IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0117131
(2011-05-26)
|
등록번호 |
US-8531506
(2013-09-10)
|
우선권정보 |
TW-100106238 A (2011-02-24) |
발명자
/ 주소 |
- Wang, Guo-Zhen
- Tung, Shuan-Yu
- Ma, Ming-Ching
- Huang, Yi-Pai
- Tzeng, Shu-Wen
- Tseng, Hung-Wei
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
11 |
초록
▼
An interactive stereo display system and a method for calculating a three-dimensional (3D) coordinate are provided. The interactive stereo display system includes a plurality of interactive devices, a stereo display panel, and a processing unit. When the stereo display panel is irradiated by a light
An interactive stereo display system and a method for calculating a three-dimensional (3D) coordinate are provided. The interactive stereo display system includes a plurality of interactive devices, a stereo display panel, and a processing unit. When the stereo display panel is irradiated by a light radiated from a light source of each interactive device, an image of each light filtered by a color filter is captured by an in-cell type optical sensor array. After receiving the images, the processing unit determines overlapping circle objects in each image and identifies the circle object formed by each light source according to a light intensity value at the center of each circle objects. Accordingly, the 3D coordinate of each interactive device relative to the stereo display panel can be calculated according to the center and a radius of each circle object corresponding to each light source.
대표청구항
▼
1. A method for calculating a three-dimensional coordinate, the method being suitable for calculating three-dimensional coordinates of a first interactive device and a second interactive device relative to a stereo display panel, the first interactive device comprising a first light source radiating
1. A method for calculating a three-dimensional coordinate, the method being suitable for calculating three-dimensional coordinates of a first interactive device and a second interactive device relative to a stereo display panel, the first interactive device comprising a first light source radiating a first light, the second interactive device comprising a second light source radiating a second light, the stereo display panel comprising a color filter and an optical sensor array, the method comprising: irradiating the stereo display panel with the first light radiated by the first light source and the second light radiated by the second light source;obtaining a first image by capturing the first light filtered by the color filter and obtaining a second image by capturing the second light filtered by the color filter, wherein the first light and the second light filtered by the color filter are captured by the optical sensor array;detecting at least one circle object in the first image and at least one circle object in the second image to obtain a center coordinate and a radius of each of the circle objects in the first image and in the second image, respectively;determining whether overlapping circle objects among the circle object in the first image and the circle objects in the second image exist according to relative positions of the center coordinates;detecting a light intensity value at a center of each of the circle objects;determining the overlapping circle objects among the circle objects in the first image and the circle objects in the second image formed by the first light source or by the second light source according to the light intensity value at the center of each of the circle objects; andcalculating the three-dimensional coordinates of the first interactive device and the second interactive device relative to the stereo display panel according to the center coordinate and the radius of each of the circle objects respectively corresponding to the first light source and the second light source. 2. The method as claimed in claim 1, wherein the step of detecting the at least one circle object in the first image and the at least one circle object in the second image comprises: detecting the at least one circle object in the first image and the at least one circle object in the second image by Hough transformation to obtain the center coordinate and the radius of each of the circle objects in the first image and in the second image, respectively. 3. The method as claimed in claim 1, wherein when the first image comprises a first circle object, and the second image comprises a second circle object and a third circle object, the step of determining whether the overlapping circle objects among the circle object in the first image and the circle object in the second image exist further comprises: calculating a first distance between the first circle object and the second circle object and a second distance between the first circle object and the third circle object according to the center coordinate of each of the circle objects;confirming the first circle object and the second circle object are overlapped if the first distance is shorter than the second distance; andconfirming the first circle object and the third circle object are overlapped if the second distance is shorter than the first distance. 4. The method as claimed in claim 1, wherein the step of determining the overlapping circle objects among the circle object in the first image and the circle object in the second image are formed by the first light source or by the second light source according to the light intensity value at the center of each of the circle objects further comprises: confirming the overlapping circle objects are formed by the first light source if the largest light intensity value among the light intensity values of the overlapping circle objects is detected at the center of the circle object in the first image and setting the circle object in the first image as corresponding to the first light source; andconfirming the overlapping circle objects are formed by the second light source if the largest light intensity value among the light intensity values of the overlapping circle objects is detected at the center of the circle object in the second image and setting the circle object in the second image as corresponding to the second light source. 5. The method as claimed in claim 1, wherein the step of calculating the three-dimensional coordinates of the first interactive device and the second interactive device relative to the stereo display panel according to the center coordinate and the radius of each of the circle objects respectively corresponding to the first light source and the second light source comprises: searching a database according to the radius of each of the circle objects respectively corresponding to the first light source and the second light source to obtain a height coordinate corresponding to the radius, and generating the three-dimensional coordinates of the first interactive device and the second interactive device relative to the stereo display panel according to the center coordinate and the height coordinate of each of the circle objects respectively corresponding to the first light source and the second light source. 6. An interactive stereo display system comprising: a first interactive device comprising a first light source radiating a first light;a second interactive device comprising a second light source radiating a second light;a stereo display panel comprising a color filter and an optical sensor array, wherein the optical sensor array captures the first light filtered by the color filter to obtain a first image and captures the second light filtered by the color filter to obtain a second image when the stereo display panel is irradiated by the first light radiated from the first light source and the second light radiated from the second light source; anda processing unit electrically connected to the optical sensor array for receiving the first image and the second image from the optical sensor array, respectively, detecting at least one circle object in the first image and at least one circle object in the second image to obtain a center coordinate and a radius of each of the circle objects in the first image and in the second image, respectively, determining whether overlapping circle objects among the circle objects in the first image and the circle objects in the second image exist according to relative positions of the center coordinates, detecting a light intensity value at a center of each of the circle objects, determining the overlapping circle objects of the circle objects in the first image and the second image are formed by the first light source or by the second light source according to the light intensity value at the center of each of the circle objects, and calculating three-dimensional coordinates of the first interactive device and the second interactive device relative to the stereo display panel according to the center coordinate and the radius of each of the circle objects respectively corresponding to the first light source and the second light source. 7. The interactive stereo display system as claimed in claim 6, wherein the processing unit detects the at least one circle object in the first image and the at least one circle object in the second image by Hough transformation to obtain the center coordinate and the radius of each of the circle objects in the first image and the second image. 8. The interactive stereo display system as claimed in claim 6, wherein the processing unit determines whether the overlapping circle objects exist according to relative positions of the center coordinates of the circle objects. 9. The interactive stereo display system as claimed in claim 6, the processing unit compares the light intensity values at the centers of the overlapping circle objects, confirms the overlapping circle objects are formed by the first light source if the light intensity value at the center of the circle object in the first image is the largest one among the light intensity values at the centers of the overlapping circle objects and setting the circle object in the first image as corresponding to the first light source, and confirms the overlapping circle objects are formed by the second light source if the light intensity value at the center of the circle object in the second image is the largest one among the light intensity values at the centers of the overlapping circle objects and setting the circle object in the second image as corresponding to the second light source. 10. The interactive stereo display system as claimed in claim 6, wherein the processing unit searches a database according to the radius of each of the circle objects respectively corresponding to the first light source and the second light source to obtain a height coordinate corresponding to the radius, and the processing unit generates the three-dimensional coordinates of the first interactive device and the second interactive device relative to the stereo display panel according to the center coordinate and the height coordinate of each of the circle objects respectively corresponding to the first light source and the second light source. 11. The interactive stereo display system as claimed in claim 6, wherein the first light source and the second light source are light emitting diodes. 12. The interactive stereo display system as claimed in claim 6, wherein the first light source and the second light source respectively have an orientational pattern, and an elliptical object having the orientational pattern is formed in the first image or the second image when the first light source or the second light source radiates light to the stereo display panel at a tilt angle, the processing unit determines a tilt direction of the first light source or the second light source according to the orientational pattern and determines the tilt angle according to the elliptical object. 13. The interactive stereo display system as claimed in claim 6, wherein the processing unit is built in the stereo display panel. 14. The interactive stereo display system as claimed in claim 6, wherein the first light source and the second light source have different light wavelengths. 15. The interactive stereo display system as claimed in claim 14, wherein the first light is red light and the second light is blue light.
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