Patent application number | Description | Published |
20110122291 | IMAGE RECORDING DEVICE AND METHOD - The presence/absence of a face in an image and the type of imaging mode during imaging (such as a landscape imaging mode and a close-up imaging mode) of the image acquired by imaging and the like are detected. Images are automatically classified by groups based on the detected information (classification information). A plurality of images classified by the groups are connected to create a multi-image file (MP file), and the MP file is recorded in a recording medium. As a result, the plurality of classified images can be managed altogether (without dissipation), and the plurality of classified images can be reproduced by providing the multi-image file even if a reproducer does not have a classification function. | 05-26-2011 |
20110292045 | THREE-DIMENSIONAL IMAGE OUTPUT DEVICE AND THREE-DIMENSIONAL IMAGE OUTPUT METHOD - A three-dimensional image output device includes: a viewpoint image acquiring device for acquiring a plurality of viewpoint images obtained by photographing a same subject from a plurality of viewpoints; a parallax information acquiring device for acquiring parallax amounts in a plurality of sets of feature points at which features substantially correspond to one another from the acquired plurality of viewpoint images; a parallax amount adjusting device for adjusting the parallax amount in each of the acquired feature points, and performing adjustment of assigning different weights to the parallax amounts in accordance with values of the parallax amounts; a parallax image generating device for generating a parallax image corresponding to the parallax amount of each of the feature points after the adjustment; and a parallax image output device for outputting a plurality of parallax images including the generated parallax image. | 12-01-2011 |
20120219208 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus that an image input unit; a parallax acquisition unit configured to acquire a per-pixel or per-region parallax between two-viewpoint images; a main subject detection unit configured to detect a main subject on the two-viewpoint images; a parallax acquisition unit configured to acquire a parallax of the main subject; a setting unit configured to set a conversion factor of the parallax; a correction unit configured to correct the conversion factor of the parallax per pixel, per region, or per image; a multi-viewpoint image generation unit configured to convert at least one image of the two-viewpoint images in accordance with the corrected conversion factor of the parallax; an image adjustment unit configured to shift the two-viewpoint images or multi-viewpoint images to obtain a parallax appropriate for stereoscopic view; and a stereoscopically-displayed image generation unit configured to generate a stereoscopically-displayed image. | 08-30-2012 |
20130016256 | IMAGE RECORDING APPARATUS AND IMAGE PROCESSING METHODAANM Yahagi; KoichiAACI Saitama-shiAACO JPAAGP Yahagi; Koichi Saitama-shi JPAANM Watanabe; MikioAACI Saitama-shiAACO JPAAGP Watanabe; Mikio Saitama-shi JP - An image processing apparatus having: an image acquisition unit that acquires a plurality of viewpoint images; a disparity map generation unit that generates a disparity map representing a disparity distribution; a multi-viewpoint image generation unit that generates a multi-viewpoint image including a plurality of viewpoint images the number of which is larger than the number of the plurality of viewpoint images based on the plurality of viewpoint images and the disparity map; an image processing unit that performs image processing for a subject image of the multi-viewpoint image based on the multi-viewpoint image and the disparity map and switches an amount of image processing for the subject image depending on the disparity; and an output unit that switches the plurality of viewpoint images included in the multi-viewpoint image, which has been subjected to image processing by the image processing unit, and sequentially outputs the viewpoint images. | 01-17-2013 |
20130314678 | DEVICE AND METHOD FOR STEREOSCOPIC IMAGE PRINTING - A method for stereoscopic image printing according to one aspect of the presently disclosed subject matter includes acquiring information on distribution of parallax of a multi-viewpoint image with two or more viewpoints; determining, based on the information on the distribution of parallax, a number of viewpoints of a stereoscopic image which is printed on a lenticular lens sheet; generating, if the number of viewpoints of the multi-viewpoint image is smaller than the determined number of viewpoints, a shortfall viewpoint image based on the inputted multi-viewpoint image; and printing a stereoscopic image which is made of the multi-viewpoint image and the generated viewpoint image. | 11-28-2013 |
20150116389 | IMAGE DISPLAY APPARATUS AND METHOD - When an environment to appreciate an image displayed on an LCD panel is a normal environment, BLD control is performed according to the second backlight brightness characteristic in which the display brightness in the LCD panel is close to be linear, when it is a dark environment, BLD control is performed according to the first backlight brightness characteristic in which the backlight brightness of the low brightness part of the image is set lower than the second backlight brightness characteristic, and, when it is a bright environment, BLD control is performed according to the third backlight brightness characteristic in which the backlight brightness of the medium brightness part of the image is set higher than the second backlight brightness characteristic. | 04-30-2015 |
20150130828 | IMAGE FILE GENERATION DEVICE AND DISPLAY DEVICE - An image file generation device comprises a first image data acquisition device that acquires N-bit first image data, a second image data generation device that generates M (M05-14-2015 | |
20150332636 | IMAGE DISPLAY DEVICE AND METHOD - An image display method includes the steps of: acquiring a third image formed by applying dynamic range extension processing to a first image and a second image photographed with low sensitivity or low exposure with respect to the first image, or a fourth image without dynamic range extension processing; displaying the acquired image in a transmissive type display panel; and making backlight luminance of a segment corresponding to a high luminance portion in the third image higher than backlight luminance of a segment corresponding to a low luminance portion when the acquired image is determined to be the third image. | 11-19-2015 |