Patent application number | Description | Published |
20130135062 | RADIO-WAVE HALF MIRROR FOR MILLIMETER WAVEBAND AND METHOD OF SMOOTHING TRANSMITTANCE - A radio-wave half mirror for millimeter waveband is fixed inside a transmission line propagating electromagnetic waves of millimeter waveband in a single mode so as to transmit a part of incident electromagnetic waves and reflect a part thereof. The radio-wave half mirror includes: a half mirror body where a slit for transmitting electromagnetic waves is provided on a metal plate; and a dielectric plate that is provided on one surface side of the half mirror body so as to form a dielectric resonator which resonates at a frequency determined by the thickness and the permittivity, and has a transmittance characteristic having a degree of inclination substantially the same as that of the half mirror body in a slope which is inverse to a slope of a transmittance characteristic of the half mirror body in a desired frequency range of the millimeter waveband. | 05-30-2013 |
20130135063 | MILLIMETER WAVEBAND FILTER AND METHOD OF VARYING RESONANT FREQUENCY THEREOF - The millimeter waveband filter includes: a transmission line that is formed by a waveguide which propagates electromagnetic waves with a predetermined frequency range of a millimeter waveband from one end to the other end in a TE10 mode; and a pair of radio-wave half mirrors that are disposed opposite each other with a space interposed therebetween so as to block the inside of the transmission line and have planar shapes and a characteristic of transmitting a part of the electromagnetic waves with the predetermined frequency range and reflecting a part thereof. In the electromagnetic waves incident from the one end side of the transmission line, a frequency component centered on a resonant frequency of a resonator, which is formed between the pair of radio-wave half mirrors, is selectively output from the other end of the transmission line. | 05-30-2013 |
20130314179 | MILLIMETER WAVEBAND FILTER AND METHOD OF MANUFACTURING THE SAME - A transmission line which allows electromagnetic waves in a predetermined frequency range of a millimeter waveband to propagate in a TE10 models formed by a first waveguide and a second waveguide. A resonator is formed by electric wave half mirrors fixed to the first waveguide and the second waveguide. The second waveguide has a structure in which a first transmission line forming body has a plate shape and has a square hole forming the first transmission line formed to pass therethrough from one surface toward an opposite surface, a second transmission line forming body has a plate shape and has a square hole forming the second transmission line formed to pass therethrough from one surface toward an opposite surface, and the first transmission line forming body and the second transmission line forming body are connectable and separable. | 11-28-2013 |
20140015626 | MILLIMETER WAVEBAND FILTER AND METHOD OF INCREASING REJECTION BAND ATTENUATION - A millimeter waveband filter is provided with a resonator formed by a pair of electric wave half mirrors in a transmission line of a waveguide allowing electromagnetic waves in a predetermined frequency range of a millimeter waveband to propagate in a TE10 mode, and allows frequency components centering on the resonance frequency of the resonator to pass therethrough. A high-pass filter which has a transmission line reduced in size so as to have a cutoff frequency matching an upper limit of a lower rejection band of a filter passband is formed in a transmission line between the end of the waveguide and the electric wave half mirror, thereby increasing the attenuation of the lower rejection band. | 01-16-2014 |
20140292305 | MILLIMETER-WAVE BAND SPECTRUM ANALYSIS DEVICE AND ANALYSIS METHOD - An input signal Sx in a first millimeter-wave frequency band higher than 100 GHz is input to a millimeter-wave band filter | 10-02-2014 |
Patent application number | Description | Published |
20110064384 | REPRODUCTION CONTROL APPARATUS, REPRODUCTION CONTROL METHOD, AND PROGRAM - A computer-implemented method for slow-motion reproduction of video data including a plurality of frames stored on a storage device. The method includes receiving a frame from the plurality of frames stored on the storage device. The method further includes extracting at least one feature from the received frame. Additionally, the method includes comparing the at least one extracted feature with a plurality of pre-determined features. The method also includes reproducing the received frame at a slow-motion reproduction rate upon determination that the at least one extracted feature corresponds to at least one pre-determined feature from the plurality of pre-determined features. Further, the slow-motion reproduction rate is lower than a normal reproduction rate used for viewing the plurality of frames during normal playback. | 03-17-2011 |
20120206576 | STEREOSCOPIC IMAGING METHOD AND SYSTEM THAT DIVIDES A PIXEL MATRIX INTO SUBGROUPS - A stereoscopic imaging method where a pixel matrix is divided into groups such that parallax information is received by one pixel group and original information is received by another pixel group. The parallax information may, specifically, be based on polarized information received by subgroups of the one pixel, group and by processing all of the information received multiple images are rendered by the method. | 08-16-2012 |
20120212587 | IMAGING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An imaging apparatus includes first and second polarizers that polarize light from a subject in perpendicular polarization directions. Third and fourth polarizers are alternately disposed in a photodetection plane of an imaging device along a second direction perpendicular to a first direction, along which the first polarizer and the second polarizer are connected to each other, in such a way that the third and fourth polarizers extend in the second direction, and have polarization directions that are parallel to that of the first and second polarizers. An image processor processes image data produced by the imaging device such that image data from light passing through the first and third polarizers are handled as first image data for displaying stereoscopic images and image data from light passing through the second and fourth polarizers are handled as second image data for displaying the stereoscopic images. | 08-23-2012 |
20120319222 | SOLID-STATE IMAGING ELEMENT, SOLID-STATE IMAGING DEVICE, IMAGING APPARATUS, AND METHOD OF MANUFACTURING POLARIZING ELEMENT - The present invention relates to a solid-state imaging element which is able to provide the solid-state imaging element having a polarizing element having a simple configuration and structure based on a wire grid polarizer technique, a solid-state imaging device, an imaging apparatus, and a method of manufacturing a polarizing element. The solid-state imaging device includes a plurality of solid-state imaging elements | 12-20-2012 |
20130063569 | IMAGE-CAPTURING APPARATUS AND IMAGE-CAPTURING METHOD - This invention relates to capturing an image of a subject as a three-dimensional image using a single image-capturing apparatus. The image-capturing apparatus includes a first polarization means, a lens system, and an image-capturing device array having a second polarization means. The first polarization means includes first and second regions arranged along a first direction, and the second polarization means includes multiple third and fourth regions arranged alternately along a second direction. First region transmission light having passed the first region passes the third region and reaches the image-capturing device, and second region transmission light having passed the second region passes the fourth region and reaches the image-capturing device. Thus, an image is captured to obtain a three-dimensional image in which a distance between a barycenter BC | 03-14-2013 |
20130182169 | IMAGING APPARATUS - According to an illustrative embodiment an imaging system is provided. The system includes a lens tube; a first polarizing filter; and a second polarizing filter; wherein the first polarizing filter and the second polarizing filter are adjacent each other, and wherein a polarizing imparted by the first polarizing filter is different from a polarizing imparted by the second polarizing filter. | 07-18-2013 |
Patent application number | Description | Published |
20090146067 | LIGHT SENSOR AND DISPLAY - A light sensor includes a control electrode formed on a substrate and having two edges, and a semiconductor film formed opposite the control electrode with an insulating film interposed therebetween, and including a photoactive layer and electrode regions located in a pair on opposite sides of the photoactive layer. The photoactive layer is arranged in an area that overlaps the control electrode. At least one of the paired electrode regions overlaps proximal one of the edges of the control electrode, and on and along the proximal edge, the at least one electrode region has a length shorter than that of the photoactive layer in a direction along the proximal edge of the control electrode. | 06-11-2009 |
20090159893 | LIGHT-RECEIVING ELEMENT AND DISPLAY DEVICE - A light-receiving element includes: a first-conductivity-type semiconductor region configured to be formed over an element formation surface; a second-conductivity-type semiconductor region configured to be formed over the element formation surface; an intermediate semiconductor region configured to be formed over the element formation surface between the first-conductivity-type semiconductor region and the second-conductivity-type semiconductor region, and have an impurity concentration lower than impurity concentrations of the first-conductivity-type semiconductor region and the second-conductivity-type semiconductor region. The light-receiving element further includes: a first electrode configured to be electrically connected to the first-conductivity-type semiconductor region; a second electrode configured to be electrically connected to the second-conductivity-type semiconductor region; and a control electrode configured to be formed in an opposed area that exists on the element formation surface. | 06-25-2009 |
20090159901 | DISPLAY - A display includes: a substrate having a pixel region and a sensor region in which photo-sensor parts are formed; an illuminating section operative to illuminate the substrate from one surface side of the substrate; a thin film photodiode disposed in the sensor region, having at least a P-type semiconductor region and an N-type semiconductor region, and operative to receive light incident from the other surface side of the substrate; and a metallic film formed on the one surface side of the substrate so as to face the thin film photodiode through an insulator film, operative to restrain light generated from the illuminating section from being directly incident on the thin film photodiode from the one surface side, and fixed to a predetermined potential, wherein in the thin film photodiode, the width of the P-type semiconductor region and the width of the N-type semiconductor region are different from each other. | 06-25-2009 |
20090179880 | Display device and luminance control method therefor - Disclosed herein is a display device having an insulating substrate, an effective pixel area formed on the insulating substrate and having at least pixels arranged in the form of a matrix, and a peripheral circuit formed on the insulating substrate so as to surround the effective pixel area, the pixels being driven by the peripheral circuit to display a desired image in the effective pixel area, the display device including an extraneous light sensor provided in the effective pixel area for detecting extraneous light to output an extraneous light quantity detection result for use in controlling the luminance of the image. | 07-16-2009 |
20090237381 | Display device and method for luminance adjustment of display device - Disclosed herein is a display device that displays a desired image on an effective pixel area in which sub-pixels are arranged in a matrix, the display device including: an ambient light sensor configured to be provided in a predetermined sub-pixel in the effective pixel area, the ambient light sensor receiving ambient light and outputting a result of detection of an ambient light amount for adjustment of luminance of the image; and a hue correction mechanism configured to correct local hue change due to provision of the ambient light sensor in the predetermined sub-pixel. | 09-24-2009 |
20100020006 | DISPLAY DEVICE AND ELECTRONIC EQUIPMENT - Disclosed herein is a display device, including: a first photosensor section; second photosensor section; and signal processing section, wherein the light-shielding film is formed in the same layer as that on the substrate having a light-shielding function so as to be associated with the light-receiving element of the second photosensor section. | 01-28-2010 |
20100165004 | DISPLAY APPARATUS AND DISPLAY METHOD - Disclosed herein is a display apparatus including: a display panel having a plurality of picture elements configured to execute display by driving a liquid crystal layer; a backlight configured to illuminate a display surface of the display panel from a backside; a photodetector arranged on the plurality of picture elements and configured to receive a light entered from the side of the display surface of the display panel; and a detection block configured to execute image recognition in the proximity of the display surface from a difference between a photodetection amount in the photodetector in a state where an illuminating light from the backlight is radiated from the display surface and a photodetection amount in the photodetector in a state where the illuminating light is blocked before the display surface. | 07-01-2010 |