artificial water bodies as stepping stones for overland movement of X. laevis. Additionally, we found several potential stepping stones into novel areas and provide concrete information for invasive species management.

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“…Both Sentinel-2 platforms are equipped with a multispectral sensor that acquires 13 spectral bands with 12 bit radiometric resolution and different geometric resolutions at 10 m (blue, green, red and NIR), 20 m (six bands including SWIR) and 60 m, as reported in Table 1. Remote sensed data are used for lake identification through water index (WI) evaluation by means of the NDWI (Normalized Difference Water Index) and the MNDWI (Modified Normalized Difference Water Index; Xiucheng et al, 2017;Gordana and Ugur, 2017;Yun et al, 2016;Dominici et al, 2019;Avisse et al, 2017;Gideon and Maurice, 2015;Mishra and Prasad, 2015).…”

Section: Remote Sensing Techniques For Lake Identificationmentioning

confidence: 99%

“…The water body identification using remote sense data was widely investigated in several geographical contexts. Different satellite platform products were used to compute the NDWI and MNDWI indices (Di Francesco and Giannone, 2019): Landsat images produced an accuracy of extracted water bodies greater than 88 % (Mishra and Prasad, 2015), while for RapidEye imagery the overall accuracy of 95 % was reached (Gideon and Maurice, 2015). Finally, Sentinel-2 multispectral images were tested in Venice coastland (Italy) obtaining an overall accuracy greater than 94 % (Yun et al, 2016) and in the urban area of Beijing and Yantai (China) obtaining an overall accuracy greater than 97 % (Xiucheng et al, 2017).…”

Section: Remote Sensing Techniques For Lake Identificationmentioning

confidence: 99%

Small reservoirs for a sustainable water resources management

et al. 2019

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Small reservoirs are widely used for storing water, especially for irrigation purposes. During the last decades, in Italy many of these reservoirs have been dismissed, becoming an untapped resource. As a matter of fact, maintenance problems connected to these structures together with their natural tendency to silt have favored the use of other water supply resources such as withdrawal from wells.The increase of drought periods and the high water volume demand for agricultural purposes suggest to evaluate a full and rational use of all water resources, leading to a rediscovery and enhancement of untapped resources. Specifically, this research focuses on small reservoirs and on their potential contribution to a sustainable water management in agriculture. Unfortunately, there are no reliable data on their number, spatial distribution and potential storage volume. The aim of this work is to define reservoir spatial distribution and evaluate potential available water volumes. The upper Tiber river basin has been selected as a case study for the methodology proposed. The work starts from the acquisition and re-elaboration of the old census of small reservoirs, evaluating, through GIS and regression techniques, the distribution over the territory and the available volumes. Then the reservoir census and the derived database were updated for the period from 2015 up to 2019 introducing combined computational procedures of remote sensing techniques and GIS, based on satellite images and water index calculation. The results of the semi automatic procedure used show good performance in lake identification, making it a promising tool for a fast and reliable water body identification and evaluation in wide areas.

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Automatic Generation of Water Masks from RapidEye Images

Cited by 14 publications

References 14 publications

Automated SAR Image Thresholds for Water Mask Production in Alberta’s Boreal Region

Automated SAR Image Thresholds for Water Mask Production in Alberta’s Boreal Region

Predicting terrestrial dispersal corridors of the invasive African clawed frog Xenopus laevis in Portugal

Small reservoirs for a sustainable water resources management

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