A flexible large-size shape-measurement system

Author

Jin-Jiang, Wang ; Wen-Yao, Liu ; Huai-Yu, Cai

Author_Institution

Key Lab of Opto-electronic Inf. Sci. & Technol., Tianjin Univ., China

Volume

45

Issue

1

fYear

2003

Firstpage

112

Lastpage

115

Abstract

A flexible large-size shape-measurement system, based on the triangulation measurement principle, achieved high precision and non-contacting measurements of large shapes. The system overcomes the shortcomings of three-coordinate measurement machines. In this system, the measuring instruments can be set according to measured pieces. A high-precision electronic theodolite, used as an angle sensor, is a pre-condition for measurement precision. The key point for wide use of this system is setting up the relationship between the coordinates of the sampled points and the measured parameter. The measurement precision is based on a reasonable arrangement of the measuring instruments, and solving for the relative parameters. The computed position-measurement accuracy of the system is 0.1 mm. The system has been applied successfully to the measurement of large curved surfaces.

Keywords

antenna testing; shape measurement; angle sensor; antenna measurements; antenna mechanical factors; flexible large-size shape-measurement system; high-precision electronic theodolite; large curved surfaces; measuring instruments; position-measurement accuracy; sampled points; triangulation measurement principle; Antenna measurements; Coordinate measuring machines; Educational institutions; Hardware; Information science; Instruments; Mechanical variables measurement; Position measurement; Shape measurement; Theodolites;

fLanguage

English

Journal_Title

Antennas and Propagation Magazine, IEEE

Publisher

ieee

ISSN

1045-9243

Type

jour

DOI

10.1109/MAP.2003.1189656

Filename

1189656