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研究生: 黃治平
論文名稱: 非線性代數方程組分歧點與解分支之探討
Numerical Investigation for Bifurcation Points and Solution Branches of Nonlinear Algebraic Equations
指導教授: 簡國清教授
口試委員:
學位類別: 碩士
Master
系所名稱:
論文出版年: 2004
畢業學年度: 93
語文別: 中文
論文頁數: 90
中文關鍵詞: 分歧點隱函數定理解分支割線預測法牛頓迭代法虛擬弧長延拓法
外文關鍵詞: Bifurcation point, Implicit function theorem, Solution branches, Secant -predictor method, Newton’s interative method, pseudo-arclength continuation method
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    • 本論文,旨在探討非線性代數方程組之分歧點與其解分支結構。
    首先,我們以隱函數定理為基礎,推導計算出分歧點。由於在分歧點鄰域上具有多重解特性,如何一個一個的找出其解分支,是分歧問題中的重要課題之一。在解決此課題的演算法中,我們除了運用隱函數定理外,並引用有限維度Liapunov-Schmidt降階法、解分支方向、割線預測法、牛頓迭代法以及虛擬弧長延拓法等數值方法來延拓出所有通過分歧點的解分支路徑。
    最後,我們將針對三個非線性代數方程組模型,分別求得存在的分歧點及其解分支路徑圖,使我們更清楚知道該系統的分歧現象與定性上的變化。

    The main purpose of this thesis is to investigate bifurcation points and solution branches of nonlinear algebraic equations.
    First, we use implicit function theorem as the foundation to calculate the bifurcation points. because in the neighborhood of bifurcation point has multiple solutions characteristic ,how to find the solution branches one by one is the important topic of the bifurcation problems. In our algorithm ,in addition to the implicit function theorem, we also quote the numerical method of finite dimensional Liapunov-Schmidt reduction method, the direction solution branch, secant predictor method, Newton’s interative method, and pseudo–arclength continuation method, to continue all solution branches and pass through bifurcation points.
    Finally, we will investigate three nonlinear algebraic equation models, to get the existence of bifurcation points and solution branches of models, which make us understand the bifurcation phenomenon and the varity of qualitative properties of models more clearly.

    第一章 緒論 1 第二章 分歧理論與延拓法 4 2.1 分歧理論-------------------------------------- 4 2.2 分歧問題-------------------------------------- 6 2.3 延拓法---------------------------------------- 8 2.3.1 自然延拓法--------------------------------- 8 2.3.2 虛擬弧長延拓法---------------------------- 11 第三章 非線性代數方程組分歧點與解分支 14 3.1 分歧點之求法------------------------------- 14 3.2 選取分歧點解分支延拓方向------------------- 16 3.3 解分支的延拓------------------------------- 24 3.4 演算法------------------------------------- 28 第四章 數值實驗 32 4.1 實驗(4.1)-------------------------------- 34 4.2 實驗(4.2)------------------------------ 41 4.3 實驗(4.3)-------------------------------- 54 第五章 結論 86 參考文獻

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