stoBEST: an efficient methodology for increased spatial resolution in two-component molecular tagging velocimetry

Pearce Michael; Sparrow Zachary; Mabote Thabiso R.; Sanchez-Gonzalez Rodrigo

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stoBEST: an efficient methodology for increased spatial resolution in two-component molecular tagging velocimetry

机译：STOBEST：一种有效的方法，用于增加两组分分子标记VENIFETRY中的空间分辨率

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摘要

A new methodology to analyze two-component molecular tagging velocimetry image pairs is presented. Velocity measurements with high spatial resolution are achieved by determining grid displacements at the intersections as well as along the grid lines using a multivariate adaptive regression splines parameterization along the segments connecting adjacent grid intersections. The methodology can detect the orientation of the grid, contains redundant steps for increased reliability, and handles cases where parts of the grid are missing, indicating potential for automation. Initial demonstration of the algorithm's performance was illustrated using synthetic data sets derived from Computational Fluid Dynamics simulations and compared to Hough-transform and cross-correlation methodologies. Besides providing comparable results in terms of precision and accuracy to previously reported methodologies, the analysis of images by the proposed methodology results in significantly increased spatial resolution of the flow displacement determinations along the grid lines with comparable precision and accuracy. This methodology's ability to handle different grid orientations without modifications was assessed using synthetic datasets with grids formed by sets of parallel lines at 90, 45, and 30 degrees from the vertical axis. Comparable results in terms of precision and accuracy were obtained across grid orientations, with all uncertainties below 0.1 pixel for images with signal-to-noise levels exceeding 5, and within 0.5 pixel for the noisiest image sets.

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来源
《Measurement Science & Technology》 |2021年第3期|共14页
作者
Pearce Michael; Sparrow Zachary; Mabote Thabiso R.; Sanchez-Gonzalez Rodrigo;
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作者单位

St Olaf Coll Dept Math Stat &

Comp Sci 1520 St Olaf Ave Northfield MN 55057 USA;

St Olaf Coll Dept Math Stat &

Comp Sci 1520 St Olaf Ave Northfield MN 55057 USA;

St Olaf Coll Dept Math Stat &

Comp Sci 1520 St Olaf Ave Northfield MN 55057 USA;

St Olaf Coll Dept Chem 1520 St Olaf Ave Northfield MN 55057 USA;

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原文格式 PDF
正文语种 eng
中图分类仪器、仪表;
关键词
molecular tagging velocimetry; high-speed flows; data analysis;

机译：分子标记速度;高速流动;数据分析;

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1. Two-component molecular tagging velocimetry utilizing NO fluorescence lifetime and NO_(2) photodissociation techniques in an underexpanded jet flowfield [J] . Andrea G. Hsu, Ravi Srinivasan, Rodney D. W. Bowersox, Applied optics . 2009,第22期

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2. A fast data reduction algorithm for molecular tagging velocimetry: the decoupled spatial correlation technique [J] . Qingxiong Zheng, Joseph C. Klewicki Measurement Science & Technology . 2000,第9期

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3. Unseeded molecular flow tagging in cold and hot flows using ozone and hydroxyl tagging velocimetry [J] . Robert W. Pitz, Joseph A. Wehrmeyer, Lubomir A. Ribarov, Measurement Science & Technology . 2000,第9期

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4. MICRO-SCALE VELOCITY MEASUREMENTS USING MOLECULAR TAGGING VELOCIMETRY: METHODOLOGY AND UNCERTAINTY [C] . B. R. Thompson, D. Maynes, B. W. Webb Proceedings of the 2002 ASME Joint U.S.-European Fluids Engineering Conference . 2002

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stoBEST: an efficient methodology for increased spatial resolution in two-component molecular tagging velocimetry

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