用于跟踪具有可变大小和形状的单个粒子的快速、无偏差算法。

Fast, bias-free algorithm for tracking single particles with variable size and shape.

作者信息

Berglund Andrew J, McMahon Matthew D, McClelland Jabez J, Liddle J Alexander

机构信息

Center for Nanoscale Science and Technology, National Institute of Standards and Technology, Gaithersburg, MD 20899, USA.

出版信息

Opt Express. 2008 Sep 1;16(18):14064-75. doi: 10.1364/oe.16.014064.

DOI:10.1364/oe.16.014064

PMID:18773017

Abstract

We introduce a fast and robust technique for single-particle tracking with nanometer accuracy. We extract the center-of-mass of the image of a single particle with a simple, iterative algorithm that efficiently suppresses background-induced bias in a simplistic centroid estimator. Unlike many commonly used algorithms, our position estimator requires no prior information about the shape or size of the tracked particle image and uses only simple arithmetic operations, making it appropriate for future hardware implementation and real-time feedback applications. We demonstrate it both numerically and experimentally, using an inexpensive CCD camera to localize 190 nm fluorescent microspheres to better than 5 nm.

摘要

我们介绍了一种用于单粒子跟踪的快速且稳健的技术，其精度可达纳米级。我们使用一种简单的迭代算法来提取单个粒子图像的质心，该算法能有效抑制在简单质心估计器中由背景引起的偏差。与许多常用算法不同，我们的位置估计器不需要关于被跟踪粒子图像形状或大小的先验信息，并且仅使用简单的算术运算，这使其适用于未来的硬件实现和实时反馈应用。我们通过数值模拟和实验对其进行了演示，使用一台廉价的电荷耦合器件（CCD）相机将190纳米的荧光微球定位到优于5纳米的精度。

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用于跟踪具有可变大小和形状的单个粒子的快速、无偏差算法。

Fast, bias-free algorithm for tracking single particles with variable size and shape.

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