received by the International Bureau on 13 June 2014 (13.06.2014)

1. A timing system including: a glyph associated with an object to be timed; at least one camera for capturing images of the glyph and associated object; a computer that: generates a virtual I identifies the glyph; defines an outline for the object associated with the glyph; associates the virtual line with at least one of the images; and determines when the outline of the object associated with the glyph intersects, crosses or has crossed the virtual line; and a database that records the identity of the glyph and the time that the outline of the object associated with the glyph intersected_^ or crossed the virtual line.

2. A timing system according to claim 1 further including at least two markers that are captured in the images and used by the computer to create the virtual line.

3. A timing system according to claim 2, wherein the at least one camera is mobile, provided that it captures the at least two markers in its images.

4. A timing system according to claim 3, further including a lighting system for illuminating the glyph to improve the images captured by the at least one camera.

5. A timing system according to claim 4, wherein the lighting system emits UV or infrared light and the at least one camera includes a UV or infrared filter.

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6. A timing system according to claim 5, wherein a plurality of cameras capture a plurality of images and the computer processes the times that the outline of the object associated with the glyph intersects, crosses or has crossed the virtual line on each of the plurality of images to arrive at a single time.

7. A timing system according to claim 6, wherein the at least one camera captures: (i) a first image of the object before the object crosses the virtual line; (ii) a second image of the object after the object crosses the virtual line; and (iii) a third image of the object taken before the first image, taken after the second image or taken while the object crosses the virtual line. '

8. A timing system according to claim 7, wherein the computer uses the three images to calculate the average acceleration of the object in the vicinity of the virtual line.

9. A timing system according to claim 8, wherein the computer has regard to:

(i) the distance of the object from the virtual line, in the first image;

(ii) the time that the first image was taken;

(iii) the distance of the object from the virtual line in the second image;

(iv) the time that the second image was taken;

(v) the distance of the object from the virtual line in the third image;

(vi) the time that the third image was taken; and

(vii) the average acceleration of the object, as calculated from the three images, to calculate the time that the object crossed the line.

10. A method for determining the time an outline of an object associated with a glyph passes a predetermined point or line including the steps of: capturing images of the glyph and associated object; associating a virtual line with at least one of the images; identifying the glyph; defining an outline for the object associated with the glyph; determining when the outline of the object associated with the glyph intersects, crosses or has crossed the virtual line; and

16 storing the identity of the glyph and the time that the outline of the object associated with the glyph intersects or crosses the virtual line in a database.

11. A timing method according to claim 10, further including the step of creating the virtual line by linking at least two markers that are captured in the images.

12. A timing method according to any one of claims 11 further including the step of illuminating the glyph to improve the quality of the images.

13. A timing method according to claim 12, wherein the glyph is illuminated in UV or infrared light and the at least one camera includes a UV or infrared filter.

14. A timing method according to claim 13, wherein images are created by a plurality of cameras and the time at which the outline of the object associated with the glyph intersects, crosses or has crossed the virtual line is calculated by processing the corresponding times determined from the images of each camera.

15. A timing method according to claim 14, wherein the step of capturing images of the glyph and associated object includes capturing at least: (i) a first image of the object before the object crosses the virtual line; (ii) a second image of the object after the object crosses the virtual line; and (iii) a third image of the object taken before the first image, taken after the second image or taken while the object crosses the virtual line.

16. A timing method according to claim 15, wherein the step of determining when the outline of the object associated with the glyph intersects, crosses or has crossed the virtual line includes the step of using the three images to calculate the average acceleration of the object in the vicinity of the virtual line.

17. A timing method according to claim 16, wherein the step of determining when the outline of the object associated with the glyph intersects, crosses or has crossed the virtual line has regard to the following inputs:

(i) the distance of the object from the virtual line in the first image;

(ii) the time that the first image was taken;

(iii) the distance of the object from the virtual line in the second image;

(iv) the time that the second image was taken;

(v) the distance of the object from the virtual line in the third image;

17 (vi) the time that the third image was taken; and

(vii) the average acceleration of the object, as calculated from the three images.

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