References
- Anthony, E. J., F. Dolique, A. Gardel, N. Gratiot, C. Proisy, and L. Polidori. 2008. Nearshore intertidal topography and topographic-forcing mechanisms of an Amazon-derived mud bank in French Guiana. Continental Shelf Research 28 (6):813–22.
- Baghdadi, N., N. Gratiot, J. P. Lefebvre, C. Oliveros, and A. Bourguignon. 2004. Coastline and mudbank monitoring in French Guiana: Contributions of radar and optical satellite imagery. Canadian Journal of Remote Sensing 30 (2):109–22.
- Choi, C., and D. J. Kim. 2018. Optimum baseline of a single-pass in-SAR system to generate the best DEM in tidal flats. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 11 (3):919–29.
- Ding, X., F. Nunziata, X. Li, and M. Migliaccio. 2015. Performance analysis and validation of waterline extraction approaches using single- and dual-polarimetric SAR data. IEEE Journal of Selected Topics in Applied Earth Observations & Remote Sensing 8 (3):1019–27.
- Fang, S., G. Ang, W. Jian-Ping, and Z. Yun-Xuan. 2008. A remotely sensed approach on waterline extraction of silty tidal flat for dem construction: A case study in Jiuduansha shoal of Yangtze river. Acta Geodaetica et Cartographica Sinica 37 (01):102–7.
- Haitao, G., S. Lei, S. Jiawei, and Z. Hongwei. 2016. An island and coastal image segmentation method based on Quadtree and GAC mode. Acta Geodaetica et Cartographica Sinica 45 (1):65–72.
- Heygster, G., J. Dannenberg, and J. Notholt. 2010. Topographic mapping of the German tidal flats analyzing SAR images with the waterline method. IEEE Transactions on Geoscience and Remote Sensing 48 (3):1019–30.
- Hongyu, M., D. Xianrong, G. Xiaoping, and X. Juan. 2016. Remote sensing and remote measuring approach to construct tidal flat terrain in the radial sand Ridges. Acta Oceanologica Sinica 38 (03):111–22.
- Horritt, M. S., D. C. Mason, D. M. Cobby, I. J. Davenport, and P. D. Bates. 2003. Waterline mapping in flooded vegetation from airborne SAR imagery. Remote Sensing of Environment 85 (3):271–81.
- Kang, Y., X. Ding, F. Xu, C. Zhang, and X. Ge. 2017. Topographic mapping on large-scale tidal flats with an iterative approach on the waterline method. Estuarine Coastal & Shelf Science 190:11–22.
- Li, Z., G. Heygster, and J. Notholt. 2014. Intertidal topographic maps and morphological changes in the German Wadden Sea between 1996–1999 and 2006–2009 from the waterline method and SAR images. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 7 (8):3210–24.
- Liu, X., Z. Gao, J. Ning, X. Yu, and Y. Zhang. 2016. An improved method formapping tidal flats based on remote sensing waterlines: A case study in the Bohai Rim, China. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 9 (11):5123–9.
- Liu, X.-Y., R.-S. Jia, Q.-M. Liu, C.-Y. Zhao, and H.-M. Sun. 2019. Coastline extraction method based on convolutional neural networks—A case study of Jiaozhou Bay in Qingdao, China. IEEE Access 7:180281–91.
- Liu, Y., and F. Li. 2012. Toward a method of constructing tidal flat digital elevation models with MODIS and medium-resolution satellite images. Journal of Coastal Research 29 (2):438–48.
- Liu, Y., M. Li, L. Cheng, F. Li, and K. Chen. 2012. Topographic mapping of offshore sandbank tidal flats using the waterline detection method: A case study on the Dongsha Sandbank of Jiangsu radial tidal sand ridges, China. Marine Geodesy 35 (4):362–78.
- Liu, Y., M. Li, L. Mao, L. Cheng, and K. Chen. 2013a. Seasonal pattern of tidal-flat topography along the Jiangsu Middle Coast, China, using HJ-1 optical images. Wetlands 33 (5):871–86.
- Liu, Y., M. Li, M. Zhou, K. Yang, and L. Mao. 2013b. Quantitative analysis of the waterline method for topographical mapping of tidal flats: A case study in the Dongsha Sandbank, China. Remote Sensing 5 (11):6138–58.
- Liu, Y. X., L. I. Man-Chun, L. Cheng, L. I. Fei-Xue, and Y. M. Shu. 2010. A DEM inversion method for inter-tidal zone based on MODIS dataset: A case study in the Dongsha Sandbank of Jiangsu radial tidal sand-ridges, China. China Ocean Engineering 24 (4):735–48.
- Lohani, B. 1999. Construction of a digital elevation model of the holderness coast using the waterline method and Airborne Thematic Mapper data. International Journal of Remote Sensing 20 (3):593–607.
- Mason, D. C., T. R. Scott, and H.-J. Wang. 2006. Extraction of tidal channel networks from airborne scanning laser altimetry and aerial photography. Isprs Journal of Photogrammetry and Remote Sensing 61 (2):67–83.
- Mason, D. C., M. Amin, I. J. Davenport, R. A. Flather, G. J. Robinson, and J. A. Smith. 1999. Measurement of recent intertidal sediment transport in Morecambe Bay using the waterline method. Estuarine Coastal & Shelf Science 49 (3):427–56.
- Mason, D. C., I. J. Davenport, R. A. Flather, and C. Gurney. 1998. Cover a digital elevation model of the inter-tidal areas of the Wash, England, produced by the waterline method. International Journal of Remote Sensing 22 (23):3187–90.
- Mason, D. C., I. J. Davenport, R. A. Flather, C. Gurney, G. J. Robinson, and J. A. Smith. 2001. A sensitivity analysis of the waterline method of constructing a digital elevation model for intertidal areas in ERS SAR scene of Eastern England. Estuarine Coastal & Shelf Science 53 (6):759–78.
- Mason, D. C., I. J. Davenport, G. J. Robinson, R. A. Flather, and B. S. Mccartney. 1995. Construction of an inter-tidal digital elevation model by the ‘water-line’ method. Geophysical Research Letters 22 (23):3187–90.
- Ryu, J.-H., C.-H. Kim, Y.-K. Lee, J.-S. Won, S.-S. Chun, and S. Lee. 2008. Detecting the intertidal morphologic change using satellite data. Estuarine Coastal & Shelf Science 78 (4):623–32.
- Ryu, J. H., J. S. Won, and K. D. Min. 2002. Waterline extraction from Landsat TM data in a tidal flat: A case study in Gomso Bay, Korea. Remote Sensing of Environment 83 (3):442–56.
- Salameh, E., F. Frappart, I. Turki, and B. Laignel. 2020. Intertidal topography mapping using the waterline method from Sentinel-1 &-2 images: The examples of Arcachon and Veys Bays in France. Isprs Journal of Photogrammetry and Remote Sensing 163:98–120.
- Tong, S. S., J. P. Deroin, and P. Thi Lan. 2020. An optimal waterline approach for studying tidal flat morphological changes using remote sensing data: A case of the northern coast of Vietnam. Estuarine Coastal and Shelf Science 236 (0):1–15.
- Tseng, K.-H., C.-Y. Kuo, T.-H. Lin, Z.-C. Huang, Y.-C. Lin, W.-H. Liao, and C.-F. Chen. 2017. Reconstruction of time-varying tidal flat topography using optical remote sensing imageries. Isprs Journal of Photogrammetry and Remote Sensing 131:92–103.
- Weitong, C., Z. Dong, C. Dandan, and L. Lin. 2018. Monitoring spatial and temporal changes in the continental coastline and the intertidal zone in Jiangsu province, China. Acta Geographica Sinica 73 (07):1365–80.
- Xu, Z., D. J. Kim, S. H. Kim, Y. K. Cho, and S. G. Lee. 2016. Estimation of seasonal topographic variation in tidal flats using waterline method: A case study in Gomso and Hampyeong Bay, South Korea. Estuarine Coastal & Shelf Science 183 (2016):213–20.
- Ying, Z., Z. Dong, and H. Pingxiang. 2008. Water content of soil on outcrop beach measured by remote sensing. Acta Oceanologica Sinica 30 (05):29–34.
- Zhao, B., H. Guo, Y. Yan, Q. Wang, and L. Bo. 2008. A simple waterline approach for tidelands using multi-temporal satellite images: A case study in the Yangtze Delta. Estuarine Coastal & Shelf Science 77 (1):134–42.
- Zhen, H., Y. Caixing, D. Zhijun, L. Yu, and Z. Hong. 2009. Remote sensing quantitative inversion research of the silt tidal flat elevation and deposition and erosion: Chongming Dongtan as the example. Transactions of Ocean and Limnology and Oceanography 1 (1):12–7.
- Zong-Sheng, Z., Z. Yun-Xuan, L. Zhi-Guo, and T. Bo. 2008. DEM reconstruction based on hydrodynamic model and waterline method. Resources and Environment in the Yangtze Basin 17 (05):756–60.