Patent application number | Description | Published |
20090232223 | Moving Image Conversion Method, Moving Image Convesion Apparatus, Moving Image Conversion System, and Server Apparatus, and Program - An apparatus and method are provided for enabling inhibition or reduction in the amount of processing to decode and to re-encode image data to be compatible with a transmission capacity upon delivery of converted images. Image data converter | 09-17-2009 |
20090248402 | VOICE MIXING METHOD AND MULTIPOINT CONFERENCE SERVER AND PROGRAM USING THE SAME METHOD - The voice mixing method includes a first step for selecting voice information from a plurality of voice information, a second step for adding up all the selected voice information, a third step for obtaining a voice signal totaling the voice signals other than one voice signal, of the selected voice signals, a fourth step for encoding the voice information obtained in the second step, a fifth step for encoding the voice signal obtained in the third step, and a sixth step for copying the encoded information obtained in the fourth step into the encoded information in the fifth step. | 10-01-2009 |
20100005362 | SOUND DATA DECODING APPARATUS - A sound data decoding apparatus based on a waveform coding method includes a loss detector, sound data decoder, sound data analyzer, parameter modifying section and sound synthesizing section. The loss detector detects whether a loss exists in a sound data. The sound data decoder decodes the sound data to generate a first decoded sound signal. The sound data analyzer extracts a first parameter from the first decoded sound signal. The parameter modifying section modifies the first parameter based on a result of the detection of loss. The sound synthesizing section generates a first synthesized sound signal by using the modified first parameter. Thus, a deterioration of sound quality is prevented in the error compensation of sound data. | 01-07-2010 |
20100150238 | MOVING PICTURE TRANSCODING APPARATUS, MOVING PICTURE TRANSCODING METHOD, AND MOVING PICTURE TRANSCODING PROGRAM - To provide a moving picture transcoding apparatus capable of suppressing deterioration of an image quality and capable of reducing a calculation amount required for transcoding an image, the moving picture transcoding apparatus which transcodes encoded moving picture data includes: a moving picture data producing unit for producing new moving picture data in which a specific frame of the encoded moving picture data is set as a head thereof; and a judging unit for judging whether or not a succeeding frame of the specific frame has been encoded by referring to a frame preceding the specific frame. Further, the moving picture data producing unit includes: a first frame transcoding process unit for transcoding the specific frame to a first frame which does not refer to another frame; and a succeeding frame transcoding process unit for again encoding a succeeding frame, which has been judged by the judging unit to refer to the frame preceding the specific frame, by referring to any one frame in a range from the succeeding frame judged by the judging unit to the specific frame. | 06-17-2010 |
20100228545 | VOICE MIXING DEVICE, NOISE SUPPRESSION METHOD AND PROGRAM THEREFOR - A voice mixing device for mixing a plurality of voice signals, comprises: a speaker selection unit selecting at least one voice signal among said plurality of voice signals; a full signal adder unit adding all of at least one voice signal selected by said speaker selection unit; respective subtractor unit subtracting only one of said selected voice signals from an addition result of said full signal adder unit; a common noise suppression unit suppressing noise of a common voice signal, being an addition result of said full signal adder unit; individual noise suppression unit suppressing noise of respective individual voice signals, being subtraction results of said subtractor unit; and memory switching unit copying information of noise suppression obtained in said common noise suppression unit based on a selection result of said speaker selection unit, to information of noise suppression in said individual noise suppression unit. | 09-09-2010 |
20100290645 | SOUND MIXING APPARATUS AND METHOD AND MULTIPOINT CONFERENCE SERVER - A sound mixing apparatus includes mixing processing units | 11-18-2010 |
20100296675 | SOUND MIXING APPARATUS AND METHOD AND MULTIPOINT CONFERENCE SERVER - A sound mixing apparatus includes mixing processing units | 11-25-2010 |
Patent application number | Description | Published |
20090041929 | Film Forming Apparatus and Film Forming Method - In an apparatus for film formation, constituted so that an organic EL molecular gas is ejected into an ejection vessel, a plurality of organic EL material vessels are provided together with a piping system for connecting the plurality of organic EL material vessels to the ejection vessel. The plurality of organic EL material vessels are selectively put into a supply state of organic EL molecules. The piping system is constructed so that the carrier gas is fed into each organic EL material vessel in such a manner that the pressure during film formation and the pressure during non-film formation are equal to each other. During non-film formation, the carrier gas is allowed to flow from one of the organic EL material vessels to other material vessel. | 02-12-2009 |
20090087545 | Film Forming Apparatus, Evaporating Jig, and Measurement Method - Provided are an evaporating jig by which a thin film, especially an organic EL film, can be uniformly formed over a long time, and a film forming apparatus including the evaporating jig. The evaporating jig is provided with an evaporating pan, having a bottom plane and side planes arranged to stand from the bottom plane, for defining a material containing space opened inside the side planes; and partitioning plates for partitioning the material containing space into a plurality of partial spaces. The partitioning plates are provided with locking pieces having a height which permits the partial spaces to be continuous on a bottom plane side of the evaporating pan. | 04-02-2009 |
20090110823 | Film-forming material and method for predicting film-forming material - Disclosed is a method for prediction of a film material such as a raw material for organic EL. In the method, a film material having an evaporation rate (V(%)) represented by the formula below can be predicted based on the values of the constant (Ko) and the activation energy (Ea). V=(Ko/P)×e | 04-30-2009 |
20110268870 | FILM FORMING APPARATUS AND FILM FORMING METHOD - In an apparatus for film formation, constituted so that an organic EL molecular gas is ejected into an ejection vessel, a plurality of organic EL material vessels are provided together with a piping system for connecting the plurality of organic EL material vessels to the ejection vessel. The plurality of organic EL material vessels are selectively put into a supply state of organic EL molecules. The piping system is constructed so that the carrier gas is fed into each organic EL material vessel in such a manner that the pressure during film formation and the pressure during non-film formation are equal to each other. During non-film formation, the carrier gas is allowed to flow from one of the organic EL material vessels to other material vessel. | 11-03-2011 |
20130189423 | Film-forming material and method for predicting film-forming material - Disclosed is a method for prediction of a film material such as a raw material for organic EL. In the method, a film material having an evaporation rate (V (%)) represented by the formula below can be predicted based on the values of the constant (Ko) and the activation energy (Ea). V=(Ko/P)×e | 07-25-2013 |
Patent application number | Description | Published |
20140165939 | ENGINE VALVE TIMING CONTROL APPARATUS - To achieve an intermediate lock state in a short period when an engine is stopped and improve the accuracy of confirmation of the intermediate lock state, an engine valve timing control apparatus includes a variable valve timing mechanism configured to vary engine valve timing, and an intermediate lock mechanism configured to restrict relative rotation positions of a first and a second rotor of the valve timing mechanism at an intermediate lock position for starting the engine. Upon detection of an engine stop request, the valve timing mechanism and the intermediate lock mechanism are driven and controlled for establishing an intermediate lock state. When a predetermined period from detection of the engine stop request has expired without detecting the intermediate lock state within the predetermined period, an engine stopping process is executed. Even after the engine stopping process has been executed, monitoring of the intermediate lock state is continued. | 06-19-2014 |
20140366825 | VARIABLE VALVE TIMING CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - When an intermediate lock by an intermediate lock mechanism is released, one of two lock keys, which restricts a shift in a direction opposite to a direction that valve timing of an intake valve has been controlled by controlling the valve timing of the intake valve to a phase-advance side with respect to an intermediate lock position, is pulled out of an engaging recessed portion. Thereafter, the other of the two lock keys is pulled out of an engaging recessed portion by controlling the valve timing of the intake valve to a phase-retard side with respect to the intermediate lock position. Therefore, the intermediate lock by the intermediate lock mechanism can be released, while avoiding the lock keys from being pushed against the respective engaging recessed portions. | 12-18-2014 |
20150013626 | VARIABLE VALVE TIMING CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - Intermediate position feedback control is executed when valve timing of an intake valve is at an intermediate lock position, an intermediate lock is needed, and an engine revolution speed is greater than a first engine revolution speed R1. Forced lock control is executed when the valve timing of the intake valve is at the intermediate lock position, the intermediate lock is needed, the engine revolution speed is less than the first engine revolution speed R1, and the intermediate position feedback control is not being executed. As a result, even when the engine revolution speed increases in the presence of a demand that the valve timing needs to be in the intermediate lock position, it is possible to maintain the valve timing at the intermediate lock position. | 01-15-2015 |