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Image sensing apparatus and its control method, control program, and storage medium 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • H04N-009/097
  • H04N-009/09
  • H04N-009/093
  • H04N-003/14
출원번호 US-0028448 (2001-10-25)
등록번호 US-7262799 (2007-08-28)
우선권정보 JP-2000-325588(2000-10-25)
발명자 / 주소
  • Suda,Yasuo
출원인 / 주소
  • Canon Kabushiki Kaisha
대리인 / 주소
    Morgan & Finnegan LLP
인용정보 피인용 횟수 : 153  인용 특허 : 20

초록

This invention has as its object to provide an image sensing apparatus which can satisfactorily correct misregistration among images, and can composite the images. To achieve this object, an image sensing apparatus includes: a plurality of apertures that receives external light from different positi

대표청구항

What is claimed is: 1. An image sensing apparatus comprising: a single solid-state image sensing element having matrix-like arranged first to fourth image sensing areas with substantially the same size, all of the first to fourth image sensing areas being arranged on a single plane, green color fil

이 특허에 인용된 특허 (20)

  1. Fossum Eric R. ; Kemeny Sabrina E. ; Pain Bedabrata, Active pixel sensor array with multiresolution readout.
  2. Olsen,Richard Ian; Sato,Darryl L.; Moller,Borden; Vitomirov,Olivera; Brady,Jeffrey A.; Gunawan,Ferry; Oten,Remzi; Sun,Feng Qing; Gates,James, Apparatus for multiple camera devices and method of operating same.
  3. Fenster Paul (Petach Tikva ILX) Shimoni Yair (Jerusalem ILX), Automatic misregistration correction.
  4. Hattori Yuichiro (Yokohama JPX), Color image pickup device having color temperature converting filters.
  5. Schroeder,Dale W.; Gruhlke,Russell W., Color image sensor with imaging elements imaging on respective regions of sensor elements.
  6. Bayer Bryce E. (Rochester NY), Color imaging array.
  7. Parulski Kenneth A. (Rochester NY), Color sequential camera in which chrominance components are captured at a lower temporal rate than luminance components.
  8. Sugimori Yoshio (Tokyo JPX) Kimata Yoshihide (Tokyo JPX) Kurosaki Tadao (Kamakura JPX), Color television camera with details of luminance signal formation.
  9. Morris, Tonia G.; Bell, Cynthia S., Controlling integration times of pixel sensors.
  10. Yu, Yanbin; Zhang, Zhongxuan, Digital cameras using multiple sensors with multiple lenses.
  11. Itano,Tetsuya; Takahashi,Hidekazu; Noda,Tomoyuki, Image pickup apparatus.
  12. Yoneda, Tomoya; Inoue, Shunsuke; Kochi, Tetsunobu; Takahashi, Hidekazu; Ogura, Masanori, Image pickup apparatus.
  13. Kinoshita Kosuke,JPX ; Shinozaki Takashi,JPX ; Tsushima Takuya,JPX ; Yoshida Masaji,JPX ; Kitamura Hiroyuki,JPX ; Suwa Tetsuya,JPX, Imaging apparatus including offset pixels for generating vertical high frequency component.
  14. Rostoker Michael D., Light sensing device having an array of photosensitive elements coincident with an array of lens formed on an optically.
  15. Fenster Paul (c/o Elscint Ltd. ; Box 5258 Haifa ILX) Shimoni Yair (c/o Elscint Ltd. ; Box 5258 Haifa ILX) Nissenson Bilha (c/o Elscint Ltd. ; Box 5258 Haifa ILX) Alperin Noam (c/o Elscint Ltd. ; Box , Misregistration correction.
  16. Murayama Yasushi (Tokyo JPX) Hoshino Osamu (Tokyo JPX) Chiku Kazuyoshi (Yokohama JPX) Sato Yukio (Chigasaki JPX) Kubota Yoichi (Kawasaki JPX) Miyagi Ken (Yokohama JPX) Hirose Yoshihiko (Yokohama JPX), Multiimage forming apparatus.
  17. Akiyama Toshiyuki (Tokorozawa JPX) Mimura Itaru (Sayama JPX) Takahashi Kenji (Tsukui JPX) Ozawa Naoki (Akishima JPX) Matsumoto Takahiro (Hachioji JPX), Opto-electric converting image pickup element and image pickup apparatus employing the same.
  18. Tangen, Reidar E.; Gudesen, Hans Gude; Nordal, Per-Erik; Leistad, Geirr I., Optoelectronic camera and method for image formatting in the same.
  19. Bawolek, Edward J.; Li, Zong-Fu, Orange-green-blue (OGB) color system for digital image sensor applications.
  20. Koichi Sato JP, Processor for image-pixel signals derived from divided sections of image-sensing area of solid-type image sensor.

이 특허를 인용한 특허 (153)

  1. Venkataraman, Kartik; Duparre, Jacques; Mullis, Robert, Array camera architecture implementing quantum dot color filters.
  2. Duparre, Jacques, Array camera architecture implementing quantum film image sensors.
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  5. Venkataraman, Kartik; Duparré, Jacques, Array camera configurations incorporating multiple constituent array cameras.
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  9. Venkataraman, Kartik; Gallagher, Paul; Jain, Ankit; Nisenzon, Semyon; Lelescu, Dan; Ciurea, Florian; Molina, Gabriel, Array cameras including an array camera module augmented with a separate camera.
  10. Rodda, Errol Mark; Duparré, Jacques, Array cameras incorporating independently aligned lens stacks.
  11. Rodda, Errol Mark; Duparré, Jacques, Array cameras incorporating independently aligned lens stacks.
  12. Duparre, Jacques; Lelescu, Dan; Venkataraman, Kartik, Array cameras incorporating monolithic array camera modules with high MTF lens stacks for capture of images used in super-resolution processing.
  13. Duparre, Jacques; Lelescu, Dan; Venkataraman, Kartik, Array cameras incorporating optics with modulation transfer functions greater than sensor Nyquist frequency for capture of images used in super-resolution processing.
  14. Venkataraman, Kartik; Gallagher, Paul; Jain, Ankit K.; Nisenzon, Semyon; Lelescu, Dan; Ciurea, Florian; Molina, Gabriel, Autofocus system for a conventional camera that uses depth information from an array camera.
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  16. Nisenzon, Semyon; Venkataraman, Kartik, Camera modules patterned with pi filter groups.
  17. Nisenzon, Semyon; Venkataraman, Kartik, Camera modules patterned with pi filter groups.
  18. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Capturing and processing of high dynamic range images using camera arrays.
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  22. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Capturing and processing of images captured by non-grid camera arrays.
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  27. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H.; Duparre, Jacques; Hu, Shane Ching-Feng, Capturing and processing of images including occlusions focused on an image sensor by a lens stack array.
  28. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H.; Duparre, Jacques; Hu, Shane Ching-Feng, Capturing and processing of images using camera array incorperating Bayer cameras having different fields of view.
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  30. Duparre, Jacques, Capturing and processing of images using monolithic camera array with heterogeneous imagers.
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  33. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Capturing and processing of images using non-monolithic camera arrays.
  34. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Capturing and processing of near-IR images including occlusions using camera arrays incorporating near-IR light sources.
  35. Farina, Marco; Guarnera, Mirko Ignazio; Mancuso, Massimo; Messina, Giuseppe; Capra, Alessandro, Compound camera sensor and related method of processing digital images.
  36. Sun, Xiuhong, Dual-swath imaging system.
  37. Attar, Ziv; Aharon-Attar, Chen, Exposure timing manipulation in a multi-lens camera.
  38. Mullis, Robert H.; Lelescu, Dan; Venkataraman, Kartik, Extended color processing on pelican array cameras.
  39. Mullis, Robert; Lelescu, Dan; Venkataraman, Kartik, Extended color processing on pelican array cameras.
  40. Lelescu, Dan; Jain, Ankit K., Feature based high resolution motion estimation from low resolution images captured using an array source.
  41. Attar, Ziv; Aharon-Attar, Chen, Geometrically distorted luminance in a multi-lens camera.
  42. Miyatake, Shigehiro; Tanida, Jun; Yamada, Kenji, Image input apparatus.
  43. McMahon, Andrew Kenneth John, Imager array interfaces.
  44. McMahon, Andrew Kenneth John, Imager array interfaces.
  45. Augusto, Carlos J. R. P., Imaging devices operable with multiple aspect ratios.
  46. Augusto, Carlos J. R. P., Imaging devices operable with multiple aspect ratios.
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  48. Cho, Kwangbo; Kim, Dongsoo, Method and apparatus for array camera pixel readout.
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  50. van Hoorebeke, Tristan; Devitt, John, Multi-channel imaging devices.
  51. van Hoorebeke, Tristan; Devitt, John, Multi-channel imaging devices comprising unit cells.
  52. Duparre, Jacques, Optical arrangements for use with an array camera.
  53. Duparre, Jacques, Optical arrangements for use with an array camera.
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  57. Mullis, Robert, System and methods for calibration of an array camera.
  58. Mullis, Robert, System and methods for calibration of an array camera.
  59. Mullis, Robert, System and methods for calibration of an array camera.
  60. Mullis, Robert, System and methods for calibration of an array camera.
  61. Mullis, Robert, System and methods for calibration of an array camera.
  62. Mullis, Robert, System and methods for calibration of an array camera using a single captured image.
  63. Srikanth, Manohar; Ramamoorthi, Ravi; Venkataraman, Kartik; Chatterjee, Priyam, System and methods for depth regularization and semiautomatic interactive matting using RGB-D images.
  64. Ciurea, Florian; Venkataraman, Kartik; Molina, Gabriel; Lelescu, Dan, System and methods for measuring depth using an array camera employing a bayer filter.
  65. McMahon, Andrew Kenneth John; Venkataraman, Kartik; Mullis, Robert, Systems and method for performing depth based image editing.
  66. McMahon, Andrew Kenneth John, Systems and methods for array camera focal plane control.
  67. McMahon, Andrew Kenneth John, Systems and methods for array camera focal plane control.
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  69. Lelescu, Dan; Venkataraman, Kartik, Systems and methods for controlling aliasing in images captured by an array camera for use in super-resolution processing.
  70. Lelescu, Dan; Venkataraman, Kartik, Systems and methods for controlling aliasing in images captured by an array camera for use in super-resolution processing.
  71. Duparré, Jacques, Systems and methods for correcting for warpage of a sensor array in an array camera module by introducing warpage into a focal plane of a lens stack array.
  72. Venkataraman, Kartik; Ciurea, Florian, Systems and methods for correcting user identified artifacts in light field images.
  73. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for decoding image files containing depth maps stored as metadata.
  74. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for decoding image files containing depth maps stored as metadata.
  75. Venkataraman, Kartik; Nisenzon, Semyon, Systems and methods for decoding light field image files.
  76. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for decoding light field image files having depth and confidence maps.
  77. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for decoding light field image files using a depth map.
  78. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for decoding refocusable light field image files.
  79. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for decoding structured light field image files.
  80. Yang, Samuel; Srikanth, Manohar; Lelescu, Dan; Venkataraman, Kartik, Systems and methods for depth-assisted perspective distortion correction.
  81. Duparre, Jacques; McMahon, Andrew Kenneth John; Lelescu, Dan; Venkataraman, Kartik; Molina, Gabriel, Systems and methods for detecting defective camera arrays and optic arrays.
  82. Duparre, Jacques; McMahon, Andrew Kenneth John; Lelescu, Dan; Venkataraman, Kartik; Molina, Gabriel, Systems and methods for detecting defective camera arrays and optic arrays.
  83. Ciurea, Florian; Lelescu, Dan; Chatterjee, Priyam, Systems and methods for dynamic calibration of array cameras.
  84. Lelescu, Dan; Molina, Gabriel; Venkataraman, Kartik, Systems and methods for dynamic refocusing of high resolution images generated using images captured by a plurality of imagers.
  85. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for encoding image files containing depth maps stored as metadata.
  86. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for encoding image files containing depth maps stored as metadata.
  87. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for encoding image files containing depth maps stored as metadata.
  88. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for encoding light field image files.
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  90. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for encoding light field image files having a depth map.
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  93. Venkataraman, Kartik; Nisenzon, Semyon; Lelescu, Dan, Systems and methods for encoding structured light field image files.
  94. Ciurea, Florian; Venkataraman, Kartik; Molina, Gabriel; Lelescu, Dan, Systems and methods for estimating depth and visibility from a reference viewpoint for pixels in a set of images captured from different viewpoints.
  95. Ciurea, Florian; Venkataraman, Kartik; Molina, Gabriel; Lelescu, Dan, Systems and methods for estimating depth and visibility from a reference viewpoint for pixels in a set of images captured from different viewpoints.
  96. Venkataraman, Kartik; Duparré, Jacques, Systems and methods for estimating depth from projected texture using camera arrays.
  97. Venkataraman, Kartik; Gallagher, Paul; Jain, Ankit; Nisenzon, Semyon, Systems and methods for estimating depth using ad hoc stereo array cameras.
  98. Venkataraman, Kartik; Gallagher, Paul; Jain, Ankit; Nisenzon, Semyon, Systems and methods for estimating depth using stereo array cameras.
  99. Venkataraman, Kartik; Lelescu, Dan; Molina, Gabriel, Systems and methods for generating compressed light field representation data using captured light fields, array geometry, and parallax information.
  100. Venkataraman, Kartik; Lelescu, Dan; Molina, Gabriel, Systems and methods for generating compressed light field representation data using captured light fields, array geometry, and parallax information.
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  103. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Systems and methods for generating depth maps using a camera arrays incorporating monochrome and color cameras.
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  106. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Systems and methods for generating depth maps using images captured by camera arrays.
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  112. Duparre, Jacques; McMahon, Andrew Kenneth John; Lelescu, Dan, Systems and methods for manufacturing camera modules using active alignment of lens stack arrays and sensors.
  113. Ciurea, Florian; Venkataraman, Kartik; Molina, Gabriel; Lelescu, Dan, Systems and methods for measuring depth based upon occlusion patterns in images.
  114. Ciurea, Florian; Venkataraman, Kartik; Molina, Gabriel; Lelescu, Dan, Systems and methods for measuring depth in the presence of occlusions using a subset of images.
  115. Ciurea, Florian; Venkataraman, Kartik; Molina, Gabriel; Lelescu, Dan, Systems and methods for measuring depth using an array of independently controllable cameras.
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  119. Venkataraman, Kartik; Ciurea, Florian, Systems and methods for measuring scene information while capturing images using array cameras.
  120. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H.; Duparre, Jacques; Hu, Shane Ching-Feng, Systems and methods for normalizing image data captured by camera arrays.
  121. Ciurea, Florian; Venkataraman, Kartik; Molina, Gabriel; Lelescu, Dan, Systems and methods for parallax detection and correction in images captured using array cameras that contain occlusions using subsets of images to perform depth estimation.
  122. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Systems and methods for parallax measurement using camera arrays incorporating 3 x 3 camera configurations.
  123. Venkataraman, Kartik; Huang, Yusong; Jain, Ankit K.; Chatterjee, Priyam, Systems and methods for performing high speed video capture and depth estimation using array cameras.
  124. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Systems and methods for performing post capture refocus using images captured by camera arrays.
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  128. Molina, Gabriel, Systems and methods for reducing motion blur in images or video in ultra low light with array cameras.
  129. Molina, Gabriel, Systems and methods for reducing motion blur in images or video in ultra low light with array cameras.
  130. Venkataraman, Kartik; Gallagher, Paul; Jain, Ankit; Nisenzon, Semyon, Systems and methods for stereo imaging with camera arrays.
  131. Lelescu, Dan; Molina, Gabriel; Venkataraman, Kartik, Systems and methods for synthesizing high resolution images using a set of geometrically registered images.
  132. Lelescu, Dan; Duong, Thang, Systems and methods for synthesizing high resolution images using image deconvolution based on motion and depth information.
  133. Lelescu, Dan; Duong, Thang, Systems and methods for synthesizing high resolution images using image deconvolution based on motion and depth information.
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  135. Lelescu, Dan; Molina, Gabriel; Venkataraman, Kartik, Systems and methods for synthesizing high resolution images using super-resolution processes.
  136. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H.; Duparre, Jacques; Hu, Shane Ching-Feng, Systems and methods for synthesizing higher resolution images using a set of images containing a baseline image.
  137. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H.; Duparre, Jacques; Hu, Shane Ching-Feng, Systems and methods for synthesizing higher resolution images using a set of images containing a baseline image.
  138. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Systems and methods for synthesizing higher resolution images using images captured by camera arrays.
  139. Venkataraman, Kartik; Jabbi, Amandeep S.; Mullis, Robert H., Systems and methods for synthesizing higher resolution images using images captured by camera arrays.
  140. Venkataraman, Kartik; Nisenzon, Semyon; Chatterjee, Priyam; Molina, Gabriel, Systems and methods for synthesizing images from image data captured by an array camera using restricted depth of field depth maps in which depth estimation precision varies.
  141. Venkataraman, Kartik; Nisenzon, Semyon; Chatterjee, Priyam; Molina, Gabriel, Systems and methods for synthesizing images from image data captured by an array camera using restricted depth of field depth maps in which depth estimation precision varies.
  142. McMahon, Andrew Kenneth John; Venkataraman, Kartik; Mullis, Robert, Systems and methods for the manipulation of captured light field image data.
  143. McMahon, Andrew Kenneth John, Systems and methods for transmitting and receiving array camera image data.
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