群体遗传推断的近似最大似然估计。

Pub Date : 2017-11-27 DOI:10.1515/sagmb-2017-0016
Johanna Bertl, Gregory Ewing, Carolin Kosiol, Andreas Futschik
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引用次数: 6

摘要

在许多种群遗传问题中,参数估计受到难以处理的似然函数的阻碍。因此,近似估计方法得到了发展,随着计算能力的提高,基于抽样的方法开始流行。然而,这些方法,如近似贝叶斯计算(ABC),在高维问题中是低效的。这导致了更复杂的迭代估计方法的发展,如粒子滤波器。在这里,我们提出了一种基于随机近似的替代方法。通过沿着模拟的梯度或上升方向移动,该算法产生一系列估计,最终收敛于给定一组观察到的汇总统计数据的最大似然估计。这种策略不需要从参数空间的低似然区域中抽取太多样本,而且速度很快,即使涉及到许多汇总统计数据。我们付出了相当大的努力来提供调优指南,以提高鲁棒性,并在具有高维汇总统计和低信噪比的问题上获得良好的性能。然后我们研究了我们得到的方法的性能,并在模拟中研究了它的特性。最后,我们重新估计描述婆罗洲和苏门答腊猩猩人口历史的参数。
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Approximate maximum likelihood estimation for population genetic inference.

In many population genetic problems, parameter estimation is obstructed by an intractable likelihood function. Therefore, approximate estimation methods have been developed, and with growing computational power, sampling-based methods became popular. However, these methods such as Approximate Bayesian Computation (ABC) can be inefficient in high-dimensional problems. This led to the development of more sophisticated iterative estimation methods like particle filters. Here, we propose an alternative approach that is based on stochastic approximation. By moving along a simulated gradient or ascent direction, the algorithm produces a sequence of estimates that eventually converges to the maximum likelihood estimate, given a set of observed summary statistics. This strategy does not sample much from low-likelihood regions of the parameter space, and is fast, even when many summary statistics are involved. We put considerable efforts into providing tuning guidelines that improve the robustness and lead to good performance on problems with high-dimensional summary statistics and a low signal-to-noise ratio. We then investigate the performance of our resulting approach and study its properties in simulations. Finally, we re-estimate parameters describing the demographic history of Bornean and Sumatran orang-utans.

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