高分辨率卫星立体双介质浅水水深测量方法

曹彬才; 邱振戈; 朱述龙; 涂辛茹; 曹芳; 曹斌

doi:10.11947/j.AGCS.2016.20150583

测绘学报 >

2016 , Vol. 45 >Issue 8: 952 - 963

DOI: https://doi.org/10.11947/j.AGCS.2016.20150583

摄影测量学与遥感

高分辨率卫星立体双介质浅水水深测量方法

曹彬才 ,
邱振戈 ,
朱述龙 ,
涂辛茹 ,
曹芳 ,
曹斌

展开

1. 上海海洋大学海洋测绘应用研究中心, 上海 201306;
2. 信息工程大学导航与空天目标工程学院, 河南郑州 450000;
3. 宜宾职业技术学院电子信息与控制工程系, 四川宜宾 644003

曹彬才(1987-),男,博士生,研究方向为海洋卫星遥感。E-mail:cbcontheway@163.com

收稿日期: 2015-11-19

修回日期: 2016-05-05

网络出版日期: 2016-08-31

基金资助

国家自然科学基金（41101396）；上海市科学技术委员会科研计划项目（14590502200）

收起

Shallow Water Bathymetry through Two-medium Photogrammetry Using High Resolution Satellite Imagery

CAO Bincai ,
QIU Zhenge ,
ZHU Shulong ,
TU Xinru ,
CAO Fang ,
CAO Bin

Expand

1. Research Center for Ocean Mapping and Applications, Shanghai Ocean University, Shanghai 201306, China;
2. College of Navigation and Aerospace Engineering, Information Engineering University, Zhengzhou 450000, China;
3. Department of Electronic Information and Control Engineering, Yibin Vocational and Technical College, Yibin 644003, China

Received date: 2015-11-19

Revised date: 2016-05-05

Online published: 2016-08-31

Supported by

The National Natural Science Foundation of China (No. 41101396);Shanghai Municipal Science and Technology Commission(No. 14590502200)

Fold

摘要

提出了一种基于高分辨率卫星多光谱立体像对的浅水水深测量方法。该方法利用多光谱近红波段消除太阳耀斑，以有理函数模型（RFM）构建测区原始DEM，通过水陆边界内插获得水面高程，并采用双介质近似折射改正模型消除目标点垂直坐标偏移。试验表明，本文的模型方法和处理流程在水面平静、底质纹理丰富的浅海岛礁水深反演中能取得优于20%的相对测深精度，可为浅水水深测量提供新手段。

关键词： 高分辨率卫星影像; 双介质摄影测量; 水下地形; 折射改正; 几何关系; 精度

本文引用格式

曹彬才 , 邱振戈 , 朱述龙 , 涂辛茹 , 曹芳 , 曹斌 . 高分辨率卫星立体双介质浅水水深测量方法[J]. 测绘学报, 2016 , 45(8) : 952 -963 . DOI: 10.11947/j.AGCS.2016.20150583

Abstract

This paper develops an automated shallow water bathymetry procedure based on two-medium photogrammetry using high resolution satellite multispectral imagery. In this method, near-infrared band were used for sunglint elimination and rational function model (RFM) was applied for raw DEM generation. By extracting the water-land edge and interpolating edge elevation, water surface position could be determined. An approximation refraction correction model, in which all homonymy lights were regarded as intersect to the same observed point, was adopted to correct the vertical offsets. Experimental results indicate that DEM accuracy of satellite two-medium photogrammetry is better than 20% of the average depth under the circumstance of relatively calm water and rich bottom texture.

Key words： high resolution satellite imagery; two-medium photogrammetry; underwater topography; refraction correction; geometric relation; accuracy

参考文献

[1] 党亚民,程鹏飞,章传银,等.海岛礁测绘技术与方法[M].北京:测绘出版社,2012:277-278.DANG Yamin,CHENG Pengfei,ZHANG Chuanyin,et al.Surveying and Mapping Technology of Island and Reef[M].Beijing:Surveying and Mapping Press,2012:277-278.
[2] PLESKACHEVSKY A,LEHNER S,HEEGE T,et al.Synergy and Fusion of Optical and Synthetic Aperture Radar Satellite Data for Underwater Topography Estimation in Coastal Areas[J].Ocean Dynamics,2011,61(12):2099-2120.
[3] LEGLEITER C J.Remote Measurement of River Morphology via Fusion of LiDAR Topography and Spectrally Based Bathymetry[J].Earth Surface Processes and Landforms,2012,37(5):499-518.
[4] CALKOEN C J,HESSELMANS G H F M,WENSINK G J,et al.The Bathymetry Assessment System:Efficient Depth Mapping in Shallow Seas Using Radar Images[J].International Journal of Remote Sensing,2001,22(15):2973-2998.
[5] SHOALS-3000,Hydrographic Charting and More[EB/OL].(2006-08-26)[2015-10-03].http://www.geo3d.hr/download/shoals/SHOALS_3000.pdf.
[6] STUMPF R P,HOLDERIED K,SINCLAIR M.Determination of Water Depth with High-resolution Satellite Imagery over Variable Bottom Types[J].Limnology and Oceanography,2003,48(1):547-556.
[7] LYZENGA D R,MALINAS N P,TANIS F J.Multispectral Bathymetry Using a Simple Physically Based Algorithm[J].IEEE Transactions on Geoscience and Remote Sensing,2006,44(8):2251-2259.
[8] 滕惠忠,熊显名,李海滨,等.遥感水深反演海图修测应用研究[J].海洋测绘,2009,29(6):21-25.TENG Huizhong,XIONG Xianming,LI Haibin,et al.Research on the Use of Retrieving Sounding by Satellite Remote Sensing in Chart Surveying[J].Hydrographic Surveying and Charting,2009,29(6):21-25.
[9] LEE Z,CARDER K L,MOBLEY C D,et al.Hyperspectral Remote Sensing for Shallow Waters.2.Deriving Bottom Depths and Water Properties by Optimization[J].Applied Optics,1999,38(18):3831-3843.
[10] MA Sheng,TAO Zui,YANG Xiaofeng,et al.Bathymetry Retrieval from Hyperspectral Remote Sensing Data in Optical:Shallow Water[J].IEEE Transactions on Geoscience and Remote Sensing,2014,52(2):1205-1212.
[11] 王之卓.摄影测量原理[M].北京:测绘出版社,1990:340-345.WANG Zhizhuo.Principles of Photogrammetry[M].Beijing:Surveying and Mapping Press,1990:340-345.
[12] 默顿斯L E.水中摄影学[M].张闻迪,关福民,杨作昇,译.北京:科学出版社,1979:107-124.MODUNCE L E.In-water Photography[M].ZHANG Wendi,GUAN Fumin,YANG Zuosheng,trans.Beijing:Science Press,1979:107-124.
[13] 王有年,韩玲,王云.水下近景摄影测量试验研究[J].测绘学报,1988,17(3):217-224.WANG Younian,HAN Lin,WANG Yun.Experimental Research of Underwater Close-range Photogrammetry[J].Acta Geodaetica et Cartographica Sinica,1988,17(3):217-224.
[14] 常本义.双介质摄影测量基本公式[J].测绘学报,1991,20(4):288-294.CHANG Benyi.Basic Formulas of Two-media Photogrammetry[J].Acta Geodaetica et Cartographica Sinica,1991,20(4):288-294.
[15] 单杰.双介质摄影测量的相对定向[J].测绘学院学报,1993(3):38-44.SHAN Jie.Relative Orientation for Two-media Photogrammetry[J].Journal of the Institute of Surveying and Mapping,1993(3):38-44.
[16] FRYER J G.A Simple System for Photogrammetric Mapping in Shallow Water[J].The Photogrammetric Record,1983,11(62):203-208.
[17] FRYER J G,KNIEST H T.Errors in Depth Determination Caused by Waves in Through-water Photogrammetry[J].The Photogrammetric Record,1985,11(66):745-753.
[18] MURASE T,TANAKA M,TANI T,et al.A Photogrammetric Correction Procedure for Light Refraction Effects at a Two-medium Boundary[J].Photogrammetric Engineering&Remote Sensing,2008,74(9):1129-1136.
[19] BUTLER J,LANE S,CHANDLER J,et al.Through-water Close Range Digital Photogrammetry in Flume and Field Environments[J].The Photogrammetric Record,2002,17(99):419-439.
[20] WESTAWAY R M,LANE S N,HICKS D M.Remote Survey of Large-scale Braided,Gravel-bed Rivers Using Digital Photogrammetry and Image Analysis[J].International Journal of Remote Sensing,2003,24(24):795-815.
[21] 杨新宇.双介质近景摄影测量用于隧道模型地层移动观测[J].测绘学报,1987,16(4):261-270.YANG Xinyu.Two-media Close-range Photogrammetric Measurement of Sandy Soil Movements around Tunnel Models[J].Acta Geodaetica et Cartographica Sinica,1987,16(4):261-270.
[22] ELFICK M,FRYER J.Mapping in Shallow Water[C]//Proceedings of 1984 International Archives of Photogrammetry and Remote Sensing.Rio de Janeiro,Brasil:IAPRS,1984,25:240-247.
[23] GEORGOPOULOS A,AGRAFIOTIS P.Documentation of a Submerged Monument Using Improved Two Media Techniques[C]//Proceedings of the 201218th International Conference on Virtual Systems and Multimedia.Milan,Italy:IEEE,2012:173-180.
[24] PRZYBILLA H J,KOTOWSKI R,MEID A,et al.Geometrical Quality Control in Nuclear Power Stations:A Procedure for High Precision Underwater Photogrammetry[C]//Proceedings of 1988 International Archives of Photogrammetry and Remote Sensing.Kyoto,Japan:IAPRS,1988,27:513-526.
[25] DigitalGlobe.WorldView-2 Overview[EB/OL].(2009-06-04)[2015-07-01].http://satimagingcorp.s3.amazonaws.com/site/pdf/WorldView_2_Overview.pdf.
[26] HEDLEY J D,HARBORNE A R,MUMBY P J.Technical Note:Simple and Robust Removal of Sun Glint for Mapping Shallow-water Benthos[J].International Journal of Remote Sensing,2005,26(10):2107-2112.
[27] 刘军,张永生,王冬红.基于RPC模型的高分辨率卫星影像精确定位[J].测绘学报,2006,35(1):30-34.LIU Jun,ZHANG Yongsheng,WANG Donghong.Precise Positioning of High Spatial Resolution Satellite Images Based on RPC Models[J].Acta Geodaetica et Cartographica Sinica,2006,35(1):30-34.
[28] CAO Bincai,QIU Zhenge,ZHU Shulong,et al.A solution to RPCs of Satellite Imagery with Variant Integration Time[J].Survey Review,2015.DOI:10.1179/1752270615 Y.0000000036.
[29] DigitalGlobe.WorldView-2 Data Sheet[EB/OL].(2013-06-09)[2015-05-18].http://global.digitalglobe.com/sites/default/files/DG_WorldView2_DS_PROD.pdf.

Options

文章导航

模态框（Modal）标题

摘要

本文引用格式

Abstract

参考文献