Accurate characterisation of hole size and location by projected fringe profilometry Yuxiang Wu Harshana Dantanarayana Huimin Yue Jonathan Huntley 2134/32270 https://repository.lboro.ac.uk/articles/journal_contribution/Accurate_characterisation_of_hole_size_and_location_by_projected_fringe_profilometry/9567686 The ability to accurately estimate the location and geometry of holes is often required in the field of quality control and automated assembly. Projected fringe profilometry is a potentially attractive technique on account of being non-contacting, of lower cost, and orders of magnitude faster than the traditional coordinate measuring machine (CMM). However, we demonstrate in this paper that fringe projection is susceptible to significant (hundreds of µm) measurement artefacts in the neighbourhood of hole edges, which give rise to errors of a similar magnitude in the estimated hole geometry. A mechanism for the phenomenon is identified based on the finite size of the imaging system’s point spread function and the resulting bias produced near to sample discontinuities in geometry and reflectivity. A mathematical model is proposed, from which a post-processing compensation algorithm is developed to suppress such errors around the holes. The algorithm includes a robust and accurate sub-pixel edge detection method based on a Fourier descriptor of the hole contour. The proposed algorithm was found to reduce significantly the measurement artefacts near the hole edges. As a result, the errors in estimated hole radius were reduced by up to one order of magnitude, to a few tens of µm for hole radii in the range 2-15 mm, compared to those from the uncompensated measurements. 2018-03-19 16:59:26 Projected fringes Profilometry Hole measurement Edge detection Fourier descriptor Mechanical Engineering not elsewhere classified