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Improved threshold retracker for satellite altimeter waveform retracking over coastal sea
引用本文:GUO Jinyun,HWANG Cheiway,CHANG Xiaotao,LIU Yuting. Improved threshold retracker for satellite altimeter waveform retracking over coastal sea[J]. 自然科学进展(英文版), 2006, 16(7): 732-738. DOI: 10.1080/10020070612330061
作者姓名:GUO Jinyun  HWANG Cheiway  CHANG Xiaotao  LIU Yuting
作者单位:1. Department of Land Information and Surveying Engineering, Xuzhou Normal University, Xuzhou 221116, China; 2. Department of Civil Engineering, National Chiao Tung University, Hsinchu 30050, Taiwan, China; 3. Institute of Geodesy, China Academy of Surveying and Mapping, Beijing 100039, China
基金项目:国家高技术研究发展计划(863计划);江苏省自然科学基金;台湾省自然科学基金
摘    要:Data quality is a key factor for the application of satellite altimetry to geodesy and oceanography. Accuracy of altimetry is limited in the coastal area because the altimeter waveforms are seriously contaminated by topography and environmental pollution. So waveform retracking is needed to compute the range correction of geophysical data records (GDRs) for better accuracy. In this paper, a new waveform retracker named the improved threshold retracker (ITR) is put forward. The retracker first builds sub-waveforms based on leading edges detected in a waveform, then determines the middle point of each leading edge to compute the retracking range correction, finally calculates the referenced sea surface heights according to the geoid undulation from a local geopotential model and tide heights from an ocean tide model, and compares it with all retracking ranges to determine the best one. As a test, altimeter waveforms of Geosat/GM are retracked around the Taiwan coastal area. The result shows that accuracy of ITR method is two times better than that of the β-5-parameter function-fitting method and threshold method, and three times better than that of GDRs. ITR can efficiently improve the altimetry accuracy of the coastal sea area.

关 键 词:satellite altimetry   waveform retracking   improved threshold retracker   sub-waveform.

Improved threshold retracker for satellite altimeter waveform retracking over coastal sea
GUO Jinyun,HWANG Cheiway,CHANG Xiaotao,LIU Yuting. Improved threshold retracker for satellite altimeter waveform retracking over coastal sea[J]. Progress in Natural Science, 2006, 16(7): 732-738. DOI: 10.1080/10020070612330061
Authors:GUO Jinyun  HWANG Cheiway  CHANG Xiaotao  LIU Yuting
Abstract:Data quality is a key factor for the application of satellite altimetry to geodesy and oceanography. Accuracy of altimetry is limited in the coastal area because the altimeter waveforms are seriously contaminated by topography and environmental pollution. So waveform retracking is needed to compute the range correction of geophysical data records (GDRs) for better accuracy. In this paper, a new waveform retracker named the improved threshold retracker (ITR) is put forward. The retracker first builds sub-waveforms based on leading edges detected in a waveform, then determines the middle point of each leading edge to compute the retracking range correction,finally calculates the referenced sea surface heights according to the geoid undulation from a local geopotential model and tide heights from an ocean tide model, and compares it with all retracking ranges to determine the best one. As a test, altimeter waveforms of Geosat/GM are retracked around the Taiwan coastal area. The result shows that accuracy of ITR method is two times better than that of theβ-5-parameter function-fitting method and threshold method, and three times better than that of GDRs. ITR can efficiently improve the altimetry accuracy of the coastal sea area.
Keywords:satellite altimetry  waveform retracking  improved threshold retracker  sub-waveform
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