如何将运动微生物的延时记录轨迹与连续时间的动力学模型连接起来。

How to connect time-lapse recorded trajectories of motile microorganisms with dynamical models in continuous time.

机构信息

Department of Micro- and Nanotechnology, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmark.

Department of Physics, Princeton University, Princeton, New Jersey 08544, USA.

出版信息

Phys Rev E. 2016 Dec;94(6-1):062401. doi: 10.1103/PhysRevE.94.062401. Epub 2016 Dec 6.

DOI:10.1103/PhysRevE.94.062401

PMID:28085401

Abstract

We provide a tool for data-driven modeling of motility, data being time-lapse recorded trajectories. Several mathematical properties of a model to be found can be gleaned from appropriate model-independent experimental statistics, if one understands how such statistics are distorted by the finite sampling frequency of time-lapse recording, by experimental errors on recorded positions, and by conditional averaging. We give exact analytical expressions for these effects in the simplest possible model for persistent random motion, the Ornstein-Uhlenbeck process. Then we describe those aspects of these effects that are valid for any reasonable model for persistent random motion. Our findings are illustrated with experimental data and Monte Carlo simulations.

摘要

我们提供了一个用于运动学数据驱动建模的工具，这些数据是延时记录的轨迹。如果人们理解了延时记录的有限采样频率、记录位置的实验误差以及条件平均如何扭曲这些统计数据，那么就可以从适当的模型独立实验统计数据中收集到模型的几个数学性质。我们给出了最简单的持续随机运动模型，即 Ornstein-Uhlenbeck 过程的这些效应的精确解析表达式。然后，我们描述了这些效应中适用于任何合理的持续随机运动模型的方面。我们的发现通过实验数据和蒙特卡罗模拟进行了说明。

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如何将运动微生物的延时记录轨迹与连续时间的动力学模型连接起来。

How to connect time-lapse recorded trajectories of motile microorganisms with dynamical models in continuous time.

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