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    다중 GNSS 관측 환경에 따른 기선해석 정밀도 특성 분석

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    https://www.riss.kr/link?id=T17367967

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    This study investigates the precision characteristics of multi-GNSS static
    baseline processing under diverse observational environments using three
    commercial software packages. Five test sites were selected from an
    open area to a dense high-rise urban canyon, and four Leica receivers
    which simultaneously tracked GPS, GLONASS, Galileo, and BeiDou signals
    for about five hours at each site. The observations were divided into
    one-hour sessions. They were processed as very-short baselines between
    closely spaced receivers and short baselines between each site and a
    nearby CORS for eight GNSS combinations from GPS-only to four-system
    integration. Horizontal and height precision were evaluated from ENU
    residual statistics, along with a dedicated experiment on GLONASS
    inter-frequency phase bias. In favorable environments, multi-GNSS
    combinations generally improved precision over GPS-only, confirming
    system interoperability. In obstructed urban environments, however,
    precision strongly depended on the software and GNSS combination, and - 98 -
    some GLONASS-inclusive combinations showed degraded performance.
    Triple and quadruple combinations such as GEC and GREC still achieved
    centimeter-level horizontal precision, indicating their practical applicability
    for urban control surveys. The results also indicate that high
    ambiguity-fixing rates do not necessarily guarantee reliable solutions. This
    underscores the importance of jointly examining software-provided quality
    indicators, such as residuals and posterior variances, and performing
    reprocessing or additional observations when these indicators degrade
    abnormally.
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    This study investigates the precision characteristics of multi-GNSS static baseline processing under diverse observational environments using three commercial software packages. Five test sites were selected from an open area to a dense high-rise u...

    This study investigates the precision characteristics of multi-GNSS static
    baseline processing under diverse observational environments using three
    commercial software packages. Five test sites were selected from an
    open area to a dense high-rise urban canyon, and four Leica receivers
    which simultaneously tracked GPS, GLONASS, Galileo, and BeiDou signals
    for about five hours at each site. The observations were divided into
    one-hour sessions. They were processed as very-short baselines between
    closely spaced receivers and short baselines between each site and a
    nearby CORS for eight GNSS combinations from GPS-only to four-system
    integration. Horizontal and height precision were evaluated from ENU
    residual statistics, along with a dedicated experiment on GLONASS
    inter-frequency phase bias. In favorable environments, multi-GNSS
    combinations generally improved precision over GPS-only, confirming
    system interoperability. In obstructed urban environments, however,
    precision strongly depended on the software and GNSS combination, and - 98 -
    some GLONASS-inclusive combinations showed degraded performance.
    Triple and quadruple combinations such as GEC and GREC still achieved
    centimeter-level horizontal precision, indicating their practical applicability
    for urban control surveys. The results also indicate that high
    ambiguity-fixing rates do not necessarily guarantee reliable solutions. This
    underscores the importance of jointly examining software-provided quality
    indicators, such as residuals and posterior variances, and performing
    reprocessing or additional observations when these indicators degrade
    abnormally.

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    목차 (Table of Contents)

    • I. 서론
    • 1. 배경 및 목적 ···································································································1
    • 2. 연구 동향 ·········································································································3
    • 3. 연구내용 및 방법 ···························································································5
    • II. 다중 GNSS 기선해석
    • I. 서론
    • 1. 배경 및 목적 ···································································································1
    • 2. 연구 동향 ·········································································································3
    • 3. 연구내용 및 방법 ···························································································5
    • II. 다중 GNSS 기선해석
    • 1. 다중 GNSS 현황 ·····························································································7
    • 1) GPS ···············································································································7
    • 2) GLONASS ···································································································10
    • 3) Galileo ········································································································13
    • 4) BeiDou ········································································································15
    • 2. 관측데이터 및 오차 ·····················································································18
    • 1) 의사거리 ····································································································18
    • 2) 반송파 ········································································································18
    • 3) 관측데이터 표준 형식 ············································································19
    • 4) 관측오차 ····································································································21- iii -
    • (1) 기선장 오차 ·························································································21
    • (2) 관측 지점 오차 ···················································································22
    • (3) 관측데이터의 차분 ·············································································23
    • 3. 기선해석 ·········································································································26
    • III. 관측 실험
    • 1. 관측 장비 ·······································································································31
    • 2. 관측 ·················································································································35
    • 1) 자료 획득 및 변환 ··················································································35
    • 2) 관측 환경 ··································································································36
    • (1) Site #01 ································································································37
    • (2) Site #02 ································································································38
    • (3) Site #03 ································································································39
    • (4) Site #04 ································································································40
    • (5) Site #05 ································································································41
    • 3. 기선해석 및 분석 방법 ···············································································42
    • 1) 기선 구성 ··································································································42
    • (1) 초단기선 ·······························································································42
    • (2) 단기선 ···································································································44
    • 3) 기선해석 ····································································································45- iv -
    • IV. 결과 및 고찰
    • 1. 가관측 위성 수 ·····························································································48
    • 1) Site #01 ·····································································································48
    • 2) Site #02 ·····································································································49
    • 3) Site #03 ·····································································································50
    • 4) Site #04 ·····································································································51
    • 5) Site #05 ·····································································································52
    • 2. GLONASS IFPB 보정 ···················································································53
    • 3. 초단기선 결과 ·······························································································56
    • 1) 잔차 시계열 ······························································································58
    • 2) 정밀도 ········································································································62
    • (1) Site #01 ································································································62
    • (2) Site #02 ································································································66
    • (3) Site #03 ································································································68
    • (4) Site #04 ································································································70
    • (5) Site #05 ································································································72
    • (6) 요약 ·······································································································74
    • 3. 단기선 결과 ···································································································74
    • 1) 잔차 시계열 ······························································································76
    • 2) 정밀도 ········································································································80
    • (1) Site #01 ································································································80
    • (2) Site #02 ································································································82- v -
    • (3) Site #03 ································································································83
    • (4) Site #04 ································································································85
    • (5) Site #05 ································································································87
    • (6) 요약 ·······································································································89
    • V. 요약 및 결론 ······························································· 90
    • 참 고 문 헌 ······································································· 92
    • ABSTRACT ········································································· 97
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