无限多位点模型中Lambda合并过程的重要性抽样
Importance sampling for Lambda-coalescents in the infinitely many sites model.
作者信息
Birkner Matthias, Blath Jochen, Steinrücken Matthias
机构信息
Johannes-Gutenberg-Universität Mainz, Institut für Mathematik, Staudingerweg 9, 55099 Mainz, Germany.
出版信息
Theor Popul Biol. 2011 Jun;79(4):155-73. doi: 10.1016/j.tpb.2011.01.005. Epub 2011 Feb 4.
Abstract
We present and discuss new importance sampling schemes for the approximate computation of the sample probability of observed genetic types in the infinitely many sites model from population genetics. More specifically, we extend the 'classical framework', where genealogies are assumed to be governed by Kingman's coalescent, to the more general class of Lambda-coalescents and develop further Hobolth et al.'s (2008) idea of deriving importance sampling schemes based on 'compressed genetrees'. The resulting schemes extend earlier work by Griffiths and Tavaré (1994), Stephens and Donnelly (2000), Birkner and Blath (2008) and Hobolth et al. (2008). We conclude with a performance comparison of classical and new schemes for Beta- and Kingman coalescents.
摘要
我们提出并讨论了用于近似计算群体遗传学中无限多位点模型下观察到的遗传类型的样本概率的新重要性抽样方案。更具体地说,我们将“经典框架”(其中系谱被假定由金曼合并过程支配)扩展到更一般的λ-合并过程类,并进一步发展了霍博尔特等人(2008年)基于“压缩基因树”推导重要性抽样方案的想法。所得方案扩展了格里菲思和塔瓦雷(1994年)、斯蒂芬斯和唐纳利(2000年)、比尔克纳和布拉特(2008年)以及霍博尔特等人(2008年)的早期工作。我们最后对β-合并过程和金曼合并过程的经典方案与新方案进行了性能比较。
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