SENTINEL-2 DERIVED WATERLINES FOR COASTAL MONITORING APPLICATIONS: A NEW APPROACH FOR QUANTIFYING VERTICAL AND HORIZONTAL ACCURACIES

Q2 Social Sciences
Y. Castillo-Campo, X. Monteys, A. L. Beck, C. Cahalane
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Abstract

Abstract. Accurate and consistent mapping of the boundary between land and water (the ‘waterline’) is critical for tracking coastal change and coastal management. Earth Observation satellite remote sensing provides a unique cost-effective alternative to traditional methods. Waterlines from satellites are often derived by methods based on spectral indices that lead to the separation between land and water. The validation strategy for these products requires a complex approach from accuracy assessment (quantifying error) to verification of its suitability for monitoring applications. Traditionally the accuracy of EO products is reduced and simplified to the resolution of the sensor or satellite that collects the data. However, environmental variables (sea conditions, weather, vegetation, anthropic) that may have a direct effect on the sensor and on the coastline that we are trying to monitor are not taken into consideration. Segments of Sentinel-2-derived waterlines were selected in North Bull Island for further analysis in the creation of a new benchmark dataset for understanding the waterline models of eastern Ireland. In our novel approach, we propose that horizontal accuracy assessment is performed by using the mean absolute distance between the GNSS reference line and the Sentinel-2-derived waterline. The vertical accuracy assessment was then calculated by the difference between the attributed waterline height compared with the mean GNSS elevation at the intersection points. Results were then compared with Dublin Port tide gauge height record. The development of reference validation models can allow more efficient application of satellite data for monitoring, and understanding how environmental variables affect each case study.
哨兵-2衍生水线海岸监测应用:一种量化垂直和水平精度的新方法
摘要准确和一致地绘制陆地和水之间的边界(“水线”)对于跟踪沿海变化和沿海管理至关重要。对地观测卫星遥感提供了一种独特的、具有成本效益的替代传统方法。卫星上的水线通常是通过基于光谱指数的方法得出的,这导致了陆地和水的分离。这些产品的验证策略需要一个复杂的方法,从准确性评估(量化误差)到验证其监测应用的适用性。传统上,EO产品的精度被降低并简化为收集数据的传感器或卫星的分辨率。然而,可能对传感器和海岸线有直接影响的环境变量(海况、天气、植被、人为因素)并没有被考虑在内,而我们正试图监测这些因素。在北布尔岛选择了sentinel -2衍生的水线片段进行进一步分析,以创建新的基准数据集,以了解爱尔兰东部的水线模型。在我们的新方法中,我们建议通过使用GNSS参考线和sentinel -2派生水线之间的平均绝对距离来进行水平精度评估。然后通过属性水线高度与交点GNSS平均高程之差计算垂直精度评估。然后将结果与都柏林港验潮仪记录的高度进行比较。参考验证模型的开发可以更有效地应用卫星数据进行监测,并了解环境变量如何影响每个案例研究。
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
949
审稿时长
16 weeks
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