Patent application number | Description | Published |
20090158901 | Assembly driver - The invention include a guide groove of a long hole shape make the part excluding the root part of any one driver bit which was formed in top plate of the cap attached several pieces of the cap engaging rotatably and removably project to the method of outside and lead the driver bit to the support crevice. The base material of the outline shape of the supporter of the driver bit mostly and it was really formed so that it might project to the inner side in the inside wall of the circumference wall by the side of the central part of the guide groove of the top plate of the cap. The locking peace formed in the inner wall of the open end of the cap so that it can stop the rotation part which can prevent that plurality driver bits enter to the guide groove of this cap. And the invention has a few parts, and can set it the state where the driver bit chosen by easy operation can be used, and the storage state easily. It is purpose that offering the assembly driver can prevent the driver bit projecting, easily and carelessly. | 06-25-2009 |
20100321516 | DIGITAL CAMERA APPARATUS AND RECORDING MEDIUM FOR RECORDING COMPUTER PROGRAM FOR SUCH APPARATUS - In a digital camera apparatus, drive mode of CCD is set to AF mode in AF controlling operation (at step S | 12-23-2010 |
20100321549 | AMPLIFIER CONTROL DEVICE AND RECORDING NON-TRANSITORY MEDIUM - An amplifier control device controls an amplifier which amplifies a first signal supplied from an image-pickup element, and supplies a second signal acquired by amplification of the first signal to a signal processing unit which is a following stage. The amplifier control device comprises a control unit which changes a current supplied to the amplifier depending on whether or not the first signal supplied to the amplifier is used for image data. | 12-23-2010 |
20100321550 | VIDEO SIGNAL PROCESSING CIRCUIT, IMAGING DEVICE AND VIDEO SIGNAL PROCESSING METHOD - A digital still camera includes an amplification circuit, a timing generator, sample hold circuits, a differential amplifier, an analog/digital conversion circuit and a control unit. The generator generates a first-pulse signal and a second-pulse signal at different timings. The circuits sample analog video signals outputted from the amplification circuit at timings when the first-pulse signal and second-pulse signal, respectively, are provided and hold levels of the analog video signals. The amplifier acquires a difference between the levels of the analog video signals. The circuit obtains a digital video signal corresponding to the analog video signal on the basis of the difference. The unit changes the timings to provide the first- and second-pulse signals to the first- and second-sample hold circuits, respectively, and a bias current depending on the driving period. | 12-23-2010 |
20110063475 | IMAGE PICK-UP APPARATUS AND RECORDING MEDIUM STORING COMPUTER PROGRAM OF THE APPARATUS - The digital still camera | 03-17-2011 |
20130084011 | PROOF READING OF TEXT DATA GENERATED THROUGH OPTICAL CHARACTER RECOGNITION - A novel system includes: a first proof reading tool for performing carpet proof reading on text data; a second proof reading tool for performing side-by-side proof reading on the text data; a storage unit configured to store a log of proof reading operations having been performed by using the first and second proof reading tools; and an analysis unit configured to determine, for each attribute serving as units in which carpet proof reading is performed with the first proof reading tool, whether or not to use the first proof reading tool in proof reading of the attribute, by comparing a first estimated value of a time taken when proof reading is performed by using the first proof reading tool with a second estimated value of a time taken when proof reading is performed by using the second proof reading tool without using the first proof reading tool, the first and second estimated values being calculated on the basis of the log. | 04-04-2013 |
20130085746 | PROOF READING OF TEXT DATA GENERATED THROUGH OPTICAL CHARACTER RECOGNITION - A novel system includes: a first proof reading tool for performing carpet proof reading on text data; a second proof reading tool for performing side-by-side proof reading on the text data; a storage unit configured to store a log of proof reading operations having been performed by using the first and second proof reading tools; and an analysis unit configured to determine, for each attribute serving as units in which carpet proof reading is performed with the first proof reading tool, whether or not to use the first proof reading tool in proof reading of the attribute, by comparing a first estimated value of a time taken when proof reading is performed by using the first proof reading tool with a second estimated value of a time taken when proof reading is performed by using the second proof reading tool without using the first proof reading tool, the first and second estimated values being calculated on the basis of the log. | 04-04-2013 |
20130242128 | IMAGING APPARATUS EQUIPPED WITH IMAGE GAIN ADJUSTMENT FUNCTION - An imaging apparatus is equipped with an analog block, an imaging condition determination section, and an analog gain control section. Current consumption of the analog block changes in accordance with an analog gain, which is an amplification ratio of outputs of an imaging device. The imaging condition determination section determines imaging conditions, including the analog gain, in accordance with the brightness of an imaging object. Depending on a state of the imaging apparatus, the analog gain control section alters the analog gain determined by the imaging condition determination section so as to reduce the current consumption of the analog block. Thus, in this imaging apparatus, the current consumption of the analog block may be reduced by the performance of control that alters the analog gain in accordance with the state of the imaging apparatus. Thus, the state of the imaging apparatus may be regulated. | 09-19-2013 |
20140002099 | PARTIAL DISCHARGE SENSOR | 01-02-2014 |
20150053601 | MEMBRANE MODULE AND PROCESS FOR PRODUCING SAME - The membrane module according to the present invention comprises a tubular case, and a membrane fixed with a resin and accommodated in the state where filtered water is capable of being taken out from at least one end of the tubular case, in the tubular case, wherein the resin has an elution rate of chloride ions per unit surface area and per unit time of less than 10 μg/(m | 02-26-2015 |
20150346267 | PARTIAL DISCHARGE SENSOR EVALUATION METHOD AND PARTIAL DISCHARGE SENSOR EVALUATION APPARATUS - A partial discharge sensor evaluation method includes a first frequency characteristic measuring process in which, in a state where a reference antenna | 12-03-2015 |
Patent application number | Description | Published |
20090232218 | MOTION VECTOR ENCODING DEVICE AND DECODING DEVICE - A prediction error generating unit generates a predictive vector from the motion vectors of a plurality of adjacent blocks, and obtains a difference from a target vector. A plurality of variable-length coding units respectively encode the output of the prediction error generating unit with different encoding methods. A determining unit estimates the accuracy of the predictive vector generated by the prediction error generating unit based on the degrees of non-uniformity of the motion vectors of the plurality of adjacent blocks. A selecting unit selects one of the encoding results obtained by the plurality of variable-length coding units. | 09-17-2009 |
20110064143 | MOTION VECTOR ENCODING DEVICE AND DECODING DEVICE - A prediction error generating unit generates a predictive vector from the motion vectors of a plurality of adjacent blocks, and obtains a difference from a target vector. A plurality of variable-length coding units respectively encode the output of the prediction error generating unit with different encoding methods. A determining unit estimates the accuracy of the predictive vector generated by the prediction error generating unit based on the degrees of non-uniformity of the motion vectors of the plurality of adjacent blocks. A selecting unit selects one of the encoding results obtained by the plurality of variable-length coding units. | 03-17-2011 |
20130208801 | MOTION VECTOR ENCODING DEVICE AND DECODING DEVICE - A prediction error generating unit generates a predictive vector from the motion vectors of a plurality of adjacent blocks, and obtains a difference from a target vector. A plurality of variable-length coding units respectively encode the output of the prediction error generating unit with different encoding methods. A determining unit estimates the accuracy of the predictive vector generated by the prediction error generating unit based on the degrees of non-uniformity of the motion vectors of the plurality of adjacent blocks. A selecting unit selects one of the encoding results obtained by the plurality of variable-length coding units. | 08-15-2013 |
20130208802 | MOTION VECTOR ENCODING DEVICE AND DECODING DEVICE - A prediction error generating unit generates a predictive vector from the motion vectors of a plurality of adjacent blocks, and obtains a difference from a target vector. A plurality of variable-length coding units respectively encode the output of the prediction error generating unit with different encoding methods. A determining unit estimates the accuracy of the predictive vector generated by the prediction error generating unit based on the degrees of non-uniformity of the motion vectors of the plurality of adjacent blocks. A selecting unit selects one of the encoding results obtained by the plurality of variable-length coding units. | 08-15-2013 |
20130208803 | MOTION VECTOR ENCODING DEVICE AND DECODING DEVICE - A prediction error generating unit generates a predictive vector from the motion vectors of a plurality of adjacent blocks, and obtains a difference from a target vector. A plurality of variable-length coding units respectively encode the output of the prediction error generating unit with different encoding methods. A determining unit estimates the accuracy of the predictive vector generated by the prediction error generating unit based on the degrees of non-uniformity of the motion vectors of the plurality of adjacent blocks. A selecting unit selects one of the encoding results obtained by the plurality of variable-length coding units. | 08-15-2013 |