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Publication Details
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Authors: | Dengfeng Dong, Zili Zhang, Dabao Lao, Rongyi Ji, Weihu Zhou |
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Citation: | Dengfeng Dong, Zili Zhang, Dabao Lao, Rongyi Ji, Weihu Zhou, "Laser Tracking Measurement System Based on Dual-Femtosecond Optical Frequency Comb," The Journal of the CMSC, Vol. 14, No. 1, Spring 2019 |
Abstract
Laser trackers are one of the most commonly used large-scale measurement systems in the ?elds of aircraft inspection, shipbuilding, automobile assembly, and other manufacturing sectors. Using a laser tracker can enable an operator to obtain an object’s spatial position through a combination of distance measurement and angle measurement. To realize distance measurement, traditional laser trackers use interferometry or phase ranging, each of which has its own strengths and weaknesses. Interferometry can achieve high-accuracy and high-frequency distance measurement, but it can only determine relative distances. Phase ranging can implement absolute distance measurement, however, its measuring frequency is limited due to its measuring principle. In this article a novel laser tracking measurement system is presented which realized high-frequency absolute distance measurement using a dual-femtosecond optical frequency comb with the accuracy of 0.5 ppm.