基于模拟似然密度的离散随机模型参数推断的近似贝叶斯计算方案。

Approximate Bayesian computation schemes for parameter inference of discrete stochastic models using simulated likelihood density.

出版信息

BMC Bioinformatics. 2014;15 Suppl 12(Suppl 12):S3. doi: 10.1186/1471-2105-15-S12-S3. Epub 2014 Nov 6.

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4243104/

Abstract

BACKGROUND

Mathematical modeling is an important tool in systems biology to study the dynamic property of complex biological systems. However, one of the major challenges in systems biology is how to infer unknown parameters in mathematical models based on the experimental data sets, in particular, when the data are sparse and the regulatory network is stochastic.

RESULTS

To address this issue, this work proposed a new algorithm to estimate parameters in stochastic models using simulated likelihood density in the framework of approximate Bayesian computation. Two stochastic models were used to demonstrate the efficiency and effectiveness of the proposed method. In addition, we designed another algorithm based on a novel objective function to measure the accuracy of stochastic simulations.

CONCLUSIONS

Simulation results suggest that the usage of simulated likelihood density improves the accuracy of estimates substantially. When the error is measured at each observation time point individually, the estimated parameters have better accuracy than those obtained by a published method in which the error is measured using simulations over the entire observation time period.

摘要

背景

数学建模是系统生物学中研究复杂生物系统动态特性的重要工具。然而，系统生物学中的一个主要挑战是如何根据实验数据集推断数学模型中的未知参数，特别是当数据稀疏且调控网络随机时。

结果

为了解决这个问题，本工作提出了一种新的算法，该算法使用近似贝叶斯计算框架中的模拟似然密度来估计随机模型中的参数。使用两个随机模型来演示所提出方法的效率和有效性。此外，我们还设计了另一种基于新目标函数的算法来衡量随机模拟的准确性。

结论

模拟结果表明，模拟似然密度的使用大大提高了估计的准确性。当分别在每个观测时间点测量误差时，所估计的参数比使用整个观测时间段的模拟来测量误差的已发表方法获得的参数具有更好的准确性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fea5/4243104/c95983f63d1b/1471-2105-15-S12-S3-1.jpg

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基于模拟似然密度的离散随机模型参数推断的近似贝叶斯计算方案。

Approximate Bayesian computation schemes for parameter inference of discrete stochastic models using simulated likelihood density.

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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