Patent application number | Description | Published |
20100159783 | METHOD FOR PRODUCING ELECTRON-EMITTING DEVICE AND METHOD FOR PRODUCING IMAGE DISPLAY APPARATUS INCLUDING THE SAME - A method for producing an electron-emitting device includes forming a first conductive film on a side surface of an insulation layer including the side surface and a top surface connected to the side surface; forming a second conductive film from the top surface to the side surface and on the first conductive film; and etching the second electrically conductive film. | 06-24-2010 |
20100159790 | METHOD OF MANUFACTURING ELECTRON-EMITTING DEVICE AND METHOD OF MANUFACTURING IMAGE DISPLAY APPARATUS USING THE SAME - A method of manufacturing an electron-emitting device includes a first step of forming a conductive film on an insulating layer having an upper surface and a side surface connected to the upper surface via a corner portion so as to extend from the side surface to the upper surface and cover at least a part of the corner portion, and a second step of etching the conductive film. At the first step, the conductive film is formed so that film density of a portion on the side surface of the insulating layer becomes lower than film density of a portion on the corner portion of the insulating layer. | 06-24-2010 |
20110241533 | ELECTRON-EMITTING DEVICE AND IMAGE DISPLAY APPARATUS USING THE ELECTRON-EMITTING DEVICE - An electron-emitting device has at least a cathode electrode, an electron-emitting member which is electrically connected to the cathode electrode, and a resistive layer which is provided between the cathode electrode and the electron-emitting member. The resistive layer is composed of the same material as that of the electron-emitting member, and film density of the resistive layer is lower than film density of the electron-emitting member. | 10-06-2011 |
20120212821 | DIFFRACTIVE OPTICAL ELEMENT AND MANUFACTURING METHOD FOR THE SAME - An Al film is formed so that film forming particles are incident at normal incidence to grating wall surfaces of a diffraction grating having multiple grating portions and are incident at oblique incidence to optical effective surfaces. After that, oxidation treatment is performed from a direction to be incident at normal incidence to the optical effective surface so that the Al layer on the optical effective surface is changed to Al | 08-23-2012 |
20140160567 | DIFFRACTIVE OPTICAL ELEMENT AND MANUFACTURING METHOD FOR THE SAME - An Al film is formed so that film forming particles are incident at normal incidence to grating wall surfaces of a diffraction grating having multiple grating portions and are incident at oblique incidence to optical effective surfaces. After that, oxidation treatment is performed from a direction to be incident at normal incidence to the optical effective surface so that the Al layer on the optical effective surface is changed to Al | 06-12-2014 |
Patent application number | Description | Published |
20120294373 | MOVING IMAGE ENCODING METHOD, MOVING IMAGE DECODING METHOD, MOVING IMAGE ENCODING DEVICE, AND MOVING IMAGE DECODING DEVICE - The moving image encoding method includes encoding macro-blocks included in a landscape picture frame of a moving image having a larger horizontal width in a horizontal direction than a vertical width in a vertical direction by an encoding device. In macro-block encoding, information of the encoded macro-blocks surrounding a macro-block to be encoded is stored in a built-in information storing memory of the encoding device. Further, in the encoding, first a vertical array of macro-blocks at the left end of the horizontal width of the landscape picture frame are encoded sequentially, and the resultant encode information is stored in the information storing memory, and subsequently an adjacent vertical array of the plural macro-blocks located horizontally on the right of the left end of the horizontal width of the landscape picture frame are encoded sequentially. | 11-22-2012 |
20130287105 | IMAGE CODING DEVICE AND IMAGE DECODING DEVICE - In terms of the transmission of the coding method, it is ensured to decode information coded according to the intra-frame prediction coding with vector information. An error of a piece of divisional image information targeted for image prediction coding and a piece of predicted information is determined to perform prediction coding. A data stream in which a piece of information for identifying a prediction method and a piece of information subjected to prediction coding according to the method are arranged is produced according to the process sequence of the prediction coding for each process on the divisional image information. At this time, the data stream has a pair of vector information and the error information as information subjected to prediction coding for each process on the divisional image information on condition that the prediction method is intra-frame prediction coding with vectors. | 10-31-2013 |
20150092849 | VIDEO DECODING PROCESSING APPARATUS AND OPERATING METHOD THEREOF - Disclosed is a video decoding processing apparatus which can reduce overhead for the start of parallel decoding processing. The video decoding processing apparatus includes a parsing unit, and first and second video processing units. A coding bit stream including information of largest coding units each having at least a prescribed pixel size is supplied to an input terminal of the parsing unit. The parsing unit performs parsing of the syntax of the coding bit stream to thereby generate parallel-processable first and second intermediate streams from the largest coding unit. The first and second video processing units parallel-process the first and second intermediate streams generated from the parsing unit. | 04-02-2015 |