Optical tracking system and tracking method using the same
Abstract
An optical tracking system and a method using the same capable of detecting an exact spatial position and a direction of a target regardless of the distance from the target to be calculated is disclosed. The optical tracking system and a method using the same according to an embodiment of the present invention has an effect of expanding an available area by detecting an exact spatial position and a direction of a target regardless of the distance from the target to be calculated, as well as, a system downsizing is also achieved by significantly reducing size of the marker unit compared with conventional system.
Claims
exact text as granted — not AI-modified1 . An optical tracking system comprising:
at least one marker configured to be attached to a target, the at least one marker including therein:
at least one pattern portion formed by a plurality of patterns and arranged to receive light irradiated by at least one external light source, the received light passing the at least one pattern portion or being reflected by the at least one pattern portion; and
a first lens arranged to receive the light, which has passed the at least one pattern portion or has been reflected by the at least one pattern portion, and configured to release a plurality of portions of the light, each released portion of the light having passed a specific point of the at least one pattern portion;
at least one camera including:
a second lens configured to receive and focus the light released from the first lens; and
an image sensor configured to form an image of the at least one pattern portion based on the focused light; and
a processor configured to calculate a spatial position and a direction of the at least one marker by using the image of the at least one pattern portion.
2 . The optical tracking system of claim 1 , wherein the processor is configured to:
calculate the spatial position of the at least one marker by using coordinate information of the image of the at least one pattern portion, and calculate the direction of the at least one marker by using and the coordinate information of the image of the at least one pattern portion and coordinate information of the spatial position of the at least one marker.
3 . The optical tracking system of claim 1 , wherein the processor is configured to:
calculate the spatial position of the at least one marker by using a position change or a size change of the image of the at least one pattern portion, and calculate the direction of the at least one marker by using a position change or a size change of the at least one pattern portion for each area of the image of the at least one pattern portion.
4 . The optical tracking system of claim 1 , wherein the first lens comprises a fish-eye lens.
5 . The optical tracking system of claim 1 , wherein the at least one marker further comprises a prism arranged to receive the light released from the first lens and configured to release the light to have a different angle of view.
6 . A tracking method comprising:
by at least one pattern portion included in at least one marker of an optical tracking system, receiving light irradiated by at least one external light source, the at least one pattern portion formed by a plurality of patterns and arranged to receive the light irradiated by the at least one external light source, the received light passing the at least one pattern portion or being reflected by the at least one pattern portion; by a first lens included in the at least one marker, the first lens arranged to receive the light, which has passed the at least one pattern portion or has been reflected by the at least one pattern portion, releasing a plurality of portions of the light, each released portion of the light having passed a specific point of the at least one pattern portion; by a second lens included in at least one camera of the optical tracking system, receiving and focusing the light released from the first lens; by an image sensor included in the at least one camera, forming an image of the at least one pattern portion based on the focused light; and by a processor of the optical tracking system, calculating a spatial position and a direction of the at least one marker by using the image of the at least one pattern portion.
7 . The tracking method of claim 6 , wherein calculating the spatial position and the direction of the at least one marker comprises:
calculating the spatial position of the at least one marker by using coordinate information of the image of the at least one pattern portion; and calculating the direction of the at least one marker by using and the coordinate information of the image of the at least one pattern portion and coordinate information of the spatial position of the at least one marker.
8 . The tracking method of claim 7 , wherein calculating the direction of the at least one marker comprises:
calculating the spatial position of the at least one marker by using a position change or a size change of the image of the at least one pattern portion; and calculating the direction of the at least one marker by using a position change or a size change of the at least one pattern portion for each area of the image of the at least one pattern portion
9 . The tracking method of claim 6 , wherein the first lens comprises a fish-eye lens.
10 . The tracking method of claim 6 , wherein the at least one marker further comprises a prism arranged to receive the light released from the first lens and configured to release the light to have a different angle of view.Join the waitlist — get patent alerts
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