多變量模擬輸出之統計分析

許淑卿, XU, SHU-GING

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本論文共一冊，分八章八節。 內容：本論文所擬探討之對象為多變量統計分配函數模擬（Simulation）之最佳停止 法則問題（Optimal Stopping Rule Problem ），此類問題之目的在於如何利用盡量 小的樣本數之觀察值來求得未知母數（Unknoron Parameter）的信區間（域）（Co－ nfidence interval ）（Confidence Region），而此信賴區間（域）之寬度（Width ）及包含機率（Coverage Probability）均已事先指定。 以往研究對象多傴限於單變量統計分配函數，而多變量統計分配函數模擬之最佳停止 法則問題，仍尚在研究階段，因此本論文之重點乃在於探討如何求得滿足最佳停止法 則之最小樣本數。在此以多變量常態分配函數為重心，並進而嗜試推廣至其他多數量 統計分配函數。

模擬

最佳停止法則

未知母數

信賴區間

寬度

包函機率

分配函數

SIMULATION

OPTIMAL-STOPPING-RULE

UNKNOWN-PARAMETER

CONFIDENCE-REGION

WIDTH

COVERAGE-PROBABILITY

DISTRIBUTION-FUNCTION

兩母體共有物種數的估計及最佳停止點 / The optimal stopping rule for estimating the number of shared species of two populations

蔡政珈

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在生態學與生物學上，物種數常作為生物多樣性的指標，以估計單一群體物種數為例，較知名的方法首推Good (1953)以在樣本中出現一次的物種為基礎，提出的物種數估計方法堪稱的先驅，隨後許多文獻延伸Good的想法，發展出許多的估計方法，例如Burham and Overton (1978)的摺刀估計法，Chao and Lee (1992)則以涵蓋機率方式估計。相對而言，兩群體的共有物種數的研究少有人探討，目前以Chao et al. (2000)的估計式較為知名。 本研究參考Good (1953)提出估計未發現物種出現機率的想法，估計未發現共有物種的機率，並以Burham and Overton (1978)中應用摺刀法估計物種數的概念，建立一階摺刀估計式與變異數，且另行以多項分配公式推導變異數估計式，進行電腦模擬與實際資料驗證並與Chao et al. (2000)提出的共有物種估計式比較。最後根據Rasmussen and Starr (1979)以抽樣成本建立最適停止規則的概念，應用於本研究所提出的估計式，並經由電腦模擬找出抽樣成本與物種分佈均勻程度的關聯，可作為設定停止規則的依據。 / The number of species is often used to measure the biodiversity of a population in ecology and biology. Good (1953) proposed a famous estimate for the number of species based on the probability of unseen species. Subsequently, many studies applied Good’s idea to create new estimation methods, For example, the Jackknife estimate by Burham and Overton (1978), and the estimate by using the sample coverage probability in Chao and Lee (1992) are two famous examples. However, not many studies focus on estimating the number of shared species of two populations, except the method by Chao et al. (2000). In this study, we modify Good’s idea and extend the Jackknife method of Burham and Overton (1978) to develop the estimate for the number of shared species of two populations. In addition, we also establish the variance formula of the estimator by using the multinomial distribution. Subsequently, we use computer simulation and real data sets to evaluate the proposed method, and compare them with the estimator by Chao et al. (2000). Finally, we adapt the idea of optimal stopping rule by Rasmussen and Starr (1979) and combine it with the proposed jackknife estimate. We found that using the sampling cost as the stopping rule is a feasible approach for estimating the number of shared species.

生物多樣性

共有物種數

摺刀估計法

最適停止規則

電腦模擬

Biodiversity

Number of shared species

Jackknife estimate

Optimal stopping rule

Computer simulation