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研究生: 崔怡楓
I-Fong Tsui
論文名稱: 運用GHSOM技術分析臺灣附近黑潮入侵變化之研究
Variability analysis of Kuroshio intrusion around Taiwan using growing hierarchical self-organizing map
指導教授: 吳朝榮
Wu, Chau-Ron
學位類別: 博士
Doctor
系所名稱: 地球科學系
Department of Earth Sciences
論文出版年: 2013
畢業學年度: 101
語文別: 中文
論文頁數: 121
中文關鍵詞: 黑潮入侵太平洋年代際振盪GHSOM
英文關鍵詞: Kuroshio intrusion, PDO
論文種類: 學術論文
相關次數: 點閱:161下載:10
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  • 本研究採用18年海平面高度反演的地轉流進行研究,同時以一個先進的人工智慧類神經網路演算法-GHSOM為基礎,來對海流資料進行分類分析黑潮在呂宋海峽及台灣東北海域的入侵型態,並運用衛星風場及熱通量分析其相關性。
    在呂宋海峽終年均有黑潮入侵現象,但係以不入侵為主,入侵型態僅佔總體的25.8%,其中以黑潮強入侵為主,以弱入侵較少,強入侵與風速相關,弱入侵則可能與上游的黑潮傳輸量相關。在季變化部分,冬季入侵多於夏季入侵,冬季入侵型態為強入侵與弱入侵均有,但以強入侵為主,夏季入侵則幾乎均為弱入侵。黑潮入侵在年際變化方面與PDO有關,黑潮入侵通常發生於PDO 指標為正值時(72.1%)。
    台灣東北海域方面,黑潮入侵與不入侵約各半,但係以占57.4 % 的入侵模式為主,其中弱入侵發生較強入侵為多,強入侵與熱通量相關,而弱入侵與風速及熱通量均相關。關於季節性變化部分,秋冬季的入侵事件明顯多於夏季,弱入侵事件在秋季較明顯,在冬季則多由強入侵占優勢,黑潮在本區入侵的年際變化方面也與在呂宋海峽相同,均與PDO有關,黑潮入侵通常發生於PDO 指標為正值時(64.5%)。

    摘要 ........................................... IV 表說 .......................................... VII 圖說 ......................................... VIII 第一章 前言...................................... 1 第二章 使用資料與分析方法 ............................................. 7 2.1 使用資料 .................................... 7 2.1.1海表面高度(Sea surface height data) ....... 7 2.1.2 海表面風資料 ............................................. 8 2.2 分析方法 .................................... 8 2.2.1 SOM ...................................... 9 2.2.2 GHSOM .................................... 9 第三章 呂宋海峽區域之黑潮入侵現象 ............................................. 11 3.1入侵型態 ..................................... 11 3.2 季變化 ...................................... 14 3.3 年際變化 .................................... 18 第四章 臺灣東北海域之黑潮入侵現象 ............................................. 26 4.1 入侵型態 .................................... 26 4.2 季變化 ...................................... 28 4.3 年際變化 .................................... 32 第五章 結論...................................... 42 參考文獻 ........................................ 44 附錄A ........................................... 50 附錄B .......................................... 114

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