Telecentric Vision Measurement Method of Space Size Based on Datum Correlation

LIU Feng; ZHANG Yingjie; GAO Peipei; FAN Mengqi

Volume 46 Issue 1

Jan. 2024

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Infrared Technology > 2024 > 46(1): 94-98.

LIU Feng, ZHANG Yingjie, GAO Peipei, FAN Mengqi. Telecentric Vision Measurement Method of Space Size Based on Datum Correlation[J]. Infrared Technology , 2024, 46(1): 94-98.

Citation:

LIU Feng, ZHANG Yingjie, GAO Peipei, FAN Mengqi. Telecentric Vision Measurement Method of Space Size Based on Datum Correlation[J]. Infrared Technology , 2024, 46(1): 94-98.

Citation:

LIU Feng, ZHANG Yingjie, GAO Peipei, FAN Mengqi. Telecentric Vision Measurement Method of Space Size Based on Datum Correlation[J]. Infrared Technology , 2024, 46(1): 94-98.

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Telecentric Vision Measurement Method of Space Size Based on Datum Correlation

1.
State Key Laboratory of Precision Measuring Technology and Instruments, Tianjin University, Tianjin 300072, China
2.
College of Computer Science, Nankai University, Tianjin 300071, China

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Received Date: September 22, 2021
Revised Date: February 09, 2022

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Abstract

Abstract

This study investigated a spatial dimension telecentric vision measurement method based on benchmark correlation that aims at the long-axis workpiece with the characteristic of the protruding tip of the cross-section. First, telecentric imaging was used to realize the image feature extraction and position measurement of the local elements to be measured by the longer-scale workpiece. Then, a measurement transfer chain between the local elements and the axis reference elements outside the camera imaging field of view was established. The local element dimensions were converted into the global radial dimensions through calculations to achieve fast and accurate measurement beyond the scale of the imaging field of view. A measurement experiment environment was constructed to verify the effectiveness of this method, trace and analyze the error source, and give suggestions to further improve the accuracy. This method can realize the measurement of the spatial geometric quantity of the three-dimensional workpiece under the condition of telecentric parallel projection and is particularly suitable for on-site measurement applications that require high speed and accuracy.
- spatial dimensions,
- local elements,
- benchmark correlation,
- telecentric measurement

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