Patent application number | Description | Published |
20090199165 | METHODS, SYSTEMS, AND COMPUTER PROGRAM PRODUCTS FOR INTERNATIONALIZING USER INTERFACE CONTROL LAYOUTS - Methods, systems, and computer program products internationalize a user interface (UI) control layout for an application by extracting a translatable text resource comprising a pattern of a message for performing the control layout from a source code of the application. Language information is received that is indicative of one or more languages for the UI control layout. Based upon the received language information, the pattern is constructed and dynamically laid out at run time for graphical presentation to one or more users. The graphical presentation is used to implement the UI control layout in accordance with the one or more languages. | 08-06-2009 |
20120146900 | GRAPHIC USER INTERFACE POINTER CONTROL - Flexibly controlling the movement, direction or speed of a pointer in a multi-monitor or extended monitor environment is provided. This may include defining a control area in which the pointer is made to operate in a desired manner at a desired position, recording definition data that includes an identification name uniquely identifying the control area, reading the definition data, and controlling the pointer in response to the pointer entering the control area. The pointer controlled in accordance with the control setting corresponding to the control item in the definition data defined for the control area. | 06-14-2012 |
20130111447 | SUPPORTING DEBUGGING OF PROGRAM AND GRAPHICAL USER INTERFACE FOR SUPPORTING DEBUGGING | 05-02-2013 |
20130167120 | RETRIEVING REVISIONS IN SOURCE CODE FROM A PLURALITY OF REVISION HISTORY DATA SETS - Embodiments includes techniques for retrieving revisions in source code from a plurality of revision history data sets including link information to the source code and version information. The revision history data includes a function unit specified by a user is extracted from the plurality of revision history data sets, and a list of the extracted revision history data is displayed on the display device. Also, the display of this list includes displaying on the display device or creating in a storage area source code or information associated with the source code corresponding to at least two different revision history data sets in this first list. | 06-27-2013 |
20140181757 | METHODS AND DEVICES FOR OBJECT SELECTION IN A COMPUTER - Embodiments relate to selecting an object displayed on a display device of a computer. Aspects include moving a movable pointer in the display device in response to a user input, determining whether the pointer is in a predetermined temporary selection state, and based on a determination that the pointer is in the temporary selection state, acquiring an object pointed to by the pointer and storing the object in the storage device as a temporarily selected object. Aspects further include acquiring an second object pointed by the pointer in response to the user performing a predetermined object selection operation, comparing the second object with the temporarily selected object, and based on a determination that the second object is identical to the temporarily selected object, determining that the second object is selected. | 06-26-2014 |
20140351251 | TEXT-BASED COMMAND GENERATION - Embodiments relate to generating application-processable commands from character strings. An aspect includes preparing a database in which are recorded keywords for presenting commands as conversion candidate objects, conversion candidate objects, and commands generated when a conversion candidate object has been selected. Another aspect includes receiving a plurality of character strings inputted by a user for an application. Another aspect includes converting a character string of the plurality of character strings to generate a completion candidate character string. Another aspect includes referencing the database when the character string includes a keyword, and presenting, to the user, completion candidate character strings and conversion candidate objects as a conversion candidate list. Another aspect includes generating a command corresponding to a selected conversion candidate object in response to selection of one of the conversion candidate objects from the conversion candidate list by the user. | 11-27-2014 |
Patent application number | Description | Published |
20100039526 | Signal processing apparatus and method, and program - Signals are provided which allow colors in a wider color range than predetermined standards, which can be handled by apparatus according to such predetermined standards. A primary color converter converts first color signals having primary color points in a wider color range than the primary color points according to BT.709 into second color signals based on the primary colors according to BT.709. A photoelectric transducer converts the second color signals into third color signals according to photoelectric transducer characteristics defined in a numerical range wider than a range from 0 to 1.0 of color signals corresponding to a luminance signal and color difference signals according to BT.709. A color signal converter converts the third color signals into a luminance signal and color difference signals. A corrector incorporated in the color signal converter corrects the color difference signals into color difference signals. | 02-18-2010 |
20100046835 | Signal processing apparatus and method, and program - Signals are provided which allow colors in a wider color range than predetermined standards, which can be handled by apparatus according to such predetermined standards. A primary color converter converts first color signals having primary color points in a wider color range than the primary color points according to BT.709 into second color signals based on the primary colors according to BT.709. A photoelectric transducer converts the second color signals into third color signals according to photoelectric transducer characteristics defined in a numerical range wider than a range from 0 to 1.0 of color signals corresponding to a luminance signal and color difference signals according to BT.709. A color signal converter converts the third color signals into a luminance signal and color difference signals. A corrector incorporated in the color signal converter corrects the color difference signals into color difference signals. | 02-25-2010 |
20120243782 | SIGNAL PROCESSING APPARATUS AND METHOD, AND PROGRAM - Signals are provided which allow colors in a wider color range than predetermined standards, which can be handled by apparatus according to such predetermined standards. A primary color converter converts first color signals having primary color points in a wider color range than the primary color points according to BT.709 into second color signals based on the primary colors according to BT.709. A photoelectric transducer converts the second color signals into third color signals according to photoelectric transducer characteristics defined in a numerical range wider than a range from 0 to 1.0 of color signals corresponding to a luminance signal and color difference signals according to BT.709. A color signal converter converts the third color signals into a luminance signal and color difference signals. A corrector incorporated in the color signal converter corrects the color difference signals into color difference signals. | 09-27-2012 |
20140009637 | SIGNAL PROCESSING APPARATUS AND METHOD, AND PROGRAM - Signals are provided which allow colors in a wider color range than predetermined standards, which can be handled by apparatus according to such predetermined standards. A primary color converter converts first color signals having primary color points in a wider color range than the primary color points according to BT.709 into second color signals based on the primary colors according to BT.709. A photoelectric transducer converts the second color signals into third color signals according to photoelectric transducer characteristics defined in a numerical range wider than a range from 0 to 1.0 of color signals corresponding to a luminance signal and color difference signals according to BT.709. A color signal converter converts the third color signals into a luminance signal and color difference signals. A corrector incorporated in the color signal converter corrects the color difference signals into color difference signals. | 01-09-2014 |
20140247391 | SIGNAL PROCESSING APPARATUS AND METHOD, AND PROGRAM - Signals are provided which allow colors in a wider color range than predetermined standards, which can be handled by apparatus according to such predetermined standards. A primary color converter converts first color signals having primary color points in a wider color range than the primary color points according to BT.709 into second color signals based on the primary colors according to BT.709. A photoelectric transducer converts the second color signals into third color signals according to photoelectric transducer characteristics defined in a numerical range wider than a range from 0 to 1.0 of color signals corresponding to a luminance signal and color difference signals according to BT.709. A color signal converter converts the third color signals into a luminance signal and color difference signals. A corrector incorporated in the color signal converter corrects the color difference signals into color difference signals. | 09-04-2014 |
Patent application number | Description | Published |
20130324118 | METHOD OF BARRING NETWORK ACCESS IN MOBILE DEVICE, MOBILE DEVICE, AND PROCESSOR USED IN MOBILE DEVICE - When a network is in a state of requiring some sort of access barring, a reference value notified to a mobile device is determined to indicate a value in which an access of a certain mobile device is denied while an access of another mobile device is allowed. When an own device has a special type access class, it is determined that an access is allowed The appropriateness of an access is determined according to designation from the network when the own device has the special type access class, and when the own device does not have the special type access class, it is determined that an access is denied. | 12-05-2013 |
20130331099 | METHOD OF BARRING ACCESS TO NETWORK, MOBILE DEVICE FOR THE METHOD, AND PROCESSOR USED IN MOBILE DEVICE - When a network is in a state of requiring any sort of access barring, determining whether a special type access class is included as an access class to which an own device belongs, determining appropriateness of an access by referring to, from barring information, a first barring information for designating whether a mobile device belonging to each access class is subject to access barring when having determined that the special type access class is included, and determining the appropriateness of an access by referring to, from the barring information, second barring information indicating a value serving as a reference for determining the appropriateness of an access according to a relationship between a numerical value generated by each mobile device and the reference indicated by the second barring information when having determined that the special type access class is included. | 12-12-2013 |
Patent application number | Description | Published |
20100025627 | REACTION METHOD, METAL OXIDE NANOPARTICLE OR CARBON CARRYING THE NANOPARTICLE, OBTAINED BY THE METHOD, ELECTRODE CONTAINING THE CARBON, AND ELECTROCHEMICAL DEVICE WITH THE ELECTRODE - The present invention aims at: providing an accelerated reaction in a liquid-phase reaction; forming, by way of the reaction, a metal oxide nanoparticle and carbon that carries the metal oxide nanoparticle in a highly dispersed state; and providing an electrode containing the carbon and an electrochemical device using the electrode. In order to solve the above-mentioned problem, shear stress and centrifugal force are applied to the reactant in the rotating reactor so that an accelerated chemical reaction is attained in the course of the reaction. Further, the carbon carrying a metal oxide nanoparticle in a highly dispersed state comprises: a metal oxide nanoparticle produced by the accelerated chemical reaction, wherein shear stress and centrifugal force are applied to a reactant in a rotating reactor in the course of the reaction; and carbon dispersed in the rotating reactor by applying shear stress and centrifugal force. An electrochemical device produced by using the carbon carrying the metal oxide nanoparticle as an electrode has high output and high capacity characteristics. | 02-04-2010 |
20130063867 | LITHIUM TITANATE NANOPARTICLES, COMPOSITE OF LITHIUM TITANATE NANOPARTICLES AND CARBON, METHOD OF PRODUCTION THEREOF, ELECTRODE MATERIAL CONSISTING OF SAID COMPOSITE, ELECTRODE, ELECTROCHEMICAL ELEMENT, AND ELECTROCHEMICAL CAPACITOR EMPLOYING SAID ELECTRODE MATERIAL - A mixed solvent is prepared by dissolving acetic acid and lithium acetate in a mixture of isopropanol and water. This mixed solvent together with titanium alkoxide and carbon nanofiber (CNF) were introduced into a rotary reactor, the inner tube was rotated at a centrifugal force of 66,000 N (kgms | 03-14-2013 |
20130095384 | COMPOSITE OF METAL OXIDE NANOPARTICLES AND CARBON, METHOD OF PRODUCTION THEREOF, ELECTRODE AND ELECTROCHEMICAL ELEMENT EMPLOYING SAID COMPOSITE - A composite powder in which highly dispersed metal oxide nanoparticle precursors are supported on carbon is rapidly heated under nitrogen atmosphere, crystallization of metal oxide is allowed to progress, and highly dispersed metal oxide nanoparticles are supported by carbon. The metal oxide nanoparticle precursors and carbon nanoparticles supporting said precursors are prepared by a mechanochemical reaction that applies sheer stress and centrifugal force to a reactant in a rotating reactor. The rapid heating treatment in said nitrogen atmosphere is desirably heating to 400° C.-1000° C. By further crushing the heated composite, its aggregation is eliminated and the dispersity of metal oxide nanoparticles is made more uniform. Examples of a metal oxide that can be used are manganese oxide, lithium iron phosphate, and lithium titanate. Carbons that can be used are carbon nanofiber and Ketjen Black. | 04-18-2013 |
20130115516 | LITHIUM TITANATE CRYSTAL STRUCTURE, COMPOSITE OF LITHIUM TITANATE CRYSTAL STRUCTURE AND CARBON, METHOD OF PRODUCTION THEREOF, AND ELECTRODE AND ELECTROCHEMICAL ELEMENT EMPLOYING SAID COMPOSITE - Highly dispersed lithium titanate crystal structures having a thickness of few atomic layers level and the two-dimensional surface in a plate form are supported on carbon nanofiber (CNF). The lithium titanate crystal structure precursors and CNF that supports these are prepared by a mechanochemical reaction that applies sheer stress and centrifugal force to a reactant in a rotating reactor. The mass ratio between the lithium titanate crystal structure and carbon nanofiber is preferably between 75:25 and 85:15. The carbon nanofiber preferably has an external diameter of 10-30 nm and an external specific surface area of 150-350 cm | 05-09-2013 |
20140017570 | NEGATIVE ELECTRODE ACTIVE MATERIAL, METHOD FOR PRODUCING THE NEGATIVE ELECTRODE ACTIVE MATERIAL, AND LITHIUM ION SECONDARY BATTERY USING THE NEGATIVE ELECTRODE ACTIVE MATERIAL - Disclosed is a negative electrode active material which is capable of occluding and releasing lithium, and has high reversible capacity and reduced initial irreversible capacity. This negative electrode active material includes a granulated substance, in which a composite containing nanosize conductive carbon powder and tin oxide powder contacting the surface of the conductive carbon powder in a highly dispersed state and an aggregate selected from the group consisting of graphite and nongraphitizable carbon are aggregated. The electrochemical decomposition of electrolytic solution is suppressed due to a reduction in the area where the carbon material in the granulated substance and the electrolytic solution are in contact, resulting in a significant reduction in the initial irreversible capacity of the negative electrode active material. | 01-16-2014 |
20140209833 | CARBON THAT CARRIES A METAL OXIDE NANOPARTICLE, AN ELECTRODE, AND AN ELECTROCHEMICAL DEVICE INCORPORATING THE SAME - The present invention aims at: providing an accelerated reaction in a liquid-phase reaction; forming, by way of the reaction, a metal oxide nanoparticle and carbon that carries the metal oxide nanoparticle in a highly dispersed state; and providing an electrode containing the carbon and an electrochemical device using the electrode. In order to solve the above-mentioned problem, shear stress and centrifugal force are applied to the reactant in the rotating reactor so that an accelerated chemical reaction is attained in the course of the reaction. Further, the carbon carrying a metal oxide nanoparticle in a highly dispersed state comprises: a metal oxide nanoparticle produced by the accelerated chemical reaction, wherein shear stress and centrifugal force are applied to a reactant in a rotating reactor in the course of the reaction; and carbon dispersed in the rotating reactor by applying shear stress and centrifugal force. An electrochemical device produced by using the carbon carrying the metal oxide nanoparticle as an electrode has high output and high capacity characteristics. | 07-31-2014 |
20150228370 | PROCESS FOR PRODUCING COMPOSITE MATERIAL OF METAL OXIDE WITH CONDUCTIVE CARBON - Provided is a method whereby metal oxide nanoparticles having evenness of size are efficiently and highly dispersedly adhered to conductive carbon powder. This method comprises: a preparation step in which a reaction solution containing water, a compound with a transition metal selected from the group consisting of Mn, Fe, Co, and Ni, and conductive carbon powder and having a pH in the range of 9 to 11 is introduced into a rotatable reactor; a supporting step in which the reactor is rotated to apply shear stress and centrifugal force to the reaction solution, thereby yielding a core of a hydroxide of the transition metal and dispersing the thus-yielded core of a hydroxide of the transition metal and the conductive carbon powder and simultaneously supporting the hydroxide of the transition metal by the conductive carbon powder; and a heat treatment step in which the conductive carbon powder loaded with the hydroxide of the transition metal is heated to thereby convert the hydroxide supported by the conductive carbon powder into an oxide nanoparticle. | 08-13-2015 |
20150243975 | MANUFACTURING METHOD FOR ELECTRODE MATERIAL, ELECTRODE MATERIAL, AND ELECTRIC STORAGE DEVICE PROVIDED WITH THE ELECTRODE MATERIAL - Provided are a manufacturing method for an electrode material and an electric storage device with the electrode material improving its output performance by making a carbon material carry a metal compound which is an unstable crystal through a high-temperature reaction and by conjugating the a composite material under an atmosphere containing oxygen. A precursor of the metal compound is carried on the carbon material while the carbon material is nanoparticulated. The precursor of the metal compound is M | 08-27-2015 |
20150255790 | LITHIUM TITANATE CRYSTAL STRUCTURE, COMPOSITE OF LITHIUM TITANATE CRYSTAL STRUCTURE AND CARBON, METHOD OF PRODUCTION THEREOF, AND ELECTRODE AND ELECTROCHEMICAL ELEMENT EMPLOYING SAID COMPOSITE - Highly dispersed lithium titanate crystal structures having a thickness of few atomic layers level and the two-dimensional surface in a plate form are supported on carbon nanofiber (CNF). The lithium titanate crystal structure precursors and CNF that supports these are prepared by a mechanochemical reaction that applies sheer stress and centrifugal force to a reactant in a rotating reactor. The mass ratio between the lithium titanate crystal structure and carbon nanofiber is preferably between 75:25 and 85:15. The carbon nanofiber preferably has an external diameter of 10-30 nm and an external specific surface area of 150-350 cm | 09-10-2015 |
20150263337 | ELECTRODE MATERIAL FOR LITHIUM ION SECONDARY BATTERIES, METHOD FOR PRODUCING ELECTRODE MATERIAL FOR LITHIUM ION SECONDARY BATTERIES, AND LITHIUM ION SECONDARY BATTERY - Provided is an electrode material which leads to a lithium ion secondary battery that has high energy density. An electrode material for a lithium ion secondary battery of the present invention is characterized by containing: a coarse particle of a first active material that is able to act as a positive electrode active material or a negative electrode active material of a lithium ion secondary battery; and a particle of a composite composed of conductive carbon and a second active material attached to the conductive carbon that is able to act as an active material of the same electrode as the first active material. This electrode material for a lithium ion secondary battery is also characterized in that: a diameter of the coarse particle of the first active material is larger than a diameter of the particle of the composite; and the particle of the composite is filled in a gap formed between the particles of the first active material. A conductive agent can be additionally contained in the gap. | 09-17-2015 |