Method and apparatus for providing virtual processing effects for wide-angle video images
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04N-005/225
H04N-005/262
H04N-007/00
H04N-007/18
G06K-009/32
G09G-005/00
출원번호
US-0898865
(2004-07-26)
등록번호
US-7312820
(2007-12-25)
발명자
/ 주소
Zimmermann,Steven Dwain
Gourley,Christopher Shannon
출원인 / 주소
IPIX Corporation
대리인 / 주소
MH2 Technology Law Group
인용정보
피인용 횟수 :
7인용 특허 :
42
초록▼
A method and apparatus is disclosed for providing special effects for wide-angle video images. The special effects include replacing a selected portion of a wide-angle video image with a predetermined image or an associated portion of a video image captured in a subsequent frame. Other special effe
A method and apparatus is disclosed for providing special effects for wide-angle video images. The special effects include replacing a selected portion of a wide-angle video image with a predetermined image or an associated portion of a video image captured in a subsequent frame. Other special effects include image intensity scaling for wide-angle video images.
대표청구항▼
We claim: 1. A method of processing video images, comprising: a) receiving first image data representing an immersive video of an environment, the immersive video having been captured with a video image capture system, the immersive video having a wide-angle field of view and a plurality of frames,
We claim: 1. A method of processing video images, comprising: a) receiving first image data representing an immersive video of an environment, the immersive video having been captured with a video image capture system, the immersive video having a wide-angle field of view and a plurality of frames, wherein at least a portion of the image capture system obstructs a portion of the view of the environment and one or more frames includes an image of the obstructing portion of the image capture system; and b) modifying one or more frames of the immersive video, the step of modifying comprising the step of replacing data representing the image of at least a portion of the image capture system with other image data representing an unobstructed view of at least said obstructed portion to produce a processed immersive video having an unobstructed immersive image. 2. The method of claim 1, wherein the first image data is received via wireless transmission. 3. The method of claim 1, wherein the first image data is received via transmission from said image capture system. 4. The method of claim 3, wherein the transmission of the first image data and the capture of the immersive video are substantially contemporaneous. 5. The method of claim 3, wherein the step of receiving the first image data via transmission from said image capture system includes downloading said first image data from a memory device in the image capture system. 6. The method of claim 1, wherein the first image data is received stored in a tangible computer readable medium. 7. The method of claim 1, wherein said wide-angle field of view is a spherical field of view. 8. The method of claim 1, the other image data having been captured with the image capture system. 9. The method of claim 8, wherein the other image data originates from one or more frames in the immersive video. 10. The method of claim 1, wherein the step of modifying includes modifying the other image data. 11. The method of claim 10, wherein the image of at least a portion of the image capture system has a curvature, and wherein the step of modifying includes warping the image represented by said other image data to substantially the same curvature as said image of at least a portion of the image capture system. 12. The method of claim 11, wherein said other image data represents a planar image prior to warping. 13. The method of claim 1, further comprising the step of: c) modifying at least one of at least a portion of the first image data and at least a portion of the other image data to balance image intensity about the unobstructed image in the processed immersive video. 14. The method of claim 1, the step of modifying including removing the image of at least a portion of the image capture system from at least one of said frames to leave a remainder image, wherein said other image data is derived from said remainder image. 15. A system operable to carry out the steps comprising the method of claim 1. 16. A computer readable medium comprising instructions executable by a computer to perform the method of claim 1. 17. A method of processing video images, comprising: a) receiving first image data representing an immersive video of an environment, the immersive video having been captured with a video image capture system, the immersive video having a wide-angle field of view and a plurality of frames, wherein at least a portion of the image capture system obstructs the view of the environment and one or more frames includes an image of the obstructing portion of the image capture system; and b) modifying one or more frames of the immersive video, the step of modifying comprising the step of superimposing an image represented by other image data over the image of at least a portion of the image capture system to represent an unobstructed view of the environment. 18. A method of processing video images, comprising: a) acquiring a plurality of video images of an environment, said video images having been captured by a video capture system, wherein at least one of said video images includes an image of at least a portion of said video capture system obstructing at least a portion of said environment, wherein said video images comprise a plurality of frames, at least two of said frames representing substantially contemporaneous images captured at substantially the same moment in time; b) seaming together at least two of said substantially contemporaneous images to create a seamed immersive image of said environment at said moment in time, said seamed immersive image including an image of at least a portion of said video capture system obstructing at least a portion of said environment; and c) modifying said seamed immersive image to represent an unobstructed immersive view of said environment. 19. A method of processing video images, comprising: a) acquiring a plurality of video images of an environment, said video images having been captured by a video capture system, wherein at least one of said video images includes an obstructed image, said obstructed image comprising an image of at least a portion of said video capture system obstructing at least a portion of said environment, wherein said video images comprise a plurality of frames, at least two of said frames representing substantially contemporaneous images captured at substantially the same moment in time; b) modifying at least one of said obstructed images to represent an unobstructed view of said environment; and c) seaming together said substantially contemporaneous images to create a seamed immersive image of said environment at said moment in time. 20. A method of processing video images, comprising: a) acquiring video image data representing an immersive view of an environment, said image data having been captured by an image capture system, wherein the image capture system comprises a support member, wherein said immersive view includes an image of at least a portion of said support member obstructing at least a portion of said environment; b) assembling said video image data into an immersive video; and c) modifying image data representing said image of at least a portion of said support member to represent an unobstructed immersive view of said environment.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (42)
Hansen Michael Wade ; McDowell Lucas Kelsey, Apparatus and method for removing blank areas from real-time stabilized images by inserting background information.
Mall Benedict J. ; Fontaine Jean-Jacques,FRX, Area of interest head-mounted display using low resolution, wide angle; high resolution, narrow angle; and see-through views.
Aikawa Shinichi (Mitaka JPX) Sakai Yoshiaki (Higashikurume JPX), Compatible data storage apparatus for use with disk assemblies of two or more different storage capacities.
Schieltz Steve W. (Palm Beach County FL) Glatt Terry Laurence (Pompano Beach FL) Kupersmit Carl (Palm Beach County FL), Image forming and processing device and method for use with no moving parts camera.
Jackson Laban Phelps ; Pecoraro Alexis S. ; Hansen Peter ; Bauer Martin L. ; Martin H. Lee, Method and apparatus for the interactive display of any portion of a spherical image.
Shimizu Yasushi (Hamamatsu JPX) Ando Yoshikazu (Hamamatsu JPX), Method of recording and reproducing video and sound information using plural recording devices and plural reproducing de.
Kuban Daniel P. (Oak Ridge TN) Martin H. Lee (Knoxville TN) Zimmermann Steven D. (Knoxville TN) Busko Nick (Knoxville TN), Omniview motionless camera surveillance system.
Brubaker Curtis M. (10560 Dolcedo Way Los Angeles CA 90077) Wykes Harry B. (Manhattan Beach CA) Pierce Harold D. (Canoga Park CA) Dixon Robert C. (Palmer Lake CO) Post Lawrence H. (Ballwin MO), Remotely controlled vehicle containing a television camera.
Martin H. Lee ; Kuban Daniel P. ; Zimmerman Steven D. ; Busko Nicholas, System for omnidirectional image viewing at a remote location without the transmission of control signals to select vie.
Chuang, Daniel B.; Candell, Lawrence M.; Ross, William D.; Beattie, Mark E.; Fang, Cindy Y.; Ren, Bobby; Blanchard, Jonathan P., Imaging system for immersive surveillance.
Chuang, Daniel B.; Candell, Lawrence M.; Ross, William D.; Beattie, Mark E.; Fang, Cindy Y.; Ren, Bobby; Blanchard, Jonathan P., Imaging system for immersive surveillance.
Chuang, Daniel B.; Candell, Lawrence M.; Ross, William D.; Beattie, Mark E.; Fang, Cindy Y.; Ren, Bobby; Blanchard, Jonathan P.; Long, Jr., Gary M.; White, Lauren L.; Panasyuk, Svetlana V.; Bury, Mark, Imaging systems and methods for immersive surveillance.
Acree, Elaine S.; Whitaker, Sheila G.; Grindstaff, Gene A., Real-time capture and transformation of hemispherical video images to images in rectilinear coordinates.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.