US 12,130,244 B2
Method for evaluating the optical quality of a delineated region of a glazing
Théo Rybarczyk, Pimprez (FR); and Laurent Remeur, Margny les Compiegne (FR)
Assigned to SAINT-GOBAIN GLASS FRANCE, Courbevoie (FR)
Appl. No. 17/764,393
Filed by SAINT-GOBAIN GLASS FRANCE, Courbevoie (FR)
PCT Filed Sep. 25, 2020, PCT No. PCT/EP2020/077015
§ 371(c)(1), (2) Date Mar. 28, 2022,
PCT Pub. No. WO2021/063847, PCT Pub. Date Apr. 8, 2021.
Claims priority of application No. 1910824 (FR), filed on Sep. 30, 2019.
Prior Publication US 2022/0334068 A1, Oct. 20, 2022
Int. Cl. G01N 21/958 (2006.01); G01N 21/88 (2006.01)
CPC G01N 21/958 (2013.01) [G01N 21/8806 (2013.01); G01N 21/8851 (2013.01); G01N 2021/8832 (2013.01); G01N 2021/9586 (2013.01)] 14 Claims
OG exemplary drawing
 
1. A method for measuring an optical quality of a delineated region of a glazing, said method comprising the following steps:
(1) positioning an optical digital acquiring device such that a surface of the glazing is in a depth of field of said optical digital acquiring device;
(2) acquiring, using said optical digital acquiring device, at least one image of the surface of said glazing;
(3) locating the delineated region of the glazing on the surface of the glazing using digital processing of the image acquired in step (2);
(4) positioning the optical digital acquiring device facing the delineated region of the glazing in a position corresponding to that of an acquiring or measuring device of an advanced on-board system placed facing said region;
(5) acquiring, through said delineated region of the glazing, images of a plurality of periodic patterns of multiple different phases, using the optical digital acquiring device, said patterns being oriented in a first direction in space;
(6) acquiring, through said delineated region, images of a plurality of periodic patterns of multiple different phases, using said optical digital acquiring device, said patterns being oriented in a second direction in space;
(7) measuring, for each of the points corresponding to the pixels of the optical digital acquiring device, phase shifts between the images of the patterns acquired in steps (5) and (6) and corresponding images of the periodic patterns of multiple different phases acquired in the absence of the glazing;
(8) computing, for each of the points corresponding to the pixels of the optical digital acquiring device, values of at least one optical quality criterion on the basis of all of the measurements of the phase shifts obtained in step (7).