Please wait a minute...
img

Wechat

Remote Sensing Technology and Application  2007, Vol. 22 Issue (4): 575-580    DOI: 10.11873/j.issn.1004-0323.2007.4.575
    
An Overview of Means of Withdrawing Coastline by Remote Sensing
MA Xiao-feng1,2, ZHAO Dong-zhi1, ZHANG Feng-shou1,WEN Shi-yong1,2, YANG Fan1,2
(1.National Marine Environmental Monitoring Center,Dalian116023,China;2.Dalian Maritime University College of Environment Engineering,Dalian116026,China)
Download:  PDF (0KB) 
Export:  BibTeX | EndNote (RIS)      
Abstract  

The coastline is the base directrix divides the region of sea and land management. The different seacoast landform coastline division rests on various, therefore, they translate the symbol on the satellite imagery solution with to withdraw the method also to have the difference. This article elaborated has carried on the coastline dynamic monitor using the remote sensing the superiority and the coastline essential feature and the classification, has been clear about in each domain to the coastline different definition, had pointed out the different type seacoast remote sensing solution translated the symbol. In detail elaborated in the different type satellite imagery coastline image formation mechanism, introduced
the use satellite remote sensing image withdraws each kind of coastline the algorithm and the developing process, and withdrew the algorithm to in the remote sensing image coastline the development direction to make the analysis.

Key words:  Costline      Remote sensing image      Extracting costline      Wavelet change      SAR     
Received:  01 November 2006      Published:  25 November 2011
TP 79  
Service
E-mail this article
Add to my bookshelf
Add to citation manager
E-mail Alert
RSS
Articles by authors

Cite this article: 

MA Xiao-feng, ZHAO Dong-zhi, ZHANG Feng-shou,WEN Shi-yong, YANG Fan. An Overview of Means of Withdrawing Coastline by Remote Sensing. Remote Sensing Technology and Application, 2007, 22(4): 575-580.

URL: 

http://www.rsta.ac.cn/EN/10.11873/j.issn.1004-0323.2007.4.575     OR     http://www.rsta.ac.cn/EN/Y2007/V22/I4/575

[1] 刘宝银,苏奋振.中国海岸带于海岛遥感调查—原则、方法、系统[M].北京:海洋出版社,2005.
[2] 丁登山等译.自然地理学原理[M].北京:高等教育出版社,1996.
[3] 孙美仙,张伟.福建省海岸线遥感调查方法及其应用研究[J].台湾海峡,2004,23(2):213-218.
[4] Le Moigne J, Tilton J C.Refining Image Segmentation by Integration of Edge and Region Data [J]. IEEE Trans.Geosci.Remote Sens.,1995,33:605-615.
[5] Palmer P L, Petrou M. Locating Boundaries of Textured Regions[J].IEEE Trans. Geosci. Remote Sens.,1997,35(5):1367-1371.
[6] 冯兰娣,孙效功,胥可辉.利用海岸带遥感图像提取岸线的小波变换方法[J].青岛海洋大学学报,2002,32(5):777-781.
[7] 王宇,王乘,刘吉平.一种基于数学形态学的遥感图像边缘检测算法[J].重庆邮电学院学报,2003,15(2):57-60.
[8] Giancarlo B, Silvana D, Raimondo D.Semiautomatic Coastline Detection in Remote Sensing Images[A]. Proc.of the IEEE 2000 Int' l Geoscience and Remote Sensing Symp.,(IGARSS 00)[C].Hawaii,2000.
[9] Onana V P, Mvogo J, Trebossen H,et al.Coastline Detection in SAR Images Using Texture Analysis in Textural or Geometrical Multi-resolution
[A]. Proc. of the IEEE 2001Int' l Geoscience and Remote Sensing Symp.,(IGARSS 01)[C].Sydney,2001.
[10] Lu L M, Wang R S.SAR Regional Object Detection Based on Multi-scale Features[A].In:Petrou M,ed.Proc.of the 2nd Pattern Recognition for Remote Sensing Workshop (PRRS)[C].2002.
[11] Marques PAC.Efficient Detection and Ground Mapping of Selected Moving Targets Using SAR Raw-data[A].Proc.of the IEEE 1999 Int' l Geoscience and Remote Sensing Symp.,(IGARSS' 99)[C].Hamburg,1999.
[12] Lu L M, Wang R S, Li W G.A Target Detection Method in Range-Doppler Domain from SAR Echo Data[A].Proc.of the 16th Int' l Conf. on Pattern Recognition (ICPR) [C].2002.
[13] 陆立明,王润生,李武皋.基于合成孔径雷达回波数据的海岸线提取方法[J].软件学报,2004,15(4):531-536.
[14] Lee J S, Jurkevich I.Coastline Detection and Tracing in SAR Image [J]. IEEE Transactions on Geoscienceand Remote Sensing,1990,28(4):662-668.
[15] Lee J S.Speckle Analysis and Smoothing of Synthetic Aperture Radar Images[J].Computer Graph Image Process,1981,17:24-32.
[16] Dellepiane S, Laurentiis R D, Giordano F.Coastline Extraction from SAR Images and A Method for the Evaluation of the Coastline Precision [J]. Pattern Recognition Letters,2004,25:1461-1470.
[17] Marcus Schwabisch, Susanne Lehner, Norbert Winkele.Coastline Extraction Using ERS SAR Interferometry[A].Proc.3rd ERS Symp. on Space at the Service of our Environment[C].Florence,Italy,1997,3:1049-1053.
[18] Stanley Osher, James Sethian.Fronts Propagating with Curvature-dependent Speed: Algorithms Based on Hamilton Jacobi Formulations
[J].Journal of Computational Physics,1988,79:12-49.
[19] 欧阳越,钟劲松.基于改进水平截集算法的SAR图像海岸线检测[J].遥感技术与应用,2004,19(6):456-460.
[20] 杜涛,张斌.小波技术分析遥感图像确定岸线位置的研究[J].海洋科学,1999,4:19-21.
[21] 李林茹,高双喜,曹淑服.基于小波变换和梯度矢量流Snake模型的ERS-1 SAR图像的海岸线探测[J].河北工业科技,2004,21(4):24-33.
[22] Andreas Niedermeier, Edzard RomaneeBen, Susanne Lehner.Detection of Coastlines in SAR Images Using Wavelet Methods[J].IEEE Transactions on Geoscience and Remote Sensing,2000,38(5):2270-2281.
[23] 杨虎,郭华东,王长林.TM-SAR数据融合在黄河口沙嘴动态监测中的应用研究[J].2001,17(4):15-19.
[24] Balkema, Rotterdam.Progress in Environmental Remote Sensing Research and Application[M].1996.
[25] 王琳,徐涵秋,李胜.厦门岛及其邻域海岸线变化的遥感动态监测[J].遥感技术与应用,2005,20(4):404-410.
[26] 张永继,闫冬梅,曾峦,等.基于邻域相关信息的海岸线提取方法[J].装备指挥技术学院学报,2005,16(6):88-92.
[27] 景晓军,蔡安妮,孙景鳌.一种基于二维最大类间方差的图像分割算法[J].通信学报,2001,22(4):72-76.
[28] Kevin White, Hesham M.El Asmar.Monitoring Changing Position of Coastlines Using Thematic Mapper Imagery,An Example from the Nile Delta
[J].Geomorphology,1999,29:93-105.
[29] 朱小鸽.珠江口海岸线变化的遥感监测[J].海洋环境科学,2002,21(2):20-22.
[30] Lodhi M A, Rundquist D C, Han L,et al.The Potential for Remote Sensing of Loess Soils Suspended in Surface Water [J].Journal of the American Water Resources Association,1997,33(1):111-127.
[31] Ryu J H, Won J S,Kyung Duck Min. Waterline Extraction from Landsat TM Data in A Tidal Flat A Case Study in Gomso Bay[J].Remote Sensing of Environment,2002,83:442-456.
[32] 黄海军,李成治,郭建军.卫星影像在黄河三角洲变化研究中的应用[J].海洋地质与第四纪地质,1994,14(2):30-37.
[33] 韩震,恽才兴.伶仃洋大铲湾潮滩冲淤遥感反演研究[J].海洋学报,2003,25(2):58-63.

No Suggested Reading articles found!