Remote sensing and remote measuring approach to construct tidal flat terrain in the radial sand ridges

Ma Hongyu; Ding Xianrong; Ge Xiaoping; Xia Juan

doi:10.3969/j.issn.0253-4193.2016.03.011

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Ma Hongyu, Ding Xianrong, Ge Xiaoping, Xia Juan. Remote sensing and remote measuring approach to construct tidal flat terrain in the radial sand ridges[J]. Haiyang Xuebao, 2016, 38(3): 111-122. doi: 10.3969/j.issn.0253-4193.2016.03.011

Citation:

Ma Hongyu, Ding Xianrong, Ge Xiaoping, Xia Juan. Remote sensing and remote measuring approach to construct tidal flat terrain in the radial sand ridges[J]. Haiyang Xuebao, 2016, 38(3): 111-122. doi: 10.3969/j.issn.0253-4193.2016.03.011

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Remote sensing and remote measuring approach to construct tidal flat terrain in the radial sand ridges

doi: 10.3969/j.issn.0253-4193.2016.03.011

1.
Hohai University School of Earth Science and Engineering, Nanjing 210098, China
2.
Hohai University College of Hydrology and Water Resources, Nanjing 210098, China
3.
Hohai University School of Earth Science and Engineering, Nanjing 210098, China

Received Date: 2015-02-12
Rev Recd Date: 2015-05-14

Abstract

Abstract

Tidal flat terrain is one of the most important indexes for us to exploit intertidal mudflat legitimately. Its measure method that using water boundary of tidal flat is now widely approved as a feasible method by remote sensing. Based on this method,the paper provided a new way named hydrological station baseline to construct tidal flat terrain. The way is established in a large tidal flat of radial sand ridges in coastal area of Jiangsu Province by connecting 4 hydrological stations in a row,used the values of water level,getting from the hydrological stations,to calculate water boundaries' elevation which were extracted from remote sensing images with multi tide situations. Accordingly,completed the construction of the tidal flat terrain of radial sand ridges. The accuracy was confirmed by actual measurement terrain. Results show that the DEM can reflect the current basic form of tidal flat and the position accuracy approach 30 m and the elevation accuracy approach 20 cm.
- water boundary,
- hydrological station baseline,
- radial sand ridges,
- water boundary points,
- hydrological station baseline points,
- DEM construction

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References(23)

References

Mason D C,Davenport I J,Flather R A,et al. Cover A digital elevation model of the inter-tidal areas of the Wash,England,produced by the waterline method[J]. International Journal of Remote Sensing,1998,19(8):1455-1460.

郑宗生,周云轩,蒋雪中,等. 崇明东滩水边线信息提取与潮滩DEM的建立[J]. 遥感技术与应用,2007,22(1):35-38,94. Zheng Zongsheng,Zhou Yunxuan,Jiang Xuezhong,et al. Waterline extraction and DEM reconstruction in Chongming Dongtan[J]. Remote Sensing Technology and Application,2007,22(1):35-38,94.

郑宗生,周云轩,刘志国,等. 基于水动力模型及遥感水边线方法的潮滩高程反演[J]. 长江流域资源与环境,2008,17(5):756-760. Zheng Zongsheng,Zhou Yunxuan,Liu Zhiguo,et al. DEM reconstruction based on hydrodynamicmodel and waterline method[J]. Resources and Environment in the Yangtze Basin,2008,17(5):756-760.

朱昂. 潮水沟LiDAR地形神经网络插补方法[D]. 南京:河海大学,2010:73. Zhu Ang. A method of interpolation for the Voids in Tidal Channel's DEM obtained by LiDAR base on neural network[D]. Nanjing:Hohai University,2010:73.

康彦彦. 基于纳潮盆地地貌特征线的潮滩地形模拟研究[D]. 南京:河海大学,2011:69. Kang Yanyan. Simulation of tidal flat terrain based on geomorphologic feature line of tidal basin[D].Nanjing:Hohai University,2011:69.

李青. 潮滩数字地形神经网络建模研究[D]. 南京:河海大学,2011:78. Li Qing. Neural network modeling research of tidal flat digital terrain[D]. Nanjing:Hohai University,2011:78.

王颖. 黄海陆架辐射沙脊群[M]. 北京:中国环境科学出版社,2002:29-228. Wang Ying. The Radiated Sand Ridge of Yellow Sea Shelf[M]. Beijing:China Environmental Science Press,2002:29-228.

任美锷. 江苏省海岸带和海涂资源综合调查报告[M]. 北京:海洋出版社,1985:60-236. Ren Mei'e. Jiangsu Coastal Zones and Tideland Resources Comprehensive Survey Report[M]. Beijing:China Ocean Press,1985:60-236.

邓书斌. ENVI遥感图像处理方法[M]. 北京:科学出版社,2010:212-220. Deng Shubin. ENVI Remote Sensing Image Processing Methods[M]. Beijing:Science Press,2010:212-220.

赵静. 数学建模与数学实验[M]. 第三版. 北京:高等教育出版社,2008:306-307. Zhao Jing. Mathematical Modeling and Mathematical Experiment[M]. 3rd edition. Beijing:Higher Education Press,2008:306-307.

汤国安,杨昕. ARCGIS地理信息系统空间分析实验教程[M]. 北京:科学出版社,2006:309. Tang Guo'an,Yang Xin. ARCGIS Geographic Information System Spatial Analysis Experiment Tutorial[M]. Beijing:Science Press,2006:309.

Lohani B. Construction of a digital elevation model of the Holderness Coast using the waterline method and airborne thematic mapper data[J]. International Journal of Remote Sensing,1999,20(3):593-607.

Mason D C,Davenport I J,Flather R A,et al. A sensitivity analysis of the waterline method of constructing a digital elevation model for intertidal areas in ERS SAR scene of eastern England[J]. Estuarine,Coastal and Shelf Science,2001,53(6):759-778.

Lohani B M D. Application of airborne scanning laser altimetry to the study of tidal channel geomorphology[J]. ISPRS Journal of Photogrammetry and Remote Sensing,2001,56(2):100-120.

Ryu Joo-Hyung,Won Joong-Sun,Min Kyung Duck. Waterline extraction from Landsat TM data in a tidal flat A case study in Gomso Bay,Korea[J]. Romote Sensing of Environment,2002,83:442-456.

韩震,恽才兴,戴志军,等. 淤泥质潮滩高程及冲淤变化遥感定量反演方法研究——以长江口崇明东滩为例[J]. 海洋湖沼通报,2009(1):12-18. Han Zhen,Yun Caixing,Dai Zhijun,et al. Remote sensing quantitative inversion research of the silt tidal flat elevation and deposition and erosion-Chongming Dongtan as the example[J]. Transactions of Oceanology and Limnology,2009(1):12-18.

张长宽. 江苏省近海海洋环境资源基本现状[M]. 北京:海洋出版社,2014:101-102. Zhang Changkuan. Basic Status Quo of Offshore Marine Environment and Resources in Jiangsu Province[M]. Beijing:China Ocean Press,2014:101-102.

郑宗生,周云轩,沈芳,等. 基于DTM的水边线遥感信息提取方法[J]. 国土资源遥感,2007(2):56-59. Zheng Zongsheng,Zhou Yunxuan,Shen Fang,et al. Waterline extraction from remotely sensed images with DTM[J]. Remote Sensing for Land & Resource,2007(2):56-59.

韩震,郭永飞,李睿,等. 长江口淤泥质潮滩环形水边线信息提取方法研究[J]. 国土资源遥感,2010(4):64-66. Han Zhen,Guo Yongfei,Li Rui,et al. Research on the method for ring waterside line information extraction from mudflat in the Yangtze River estuary[J]. Remote Sensing for Land & Resource, 2010(4):64-66.

Chen L C. A unified solution for digital terrain model and orthoimage generation from SPOT stereopairs[J]. IEEE Transactions on Geoscience and Remote Sensing,1993,31(6):1243-1252.

张鹰,丁贤荣,王文. 水深遥感与潮滩地形冲淤变化分析[J]. 港口工程,1998(2):26-30. Zhang Ying,Ding Xianrong,Wang Wen. Analysis remote sensing to water depth and change in scour and fill in tidal flat[J]. Port Engineering,1998(2):26-30.

钱一婧,张鹰,李洪灵,等. 常用边缘检测算法在遥感影像水边线提取比较[J]. 人民长江,2008,39(13):95-97. Qian Yiqian,Zhang Ying,Li Hongling,et al. Commonly used image edge detection algorithm in remote sensing to extract water edge[J]. Yangtze River,2008,39(13):95-97.

刘永学,李满春,张忍顺. 江苏辐射沙洲水边线自动提取方法研究[J]. 海洋科学,2004,28(6):42-45. Liu Yongxue,Li Manchun,Zhang Renshun. Jiangsu radiation ahoal water edge automatic extraction method research[J]. Marine Science,2004,28(6):42-45.

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