High Precision Contouring with Moiré and Related Methods: A Review

Abstract

Abstract: Optical methods of contouring that utilise image recordings by cameras are based on a fundamental discipline, projective geometry. The 3‐D world is projected in 2‐D utilising a camera modelled in the technical literature by the pinhole camera. To get back 3‐D information, the fundamental property measured is parallax. Parallax is a vector resulting from the difference of the projective coordinates of a point in space when projected onto a plane from two different points. The oldest method used for measuring parallax is photogrammetry. It is assumed to be the most precise technique, with the capability of obtaining 10−5 of the largest dimension of the measured object. This study summarises the state‐of‐the‐art methods based on projecting a spatial carrier. Starting with the concept of moiré as a form of photogrammetry, the different optical techniques for parallax determination are discussed. Although the moiré method has reached 1 μm accuracy in laboratory work, a question remains: can moiré become a standardised contouring technique yielding 10−6 m accuracy? This study is devoted to the analysis of high accuracy contour measurements, through both theoretical derivations and experimental verifications.