Verification and Application of the Border Effect in Precision Measurement

Detection resolution is crucial for improvement of the measurement precision in the device and instrument. Because of the limited resolution, a fuzzy area with the truth-value as its center is found during the detection. The finding for improving the measurement precision by the border of fuzzy area...

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Bibliographic Details
Published inChinese physics letters Vol. 31; no. 10; pp. 22 - 25
Main Author 周渭 李智奇 白丽娜 宣宗强 陈法喜 于建国 高建宁 苗苗 董绍锋 宋慧敏 韦中 叶云霞
Format Journal Article
LanguageEnglish
Published 01.10.2014
Subjects
应用
检测结果
模糊区域
测量精度
精密测量
边界效应
验证
高分辨率
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Summary:Detection resolution is crucial for improvement of the measurement precision in the device and instrument. Because of the limited resolution, a fuzzy area with the truth-value as its center is found during the detection. The finding for improving the measurement precision by the border of fuzzy area is first introduced. The higher resolution can be captured by the higher resolution stability which makes the different detection results of the inner and outer fuzzy area on the border reflected more sensitively between the measure and the reference quantity. The system resolution obtained only depends on the stability of measurement resolution, which is much better than the mea~surement resolution itself. Based on the finding, the measurement precision can be improved two or three orders of magnitude. The finding can be used in various kinds of high precision measurement.
Bibliography:11-1959/O4
Detection resolution is crucial for improvement of the measurement precision in the device and instrument. Because of the limited resolution, a fuzzy area with the truth-value as its center is found during the detection. The finding for improving the measurement precision by the border of fuzzy area is first introduced. The higher resolution can be captured by the higher resolution stability which makes the different detection results of the inner and outer fuzzy area on the border reflected more sensitively between the measure and the reference quantity. The system resolution obtained only depends on the stability of measurement resolution, which is much better than the mea~surement resolution itself. Based on the finding, the measurement precision can be improved two or three orders of magnitude. The finding can be used in various kinds of high precision measurement.
ZHOU Wei, LI Zhi-qi, BAI Li-Na, XUAN Zong-qiang, CHEN Fa-Xi, YU Jian-Guo, GAO Jian-Ning, MIAO Miao, DONG Shao-Feng, SONG Hui-Min, WEI Zhong, YE Yun-Xia( 1Department of Measurement and Instrumentation, Xidian University, Xi'an 710071 ; 2National Time Service Center, Chinese Academy of Sciences, Xi'an 710600)
ISSN:0256-307X
1741-3540
DOI:10.1088/0256-307X/31/10/100602