Wetlands Information Automatic Extraction from High Resolution Remote Sensing Imagery Based on Object-orient Technology

doi:10.13474/j.cnki.11-2246.2014.0320

Abstract

CLC Number:

Tp75

ZHU Changming, LI Junli, ZHANG Xin, LUO Jiancheng. Wetlands Information Automatic Extraction from High Resolution Remote Sensing Imagery Based on Object-orient Technology[J]. 测绘通报, 2014, 0(10): 23-28.

References

[1] Kuzila M.S, Rnndquist D.C and Green J.A. Methods for estimating wetland loss: the Rain basin region of Nebraska, 1927—1981[J]. Journal of Soil and Water Conservation, 1991, Vol.46(6):441~446.
[2] 刘红玉,李玉凤,曹晓等.我国湿地景观研究现状、存在问题和发展方向[J].地理学报，2009，Vol.64,No.11:1394~1401.
[3] M. F. Augusteijn & C. E. Warrender. Wetland classification using optical and radar data and network classification [J]. International Journal of Remote Sensing, 1998,Volume 19, Issue 8, pages 1545-1560.
[4] Lunetta R S, Balogh M E. Application of Multi-Temporal Landsat5 TM lmagery for Wetland Identification [J]. Photogrammetric Engineering and Remote Sensing，1999.65(11):1303~1310.
[5] Rebecca L. Phillips, Ofer Beeri and Edward Shawn DeKeyser. Remote wetland assessment for Missouri coteau praitie acial basins[J]. Wetlands, 2005, Vol. 25(2):335 -349.
[6] 黎夏,刘凯，王树功.珠江口红树林湿地演变及遥感定量分析[J].地理学报，2006,61（1）：26~35
[7] 张树清等. 3S支持下的中国典型沼泽湿地景观时空动态变化研究[M]. 吉林大学出版社，2008.
[8] Blaschke T., Hay G. J., 2001. Object-oriented Image Analysis and Scale-space: Theory and Methods for Modeling and Evaluating Multiscale Landscape Structures, International Archives of Photogrammetry and Remote Sensing, 34(4):22-29
[9] Benz U. C., Hofmman P. G., et al, 2004. Multi-resolution, object-oriented fuzzy analysis of remote sensing data for GIS-ready information, ISPRS Journal of Photogrammetry & Remote Sensing, 58:239-258
[10] eCognition User Guide. Definitions Imaging GmbH, Munich eCognition: http://www.definiens-imaging.com/:2003-12-30
[11] Blaschke T., Lang S., Lorup E., Strobl J., Zeil P., 2000. Object-oriented image processing in an integrated GIS/remote sensing environment and perspectives for environmental applications, Environmental Information for Planning, Politics and the Public, Metropolis Verlag, Marburg, 2:555-570
[12] Shackelford A. K., Davis C. H., 2003. A hierarchical fuzzy classification approach for high-resolution multispectral data over urban areas, IEEE Transactions on Geoscience and Remote Sensing, vol.4, no.9, pp.1920–1932
[13] 陈云浩，冯通，史培军等.基于面向对象的和规则的遥感影像分类研究[J].武汉大学学报信息科学版，2006，
[14] 郑丽娟，李小娟，胡德勇等.基于对象和辅助DEM的湿地提取——以洪泽湖湿地为例[J],
[15] 谢静，王宗明，毛德华等.基于面向对象方法和多时相HJ-1影像湿地遥感分类——完达山以北三江平原为例[J].湿地科学，2012，（4）
[16] 孙永军，童庆喜，秦其明.利用面向对象方法提取湿地信息[J].国土资源遥感，2008
[17] 莫丽江，曹宇，胡远满等.面向对象的湿地景观遥感分类——以杭州湾南岸地区为例[J].湿地科学，2012，Vol.10(1):206-214.
[18] 《湿地公约》履约办公室. 关于特别是作为水禽栖息地的国际重要湿地公约(中译本)[EB/OL]. 国家林业局野生动植物保护司. 2004[2012-05-08]. http://www.chinabiodiversity.com/china-news/wet.htm.
[19] 明冬萍,王群,杨建宇.遥感影像空间尺度特性与最佳空间分辨率选择[J].遥感学报, 2008,Vol.12, No4:529~538.
[20] Lucas, I. F. J., Frans, J. M. Accuracy assessment of satellite derived land-cover data: a review. Photogrammetric Engineering & Remote Sensing, 1994, 60(4): 410-432.