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Performance Evaluation Experiments on a Laser Spot Triangulation Probe

Published

Author(s)

Balasubramanian Muralikrishnan, Wei Ren, Dennis S. Everett, Eric S. Stanfield, Theodore D. Doiron

Abstract

Laser triangulation probes are increasingly used for dimensional measurements in a variety of applications. At the National Institute of Standards and Technology, we have recently explored the use of laser spot triangulation probes to determine dimensional features such as height and width of channels in a fuel cell plate. To assess the suitability of the probes for performing these dimensional measurements, we designed several experiments that highlighted different error sources in the probes. This report is a summary of those experiments. Numerous studies have been reported in the literature on error sources in laser triangulation probes utilizing artifacts of varying shape (form), color, reflectivity, surface finish, etc. However, our experiments are targeted towards establishing bounds on errors when measuring simple linear dimensions such as height and width on prismatic objects of a single color and material. Our scope is indeed narrow, but intentionally so; it is our objective to highlight the influence of a number of “hidden performance attributes” [1] that impact accuracy of even simple linear dimensional measurements so that it may be of use to others who perform similar measurements.
Citation
Measurement

Keywords

Dimensional Metrology, Laser spot triangulation, Performance evaluation

Citation

Muralikrishnan, B. , Ren, W. , Everett, D. , Stanfield, E. and Doiron, T. (2011), Performance Evaluation Experiments on a Laser Spot Triangulation Probe, Measurement, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=908474 (Accessed March 19, 2024)
Created November 25, 2011, Updated February 19, 2017