A random speckle pattern is displayed on a display screen and the image then undergoes an imposed geometric transformation, for example being shifted by an integer number of pixels, the pixel pitch having been measured against a standard. The change in the image is measured by a digital image correl
A random speckle pattern is displayed on a display screen and the image then undergoes an imposed geometric transformation, for example being shifted by an integer number of pixels, the pixel pitch having been measured against a standard. The change in the image is measured by a digital image correlation (“DIC”) system, which requires validation. The digital image correlation system is validated by comparing the known measured changes against the imposed geometric transformation. Traceability back to a measurement standard is provided by measuring the pixel pitch with a measuring device that is itself validated back to a measurement standard.
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1. A method of validating a digital image correlation system comprising: a) displaying a random speckle pattern, as a first image, on a display screen having a stack of a plurality of lines of pixels, adjacent pixels in each line being separated by a known pitch, the pitch having been measured again
1. A method of validating a digital image correlation system comprising: a) displaying a random speckle pattern, as a first image, on a display screen having a stack of a plurality of lines of pixels, adjacent pixels in each line being separated by a known pitch, the pitch having been measured against a standard,b) using the digital image correlation system that requires validation to take a first set of measurements of the random speckle pattern,c) displaying a second image, in which the random speckle pattern of the first image has undergone an imposed geometric transformation, such that one or more blocks of the first image are mapped onto one or more blocks of the second image in a one-to-one mapping, each block being represented on screen as an integer number of pixels,d) ascertaining a measured geometric transformation including taking a second set of measurements with the digital image correlation of the random speckle pattern, ande) comparing the imposed geometric transformation and the measured geometric transformation. 2. The method according to claim 1, wherein the imposed geometric transformation is such that the one or more blocks of the first image, and the one or more blocks of the second image, are each represented on screen as a single pixel, whereby the geometric transformation is such that individual blocks of the first image shift an integer number of pixels to form the individual blocks of the second image. 3. The method according to claim 1, wherein the imposed geometric transformation is such the whole of the random speckle pattern is shifted, in the direction along the length of each line, on the display screen by an integer number of pixels. 4. The method according to claim 1, wherein the random speckle pattern consists of pixels each having a colour that is equal to one of a set of colours, the set comprising more than three colors. 5. The method according to claim 1, wherein the display screen is formed from flexible material that is able to conform to different shapes at least one of which being non-planar. 6. The method according to claim 1, wherein the method includes a step, which is conducted before step e), of calibrating the digital image correlation system. 7. The method according to claim 6, wherein the step of calibrating the digital image correlation system includes displaying a calibration pattern on the same display screen as is used to display the random speckle pattern in step a). 8. A method of calibrating a digital image correlation system comprising: a) displaying a known pattern on a display screen having a stack of a plurality of lines of pixels, the centres of adjacent pixels in each line being separated by a known pitch, and the distance from the centreline of one line of pixels to the centreline of an adjacent line of pixels being a known separation distance, the pitch and the separation distance each having been measured against a standard,b) using the digital image correlation system that requires calibration to take a set of measurements of the known pattern,c) repeating steps a) and b) above a plurality of times, andd) calculating calibration parameters for the digital image correlation system from the results of step c). 9. A digital image correlation system as validated by the method of claim 1. 10. A digital image correlation system as calibrated by the method of claim 7. 11. A digital image correlation system as calibrated by the method of claim 8. 12. A method of validating a computer model of a structure comprising: performing the method of claim 1 to provide a validated digital image correlation system,immediately before or after performing the method of claim 1, using the digital image correlation system to take a first image of a speckle pattern applied to a structure made according to the computer model,applying a load to the structure,using the digital image correlation system to take a second image of the speckle pattern,using the digital image correlation system to calculate the strain field, andcomparing the strain field resulting from the measurements made with the validated digital image correlation system with a corresponding strain field as predicted with the computer model. 13. The method according to claim 12, wherein substantially the same sort of pattern is used to validate the digital image correlation system as is applied to the structure. 14. A method of designing an aircraft structure comprising: a) creating a computer model of the aircraft structure,b) making predictions, with the use of the computer model, concerning the behaviour of the aircraft structure as between first and second loading conditions,c) making a physical model of the aircraft structure,d) applying a random speckle pattern on at least a part of the physical model of the aircraft structure,e) using a digital image correlation system to take a first set of measurements of the random speckle pattern, under a first load condition,f) applying to the physical model of the aircraft structure a second load condition, being different from the first load condition,g) taking a second set of measurements with the digital image correlation system of the random speckle pattern, under the second load condition,h) ascertaining the observed behaviour of the physical model of the aircraft structure with the digital image correlation system,i) validating the computer model by means of a comparison between the predicted behaviour and the observed behaviour, andj) validating the digital image correlation system by performing the method of claim 1. 15. An aircraft component including an aircraft structure made from a computer model of the aircraft structure, which has been validated by the method according to claim 14. 16. A method of certifying an aircraft structure comprising: a) providing a loading profile to be applied to an aircraft structure,b) providing certification behaviour criteria with which the aircraft structure must comply when loaded by the loading profile,c) applying the loading profile to the aircraft structure on which there is provided a random speckle pattern,d) using a digital image correlation system to take measurements both before the loading profile is applied and during when the loading profile is applied,e) ascertaining the observed behaviour of the aircraft structure with the digital image correlation system as validated by a method according to claim 1, andf) ascertaining whether the observed behaviour complies with the certification behaviour criteria. 17. An aircraft component including an aircraft structure certified by the method of claim 16. 18. A portable computer with a display screen, wherein the portable computer is programmed with a computer program product configured to cause, when the computer program is executed, the portable computer to perform steps a) and c) of claim 1. 19. A computer system including a display screen and being connected to form part of a digital image correlation system, wherein the computer system is programmed with one or more computer program products configured to cause, when the computer program is executed, the computer system to perform the steps of the method of claim 1. 20. A computer program product as defined in claim 18. 21. A computer program product as defined in claim 19.
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