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    Identifying the Relationship between GPS Data Quality and Positioning Precision: Case Study on IGS Tracking Stations

    Source: Journal of Surveying Engineering:;2012:;Volume ( 138 ):;issue: 003
    Author:
    Ta-Kang Yeh
    ,
    Yi-Da Chung
    ,
    Chien-Ting Wu
    ,
    Chuan-Sheng Wang
    ,
    Kefei Zhang
    ,
    Chieh-Hung Chen
    DOI: 10.1061/(ASCE)SU.1943-5428.0000077
    Publisher: American Society of Civil Engineers
    Abstract: The number of global positioning system (GPS) tracking stations is increasing, primarily because the stations are multifunctional. In civil engineering, they can be used for precision positioning; in the earth sciences, they can be used to monitor faults and earthquakes; and in the atmospheric sciences, they can be applied to predict perceptible water vapor. Currently, there are more than 400 GPS stations in Taiwan; however, the data obtained through such stations are not being assessed carefully. Experienced scientists and engineers examine the data in advance to see if they qualify for research purposes, but inexperienced users can adopt poor quality data that eventually lead to inaccurate research results. Of the observation stations with receivers that were renewed between 2006 and 2008 in the International GNSS Service Network, four stations (ZIMM, BOR1, NRC1, and NICO) were selected to be the subjects of this research. Six indexes of data quality were observed to calculate the quality of data obtained before and after receiver renewal. Then, analyses were conducted to understand the relationship between the quality indexes and positioning precision. The results showed that after receiver renewal, the positioning precision of the four stations was improved by 1–19%. Therefore, positioning precision is positively affected by the six data quality indexes. It was also discovered that receiver clock error was the most critical factor among the six indexes. In conclusion, if data quality control can be applied to GPS tracking stations, the data obtained will be more reliable for research purposes, and the accuracy of subsequent engineering and science measurements will be improved.
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      Identifying the Relationship between GPS Data Quality and Positioning Precision: Case Study on IGS Tracking Stations

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    http://yetl.yabesh.ir/yetl1/handle/yetl/68956
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    • Journal of Surveying Engineering

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    contributor authorTa-Kang Yeh
    contributor authorYi-Da Chung
    contributor authorChien-Ting Wu
    contributor authorChuan-Sheng Wang
    contributor authorKefei Zhang
    contributor authorChieh-Hung Chen
    date accessioned2017-05-08T22:01:21Z
    date available2017-05-08T22:01:21Z
    date copyrightAugust 2012
    date issued2012
    identifier other%28asce%29su%2E1943-5428%2E0000124.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/68956
    description abstractThe number of global positioning system (GPS) tracking stations is increasing, primarily because the stations are multifunctional. In civil engineering, they can be used for precision positioning; in the earth sciences, they can be used to monitor faults and earthquakes; and in the atmospheric sciences, they can be applied to predict perceptible water vapor. Currently, there are more than 400 GPS stations in Taiwan; however, the data obtained through such stations are not being assessed carefully. Experienced scientists and engineers examine the data in advance to see if they qualify for research purposes, but inexperienced users can adopt poor quality data that eventually lead to inaccurate research results. Of the observation stations with receivers that were renewed between 2006 and 2008 in the International GNSS Service Network, four stations (ZIMM, BOR1, NRC1, and NICO) were selected to be the subjects of this research. Six indexes of data quality were observed to calculate the quality of data obtained before and after receiver renewal. Then, analyses were conducted to understand the relationship between the quality indexes and positioning precision. The results showed that after receiver renewal, the positioning precision of the four stations was improved by 1–19%. Therefore, positioning precision is positively affected by the six data quality indexes. It was also discovered that receiver clock error was the most critical factor among the six indexes. In conclusion, if data quality control can be applied to GPS tracking stations, the data obtained will be more reliable for research purposes, and the accuracy of subsequent engineering and science measurements will be improved.
    publisherAmerican Society of Civil Engineers
    titleIdentifying the Relationship between GPS Data Quality and Positioning Precision: Case Study on IGS Tracking Stations
    typeJournal Paper
    journal volume138
    journal issue3
    journal titleJournal of Surveying Engineering
    identifier doi10.1061/(ASCE)SU.1943-5428.0000077
    treeJournal of Surveying Engineering:;2012:;Volume ( 138 ):;issue: 003
    contenttypeFulltext
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    DSpace software copyright © 2002-2015  DuraSpace
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