Patent application number | Description | Published |
20090009835 | Hologram Reproducer and Hologram Reproducing Method - When a hologram recording material is changed in volume and refractive index during hologram recording, if one sheet of non-defective reconstructed images cannot be obtained even if conditions are changed so as to conform with Bragg's law most closely by changing the angle or position of a reference beam, a hologram reconstructing apparatus and a hologram reconstructing method are provided, in that a plurality of sheets of partially non-defective and favorable reconstructed images ( | 01-08-2009 |
20100265554 | HOLOGRAM REPRODUCING AND IMAGING APPARATUS, AND HOLOGRAM REPRODUCING AND IMAGING METHOD - A hologram reproducing and imaging apparatus includes a reference light source configured to be arranged near a hologram recording material on which a hologram is recorded and has an arrangement of a plurality of light sources, a reference light source drive section configured to drive the plurality of light sources in a time-division manner, an imaging sensor configured to capture an image of a reproduction area irradiated with reference light from the reference light source and photoelectrically convert the image, and an image processing section configured to process an imaging signal from the imaging sensor. Partial captured images are obtained by enabling the imaging signal of the area irradiated when the plurality of light sources are turned on, and the partial captured images are combined to be a reproduction image by the image processing section. | 10-21-2010 |
20120002074 | IMAGE PROCESSING APPARATUS, SIGNAL PROCESSING APPARATUS, AND PROGRAM - An apparatus and a method which enable effective removal of flicker are provided. Under an illumination environment such as a fluorescent lamp with luminance variation, flicker that occurs in images shot with an X-Y address scanning type imaging device such as a CMOS is effectively removed or reduced. The integral value of the row-by-row signal intensity of an image to be corrected from which to remove flicker is calculated, and this integral value is used to detect flicker components contained in individual rows of an image frame. The detected flicker components represent data according to the actual flicker waveform of the illumination, and a correction process is executed using flicker correction coefficients formed by an anti-phase pattern of the flicker components. Effective flicker removal becomes possible through this process. | 01-05-2012 |
20120002257 | HOLOGRAM RECORDING MEDIUM AND METHOD FOR MANUFACTURING THE SAME, HOLOGRAM REPRODUCTION APPARATUS, AND HOLOGRAM REPRODUCTION METHOD - A hologram recording medium having two or more images recorded therein, wherein when substantially collimated light is incident along a first direction on the hologram recording medium, a first image is reproduced with the intensity of light diffracted in the hologram recording medium maximized in a predetermined direction, when substantially collimated light is incident along a second direction on the hologram recording medium, a second image is reproduced with the intensity of light diffracted in the hologram recording medium maximized in the predetermined direction, and a full width at half maximum of a reproduction angle of at least either of the diffracted light intensities of the first and second images is 8° or smaller. | 01-05-2012 |
20120007946 | HOLOGRAM REPRODUCTION IMAGE PROCESSING APPARATUS AND PROCESSING METHOD - A holographic reproduction image processing apparatus includes: a detecting section detecting the luminance of a plurality of pixels in an area of a holographic reproduction image extending in a direction substantially orthogonal to a direction in which the image has luminance variation; and an image processing section correcting the luminance variation according to luminance information supplied from the detecting section. | 01-12-2012 |
20120206635 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD AND ELECTRONIC EQUIPMENT - Disclosed herein is an image processing apparatus including: a storage section configured to store a correction matrix correcting crosstalk generated by a light or electron leak from an adjacent pixel existing among a plurality of pixels for receiving light in an imaging device; and a processing section configured to carry out processing to apply the correction matrix stored in the storage section to an image signal generated by the imaging device for each of the pixels. | 08-16-2012 |
20130329085 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD AND ELECTRONIC EQUIPMENT - Disclosed herein is an image processing apparatus including: a storage section configured to store a correction matrix correcting crosstalk generated by a light or electron leak from an adjacent pixel existing among a plurality of pixels for receiving light in an imaging device; and a processing section configured to carry out processing to apply the correction matrix stored in the storage section to an image signal generated by the imaging device for each of the pixels. | 12-12-2013 |
20140375848 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An apparatus and a method capable of effectively eliminating flicker are provided. Flicker which occurs in a captured image captured under a lighting environment such as a fluorescent light having a luminance change is effectively eliminated or reduced. A short exposure image and a long exposure image, which are images captured with at least two different exposure periods, are input, a short exposure image row profile having integrated values of a row-by-row signal quantity of the short exposure image and a reference profile having integrated values of a row-by-row signal quantity of the long exposure image are generated, a flicker correction waveform is generated by a division process on the short exposure image row profile by the reference profile or the like, and a corrected image is generated whose flicker components have been eliminated by a process of multiplying pixel values of each of the rows of the short exposure image by a row-by-row coefficient defined by the flicker correction waveform. | 12-25-2014 |