休斯顿全球导航卫星系统沉降和故障监测网络:数据分析方法和产品

IF 1.8 3区 工程技术 Q3 ENGINEERING, CIVIL
Guoquan Wang, Ashley Greuter, Christina M. Petersen, M. Turco
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引用次数: 2

摘要

哈里斯-加尔维斯顿下沉区(HGSD)与其他几个机构合作,自20世纪90年代初以来,一直在大休斯顿地区运营一个密集的全球导航卫星系统(GNSS)网络,用于下沉和断层监测。该GNSS网络被命名为HoustonNet,截至2021年,由大约250个永久GNSS站组成。本文记录了用于产生位置时间序列,将坐标从全球参考框架转换为区域参考框架,识别异常值和步骤,分析季节运动以及估计站点速度和不确定性的方法。本文提出的GNSS定位方法在大休斯顿地区南北和东西方向每日定位的RMS精度为2 - 4 mm,垂直方向定位的RMS精度为5 - 8 mm。5年或更长时间的连续观测能够达到每年亚毫米的水平和垂直站点速度的不确定性(95%置信区间)。二十年的GNSS观测表明,自2000年代以来,本德堡县的Katy、哈里斯县西北部的泽西村和蒙哥马利县南部的Woodlands是受沉降影响最大的地区(1-2厘米=年);由于HGSD和其他地方机构执行的地下水法规,总体沉降率和沉降面积(bbb50 mm=年)一直在减少。休斯顿网的数据和产品通过HGSD向公众发布。主要产品是相对于国际GNSS服务(IGS)参考框架2014 (IGS14)、稳定的墨西哥湾参考框架(GOM20)和稳定的休斯顿参考框架(Houston20)的每日东-北-上(ENU)位置时间序列和站点速度。关于休斯顿20的ENU位置时间序列被推荐用于描绘大休斯顿地区的沉降和断层。关于GOM20的ENU时间序列被推荐用于研究墨西哥湾沿岸平原内的沉降和断层以及墨西哥湾沿岸的海平面变化。整个休斯顿网的数据集每隔几年就会用更新的定位软件、IGS和区域参考框架以及数据分析工具重新处理一次。我们建议用户使用最新发布的HoustonNet数据产品,避免新旧头寸混用。Doi: 10.1061/ (asce) su.1943-5428.0000399。本作品在知识共享署名4.0国际许可协议(https://creativecommons.org/licenses/by/4.0/)下提供。关键词:断裂;全球卫星导航系统;休斯敦;参考系;季节性运动;沉降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Houston GNSS Network for Subsidence and Faulting Monitoring: Data Analysis Methods and Products
Harris-Galveston Subsidence District (HGSD), in collaboration with several other agencies, has been operating a dense Global Navigation Satellite System (GNSS) network for subsidence and faulting monitoring within the Greater Houston region since the early 1990s. The GNSS network is designated HoustonNet, comprising approximately 250 permanent GNSS stations as of 2021. This paper documents the methods used to produce position time series, transform coordinates from the global to regional reference frames, identify outliers and steps, analyze seasonal movements, and estimate site velocities and uncertainties. The GNSS positioning methods presented in this paper achieve 2–4-mm RMS accuracy for daily positions in the north–south and east–west directions and 5–8-mm accuracy in the vertical direction within the Greater Houston region. Five-year or longer continuous observations are able to achieve submillimeter-per-year uncertainties (95% confidence interval) for both horizontal and vertical site velocities. Two decades of GNSS observations indicate that Katy in Fort Bend County, Jersey Village in northwestern Harris County, and The Woodlands in southern Montgomery County have been the areas most affected by subsidence (1–2 cm=year) since the 2000s; the overall subsidence rate and the size of subsiding area (>5 mm=year) have been decreasing as a result of the groundwater regulations enforced by HGSD and other local agencies. HoustonNet data and products are released to the public through HGSD. The primary products are the daily East-North-Up (ENU) position time series and site velocities with respect to the International GNSS Service (IGS) Reference Frame 2014 (IGS14), the stable Gulf of Mexico Reference Frame (GOM20), and the stable Houston Reference Frame (Houston20). The ENU position time series with respect to Houston20 are recommended for delineating subsidence and faulting within the Greater Houston region. The ENU time series with respect to GOM20 are recommended for studying subsidence and faulting within the Gulf coastal plain and sea-level changes along the Gulf Coast. The entire HoustonNet data set is reprocessed every a few years with updated positioning software, IGS and regional reference frames, and data analysis tools. We recommend that users use the most recent release of HoustonNet data products and avoid mixing old and new positions. DOI: 10.1061/ (ASCE)SU.1943-5428.0000399. This work is made available under the terms of the Creative Commons Attribution 4.0 International license, https://creativecommons.org/licenses/by/4.0/. Author keywords: Faulting; Global navigation satellite system (GNSS); Houston; Reference frame; Seasonal motion; Subsidence.
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来源期刊
Journal of Surveying Engineering
Journal of Surveying Engineering 工程技术-工程:土木
CiteScore
3.40
自引率
10.50%
发文量
29
审稿时长
>12 weeks
期刊介绍: The Journal of Surveying Engineering covers the broad spectrum of surveying and mapping activities encountered in modern practice. It includes traditional areas such as construction surveys, control surveys, photogrammetric mapping, engineering layout, deformation measurements, precise alignment, and boundary surveying. It also includes newer development such as satellite positioning; spatial database design, quality assurance, and information management of geographic information systems; computer applications involving modeling, data structures, algorithms, and information processing; digital mapping, coordinate systems, cartographic representations, and the role of surveying engineering professionals in an information society.
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