Patent ID: 9031813
Filing Date: 2015-05-12
Classification: G01B

Abstract:
1. A method which uses weight measurements made under gravity conditions to obtain estimates of a gravity-free shape of a flexible object, said gravity-free shape being the shape the object would have if there were no gravity, said flexible object having dimensions and mechanical properties and an estimated gravity-free shape that is not perfectly flat, said method comprising: (I) supporting the flexible object on a plurality of height adjustable pins; (II) adjusting the heights of the adjustable pins by iteratively performing, for a number of iterations, the steps of: (III) terminating the iteration of step (II) when the number of iterations, the measured weights, and/or the changes in the heights satisfy one or more predetermined criteria; (IV) without removing the flexible object from the pins, measuring the flexible object's shape after step (III) using a measuring system having a finer spatial resolution than a smallest spacing between any two pins; (V) computing an estimate of the gravity-free shape of the flexible object by subtracting a calculated sag for a theoretical object supported on the pins from the measured shape of step (IV), the theoretical object having (i) the same dimensions and mechanical properties as the flexible object and (ii) a gravity-free shape that is perfectly flat; (VI) flipping the flexible object and performing steps (I) through (V) on the flipped flexible object wherein the flipping causes any given portion of the flexible object to be supported by different pins from those that supported the given portion before the flipping; and (VII) comparing the estimates of the gravity-free shape of the flexible object computed for a non-flipped orientation and a flipped orientation.