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研究生:郭徐伸
研究生(外文):Syu-ShenKuo
論文名稱:建立台灣半動態基準之水平速度模型
論文名稱(外文):Establishing a Horizontal Velocity Model for a Semi-dynamic Datum of Taiwan
指導教授:楊名楊名引用關係
指導教授(外文):Ming Yang
學位類別:碩士
校院名稱:國立成功大學
系所名稱:測量及空間資訊學系
學門:工程學門
學類:測量工程學類
論文種類:學術論文
論文出版年:2014
畢業學年度:102
語文別:中文
論文頁數:89
中文關鍵詞:大地基準速度模型半動態基準
外文關鍵詞:geodetic datumvelocity modelsemi-dynamic datum
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  • 被引用被引用:5
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台灣位於菲律賓海板塊與歐亞板塊的交界,兩個板塊的相互擠壓作用造成全區發生非均勻的地表變形,另一方面,台灣現行的大地基準TWD97[2010]是一個靜態的大地基準,控制點的坐標成果一經公告後便不會改變。因此,基本控制點間的相對精度會隨著時間而下降,進而造成TWD97[2010]失去其原有的精確度。與台灣同樣位處板塊交界之美國、紐西蘭及日本等國,長期亦受到板塊運動引起非均勻地表變形之影響,分別採用了在原有的靜態大地基準中加入區域地表變形模型的半動態基準概念,以維持大地基準的精確性。因此,本研究採用1110個台灣現有GPS觀測站之水平速度資料,應用克立金法將縱谷兩側分開內插,據此建立台灣半動態基準之水平速度模型,並對模型進行精度檢核及半動態基準作法分析。研究成果顯示,本研究建立之水平速度模型,其整體精度於東西方向為±2.4 mm/year,於南北方向為±1.8 mm/year,且相較於美國、紐西蘭速度模型之精度檢核成果,無論在東西或南北方向,相差皆未超過±1.0 mm/year。但是,速度模型之精度在空間上是不均勻的,其在北部及中部地區精度最高,西南部次之,在東部及山區精度最低。而以速度模型進行半動態基準作法,能夠達到維持控制點間相對精度之目的。
Taiwan is located at the plate boundary between the Eurasian plate and Philippine Sea plate. There is significant crustal deformation due to the collision between plates. However, current geodetic datum of Taiwan is a static geocentric datum, in which coordinates of control points are held fixed. Therefore, relative accuracy between control points decreases with time. The objective of this research is establishing a horizontal velocity model into the original static datum let it can be semi-dynamic datum. We use velocity field from 1110 Global Positioning System (GPS) stations and Kriging method to establish a horizontal velocity model. In the external validation of velocity model, the RMS residual were 2.4 mm/year for the east and 1.8 mm/year for the north components. The accuracy result is close to the accuracy of western contiguous United States (CONUNS) and New Zealand velocity model. However, the accuracy of velocity model is not consistent at different districts, it is highest in central and northern Taiwan, lower in southwestern Taiwan, and lowest in eastern Taiwan. Assuming no large deformation event (ex. earthquake), adopting the velocity model to implement semi-dynamic datum can effectively maintain relative accuracy between control points.
摘要 I
ABSTRACT II
誌謝 VI
目錄 VIII
表目錄 XI
圖目錄 XII
第一章 緒論 1
1.1 文獻回顧 1
1.2 研究動機與目的 6
1.3 研究流程與方法 6
第二章 大地基準與變形模型 9
2.1 大地基準 9
2.1.1 國際地球參考框架ITRF 9
2.1.2 台灣現行之大地基準 12
2.1.3 靜態、動態及半動態大地基準 16
2.2 變形模型 19
2.2.1 地表變形之型態 19
2.2.2 變形模型之架構 20
2.3 各國之大地基準與速度模型 23
2.3.1 美國之大地基準與速度模型 23
2.3.2 紐西蘭之大地基準與速度模型 29
2.3.3 美國與紐西蘭速度模型比較 37
第三章 研究方法 40
3.1 塊體劃分 40
3.2 克立金法 45
3.2.1 區域化變數理論 45
3.2.2 半變異圖 47
3.2.3 一般克立金法 50
3.3 雙線性內插法 52
第四章 資料處理 54
4.1 研究資料介紹 54
4.2 研究資料處理 58
第五章 水平速度模型建立與分析 67
5.1 水平速度模型建立 67
5.2 外部精度檢核 69
5.3 水平速度模型用於半動態基準之作法分析 77
第六章 結論與建議 82
參考文獻 84
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