Kosaka, US
Akio Kosaka US
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20140152854 | SERVER SYSTEM, TERMINAL DEVICE, INFORMATION STORAGE DEVICE, METHOD FOR CONTROLLING SERVER SYSTEM, AND METHOD FOR CONTROLLING TERMINAL DEVICE - A server system includes: a reception section that receives captured image information and metadata from a terminal device connected to the server system through a network, the captured image information being information about a captured image captured using the terminal device, and the metadata being added to the captured image; an insertion image selection section that selects an insertion image based on the received metadata, the insertion image being an image differing from the acquired captured image; and an image set generation section that generates image set information in which the insertion image is inserted into the captured image information. | 06-05-2014 |
Alan H. Kosaka, Half Moon Bay, CA US
Iku Kosaka, Novi, MI US
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20100204965 | Apparatus, method, and program for acoustic characteristics optimization model analysis - An acoustic characteristics optimization model analysis apparatus includes a finite element model generation unit; a boundary element model generation unit; an acoustic transfer function calculation unit; a nodal point association unit; and a sound pressure calculation unit that incorporates the plurality of nodal points of the finite element model correlated with the plurality of nodal points of the boundary element model by the nodal point association unit into the acoustic transfer function calculated by the acoustic transfer function calculation unit to calculate a sound pressure transmitted from the finite element model to the predetermined position. | 08-12-2010 |
20110125464 | APPARATUS, METHOD, AND PROGRAM FOR OPTIMIZATION MODEL ANALYSIS - An optimization model analysis apparatus configured with a finite element model generation unit that generates on the basis of a structural configuration of a design model having a 3D shape a finite element model for analyzing acoustic characteristics of the design by a finite element method. The apparatus is configured with a shell model generation unit that generates a model by dividing a surface of the finite element model into a plurality of plate elements having a polygonal shape; an optimization model generation unit that superimposes the shell model on the surface of the finite element model to generate an optimization model; and an optimization model modification unit that displaces nodal points which serve as vertexes of the plate elements in a direction intersecting a plane of the plate elements by displacing at least one of the nodal points in a direction of reducing a thickness of the optimization model. | 05-26-2011 |
Mas Kosaka, Torrance, CA US
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20080216156 | Fault tolerant security system, method and apparatus - A security system comprises a host system, a plurality of master controllers and a plurality of sub-controllers, wherein each sub-controller is assigned a specific master controller as well as alternate master controllers for communication access upon failure of the primary master controller. The host, master controller and sub-controllers are all coupled by a series of primary communication networks and paths and have multiple alternative communication network paths which function should there be a failure of the primary communication network. The host system comprises system and application software, data storage devices and communication ports to support the application requirements of the master controller, sub-controller network and access control devices attached thereto necessary to support a fault tolerant network. The system is configured with backup communication networks between the components so that upon failure of one or more components or communication paths the function of the failed component or path is assumed by alternative predesignated components or paths such that the operations of the system is not interrupted. | 09-04-2008 |
Naohiko Kosaka, Concord, CA US
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20080222190 | Device user interface XML string table manager - A method for managing a user interface (UI) string table, comprising placing a UI string table at a string table management unit; administrator(s) editing the UI string table through an administrator interface of a UI string table manager; and read-only users (ROUs) accessing the UI string table through a ROU interface of the UI string table manager. | 09-11-2008 |
20090128843 | Application-based profiles of printer driver settings - A method for managing printer driver settings using application-based profiles, comprising: applying the print settings for the application using application-profile name table and print settings table, and applying selective lock-in print settings process based on the user's administrative privilege status. | 05-21-2009 |
Naoya Kosaka US
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20150290702 | UP-DRAWING CONTINUOUS CASTING APPARATUS AND UP-DRAWING CONTINUOUS CASTING METHOD - An up-drawing continuous casting apparatus includes a holding furnace that holds molten metal, and a shape defining member that is set near a molten metal surface of a molten metal held in the holding furnace, and defines a section shape of a casting to be cast, as the molten metal passes through the shape defining member. The shape defining member is able to be switched between a joined state and a partitioned state. With such a structure, it becomes possible to form a casting having a branched structure. | 10-15-2015 |
Yoji Kosaka, Henderson, NV US
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20090129968 | Titanium alloy and automotive exhaust systems thereof - An oxidation resistant, high strength titanium alloy, particularly adapted for use in the manufacture of automotive exhaust system components and other applications requiring oxidation resistance and strength at elevated temperatures. The alloy comprises, in weight percent, iron less than 0.5, or 0.2 to less than 0.5%, oxygen 0.02 to less than 0.15%, silicon 0.15 to 0.6%, and balance titanium. Optional alloying elements are Al, Nb, V, Mo, Sn, Zr, Ni, Cr and Ta, with a total content of less than 1.5. | 05-21-2009 |
20100108208 | Methods for the Manufacture of a Titanium Alloy for Use in Combustion Engine Exhaust Systems - Methods for the manufacture of the above-mentioned titanium alloy for use in combustion engine exhaust systems are disclosed herein. An exemplary method of the disclosed subject matter for the manufacture of titanium alloy for use in a high temperature and high stress environment includes performing a first heat treatment of the titanium alloy at a first temperature, rolling the titanium alloy to a desired thickness, performing a second heat treatment of the titanium alloy at a second temperature, and performing a third heat treatment of the titanium alloy at a third temperature. In some embodiments, the first temperature is selected such that recrystallization and softening of the titanium alloy is optimized without substantial coarsening of second phase particles and can be approximately 1500-1600° F. In some embodiments, the rolling of the titanium alloy reduces the thickness of the titanium alloy by at least than 65%. | 05-06-2010 |
20110027121 | TITANIUM ALLOY AND AUTOMOTIVE EXHAUST SYSTEMS THEREOF - An oxidation resistant, high strength titanium alloy, particularly adapted for use in the manufacture of automotive exhaust system components and other applications requiring oxidation resistance and strength at elevated temperatures. The alloy comprises, in weight percent, iron less than 0.5, or 0.2 to less than 0.5%, oxygen 0.02 to less than 0.15%, silicon 0.15 to 0.6%, and balance titanium. Optional alloying elements are Al, Nb, V, Mo, Sn, Zr, Ni, Cr and Ta, with a total content of less than 1.5. | 02-03-2011 |
20130000799 | METHOD FOR THE MANUFACTURE OF ALPHA-BETA TI-AL-V-MO-FE ALLOY SHEETS - A method of manufacturing fine grain titanium alloy sheets that is suitable for superplastic forming (SPF) is disclosed. In one embodiment, a high strength titanium alloy comprising: Al: about 4.5% to about 5.5%, V: about 3.0% to about 5.0%, Mo: about 0.3% to about 1.8%, Fe: about 0.2% to about 0.8%, O: about 0.12% to about 0.25% with balance titanium is forged and hot rolled to sheet bar, which is then fast-cooled from a temperature higher than beta transus. According to this embodiment, the sheet bar is heated between about 1400° F. to about 1550° F. and rolled to intermediate gage. After reheating to a temperature from about 1400° F. to about 1550° F., hot rolling is performed in a direction perpendicular to the previous rolling direction to minimize anisotropy of mechanical properties. The sheets are then annealed at a temperature between about 1300° F. to about 1550° F. followed by grinding and pickling. | 01-03-2013 |