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| 20080220191 | Thermal Transfer Receiving Sheet - There is provided a thermal transfer receiving sheet comprising a sheet-like support and an image receiving layer formed on at least one side of the sheet-like support, wherein the image receiving layer contains a polyester resin with a branched structure obtained by polycondensation of a polyhydric carboxylic acid component and a polyhydric alcohol component, and 30-75 mol % of the polyhydric carboxylic acid component is an aromatic dicarboxylic acid while 15-60 mol % is an alicyclic dicarboxylic acid. | 09-11-2008 |
| 20090098364 | Biaxially Oriented Laminated Polypropylene Film and Uses Thereof - A biaxially oriented laminated polypropylene film comprising a biaxially oriented polypropylene film substrate layer (B) made from a propylene-based polymer composition (A) in which an inorganic compound powder (a2) has been added to a propylene-based polymer (a1), the biaxially oriented polypropylene film substrate layer (B) has a front surface layer and a back surface layer on its both sides, both layers are made from the propylene-based polymer (a1), wherein the surface roughness (three-dimensional center-line roughness SRa) of the front and the back surface layers is less than 0.08 μm and the gloss value (at an incidence angle of 60 degrees) is 114% or greater, and the total light transmittance of the laminated polypropylene film is 20% or less and the density is in the range of 0.40 to 0.65 g/cm | 04-16-2009 |
| 20100279034 | Thermal transfer receiving sheet and its manufacturing method - The present invention provides a thermal transfer receiving sheet obtained by sequentially forming a hollow particle-containing intermediate layer and an image receiving layer on one surface of a sheet-like support mainly comprising cellulose pulp, wherein the moisture content of the entire thermal transfer receiving sheet is from 2 to 8 mass % and the moisture permeability of the entire receiving sheet is 400 g/m | 11-04-2010 |
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| 20100154034 | CREATING METHOD, INFORMATION INTRODUCING SYSTEM, CREATING APPARATUS, COMPUTER PROGRAM, AND RECORDING MEDIUM - There are provided a method and others capable of appropriately protecting literary works without requiring any operation by a web site administrator or a user. A web server transmits a content, copyright information on the content, and execution information for introducing the content to a creation device. The creation device receives the transmitted content, copyright information, and execution information. When the content is introduced in association with the transmitted execution information, the creation device extracts the copyright information on the transmitted content and transmits the address of the content and the extracted copyright information to a creation program for creating a web page. | 06-17-2010 |
| 20110099251 | METHOD OF CREATING WEB PAGE, WEB PAGE CREATING SYSTEM, LINKAGE SERVER APPARATUS, AND COMPUTER PROGRAM - Smooth cooperation between a service for distributing websites wherein contents that are reprintable to blogs are arranged and a plurality of blog creating services is established. In order to help a user computer with blog creation processing between a content server which distributes websites wherein news articles and images are arranged as contents and blog servers of various companies relating to providing a blog creating service according to the operation of a user, a linkage server which performs various kinds of linkage processing necessary for creating the blog is newly provided between the user computer and various servers. Due to the existence of the linkage server, when the user finds subject matters for creating the blog in the websites distributed by the content server, the user can easily lead the blog creating work to the web creating service on which the user has registered. | 04-28-2011 |
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| 20090059564 | Light Diffusion Plate and Backlight Device - The light diffusion plate | 03-05-2009 |
| 20090190329 | LIGHT DIFFUSING PLATE, DIRECT-TYPE BACKLIGHT DEVICE AND LIQUID CRYSTAL DISPLAY SYSTEM - A direct-type backlight device has a reflection plate, a plurality of linear light sources disposed approximately in parallel to one another, and a light diffusion plate having a light incident surface which receives direct lights from the linear light sources and reflected lights which has emitted from the linear light sources and has been reflected on the reflection plate, and having a light emitting surface for emitting the light. Defining the mean distance between centers of the adjacent linear light sources as “a” (mm), the mean distance between the center of the linear light source and the light incident surface as “b” (mm), and the internal diameter of the linear light source as “r” (mm), the region obtained by projecting the internal diameter of the linear light source onto the light incident surface as X, and the region having a width (r×(b | 07-30-2009 |
| 20090268428 | Direct Type Back-Light Device - A direct type back-light device comprising: a reflection plate; a plurality of linear light sources disposed in parallel; and a light diffusion plate disposed, in this order, in which the light diffusion plate includes on at least one main surface a plurality of concave or convex structural units each having three or more sloped sides, has a maximum height Rz of the main surface having the structural units being not more than 1000 μm, and in a vertical cross section of the light diffusion plate, which lies immediately above a region between central axes of adjacent linear light sources and in which a direction perpendicular to a central axis direction of the linear light source is defined as a cutting-plane line, includes a portion: in which the number of lines representing the sloped sides n of which gradients Xn (unit:degree, where n is a natural number and is a subindex for representing each sloped side) differ is 2 or more, and in which all gradients Xn have, between an average distance a | 10-29-2009 |
| 20090268430 | Direct-Type Backlight Device - The direct-type backlight device of the present invention includes a reflecting plate, a plurality of point light sources and a light diffusing plate in this order. A light emitting surface of the light diffusing plate is provided with a fine concavo-convex structure which is a split image forming member. By the fine concavo-convex structure, images A | 10-29-2009 |
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| 20090122130 | Video communication system, terminal, and image converter - Image input device ( | 05-14-2009 |
| 20090141976 | Color Correction Method and Color Correction Apparatus - A color correction method in which an input image is corrected to generate an output image with an illumination condition different from that in the input image includes: detecting a region of a particular subject from the input image to extract color information on the region; restoring a spectral distribution of illumination in the input image by using the extracted color information and a surface reflectance of the particular subject designated in advance, calculating a spectral distribution of illumination in the output image by using the restored spectral distribution of illumination in the input image and the spectral distribution of designated target illumination, and calculating color information on each pixel of the output image on the basis of color information on each pixel of the input image, the restored spectral distribution of illumination in the input image and the calculated spectral distribution of illumination in the output image. | 06-04-2009 |
| 20100328740 | METHOD, APPARATUS AND PROGRAM FOR COLOR IMAGE PROCESSING - Spectral power distribution of an illumination is restored using color information in a region of the specific object in an input image and a pre-specified representative surface reflectance of the specific object. The surface reflectance in the region of the specific object is restored from the color information and the spectral power distribution of the illumination. The surface reflectance is corrected using three or more pre-specified reference surface reflectances of the specific object. The color in the region of the specific object is calculated from the spectral power distribution of the illumination and the corrected surface reflectance. | 12-30-2010 |
| 20110268350 | COLOR IMAGE PROCESSING METHOD, COLOR IMAGE PROCESSING DEVICE, AND RECORDING MEDIUM - To provide a color image processing method and device capable of improving the texture of a specific object in a color image taken by a color imaging device by controlling the quantity of a specular component in the specific object. A color image processing device ( | 11-03-2011 |
| 20110268356 | IMAGE PROCESSING METHOD, IMAGE PROCESSING APPARATUS, AND RECORDING MEDIUM - Each pixel of an input image is subjected to first color conversion by means of colorimetric color reproduction and converted to a first color device value of a target color space. Further, a difference DI between a white luminance of an originating color space and a luminance of pixels of the originating color space is calculated. When generating an output image, pixels with a difference DI of 0 keeps the color device value of the originating color space. For the pixels with a difference DI greater than 0, a second color device value is calculated as a color device value of the output image, the second color device value being a sum of the abovementioned color device value and a value which is obtained by multiplying the difference between the first color device value and the abovementioned color device value by a coefficient that is greater than 0 and less than or equal to 1. Due to this, when generating an output image of a target color space from an input image of an originating color space, the color image can be reproduced more brightly while achieving coincident color appearance. | 11-03-2011 |
| 20110274351 | COLOR IMAGE PROCESSING METHOD, COLOR IMAGE PROCESSING DEVICE, AND COLOR IMAGE PROCESSING PROGRAM - To provide a color image processing method and device to realize desired color reproduction of the object area of a specific object in a color image taken by a color imaging device and thereby to improve the texture. A color image processing device ( | 11-10-2011 |
| 20120155762 | IMAGE PROCESSING METHOD, IMAGE PROCESSING DEVICE, AND PROGRAM - Provided is an image processing method wherein an edge is detected from an image to which a sharpening process is to be applied, and on the basis of a length of the edge which is present near a pixel to which the sharpening process is to be applied, the strength of the sharpening process to the pixel is determined. | 06-21-2012 |
| 20130083969 | COLOR IMAGE PROCESSING METHOD, COLOR IMAGE PROCESSING DEVICE, AND COLOR IMAGE PROCESSING PROGRAM - An object area detection means detects an object area which is an area to be subjected to image processing from an input image. A reflection component reconstruction means calculates color information of the object area and a perfect diffusion component, which is a low-frequency component of the object area, and reconstructs a surface reflection component based on the color information and the low-frequency component. A surface reflection component correction means corrects the reconstructed surface reflection component according to a reference surface reflection component that is the surface reflection component set in advance according to the object area. A reproduced color calculation means calculates a reproduced color that is a color obtained by correcting each pixel included in the input image by using the perfect diffusion component and the corrected surface reflection component and generates an output image based on the reproduced color. | 04-04-2013 |
| 20130089256 | COLOR IMAGE PROCESSING METHOD, COLOR IMAGE PROCESSING DEVICE, AND COLOR IMAGE PROCESSING PROGRAM - An object area detection means detects an object area which is an area to be subjected to image processing from an input image. A reflection component reconstruction means calculates color information of the object area and a perfect diffusion component, which is a low-frequency component of the object area, and reconstructs a surface reflection component based on the color information and the low-frequency component. An albedo calculation means calculates an albedo, which is color information obtained by removing shading information, which is information that represents luminance of the perfect diffusion component, from the perfect diffusion component. An albedo correction processing means reconstructs a surface reflectance of the object area based on the albedo and the color information in the object area, and then calculates the corrected albedo, which is color information obtained by correcting the albedo based on the surface reflectance. | 04-11-2013 |
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| 20080237530 | Piezoelectric ceramic composition - A piezoelectric ceramic composition that acquires excellent piezoelectric properties even when it is fired at a low temperature is offered. The piezoelectric ceramic composition possesses a composition corresponding to a solid solution that contains a first compound having a rhombohedral crystal-based perovskite structure, a second compound having a tetragonal crystal-based perovskite structure, and a third compound. The third compound is a compound oxide containing Bi as a first component element, Fe or Mn as a second component element, and a hexavalent metallic element as a third component element. The hexavalent metallic element is at least one kind selected from W and Mo. | 10-02-2008 |
| 20080237531 | Piezoelectric ceramic composition - A piezoelectric ceramic composition having a large piezoelectric constant (d) and as well having a large Qm value is to be provided. The piezoelectric ceramic composition aimed at has a composition corresponding to a solid solution containing a first compound possessing a rhombohedral crystal-based perovskite structure, a second compound possessing a tetragonal crystal-based perovskite structure, and a third compound. The third compound is a compound oxide containing Bi as a first component element, Mn as a second component element, and a tetravalent metallic element or a pentavalent metallic element as a third component element. The tetravalent metallic element is at least one member selected from the group consisting of Ti, Zr, Hf, and Sn. The pentavalent metallic element is at least one member selected from the group consisting of Nb, Ta, and Sb. | 10-02-2008 |
| 20090243439 | PIEZOELECTRIC CERAMIC AND PIEZOELECTRIC ELEMENT EMPLOYING IT - A piezoelectric ceramic | 10-01-2009 |
| 20100096947 | PIEZOELECTRIC CERAMIC, VIBRATOR AND ULTRASONIC MOTOR - Provided is a piezoelectric ceramic | 04-22-2010 |
| 20110110017 | HEXAGONAL TYPE BARIUM TITANATE POWDER, PRODUCING METHOD THEREOF, DIELECTRIC CERAMIC COMPOSITION AND ELECTRONIC COMPONENT - Dielectric ceramic composition includes a hexagonal type barium titanate as a main component shown by a generic formula of (Ba | 05-12-2011 |
| 20110110018 | HEXAGONAL TYPE BARIUM TITANATE POWDER, PRODUCING METHOD THEREOF, DIELECTRIC CERAMIC COMPOSITION AND ELECTRONIC COMPONENT - Dielectric ceramic composition includes a hexagonal type barium titanate as a main component shown by a generic formula (Ba | 05-12-2011 |
| 20110111947 | DIELECTRIC CERAMIC COMPOSITION AND ELECTRONIC COMPONENT - The disclosed is a dielectric ceramic composition in which dielectric particles | 05-12-2011 |
| 20120019108 | PIEZOELECTRIC CERAMIC COMPOSITION AND PIEZOELECTRIC ELEMENT - A piezoelectric ceramic composition including a perovskite-type oxide, wherein the perovskite-type oxide has Na, K, Li, Ba and Sr at the A site and Nb, Ta and Zr at the B site, and has a crystal phase transition in a temperature range of −50 to 150° C., the crystal phase transition being accompanied by an endotherm of no greater than 4 J/g, as well as a piezoelectric element | 01-26-2012 |
| 20120077036 | HEXAGONAL TYPE BARIUM TITANATE POWDER, PRODUCING METHOD THEREOF, DIELECTRIC CERAMIC COMPOSITION AND ELECTRONIC COMPONENT - To provide a hexagonal type barium titanate powder having a fine and uniform particle size and contributing to a thinner dielectric layer. A hexagonal type barium titanate powder according to the present invention has the following characteristics that a maximum particle diameter is 1.0 μm or less, a ratio of 90% accumulated particle diameter and 50% accumulated particle diameter is 3.0 or less, and a hexagonal ratio is 50% or more. | 03-29-2012 |
| 20120083402 | HEXAGONAL TYPE BARIUM TITANATE POWDER, PRODUCING METHOD THEREOF, DIELECTRIC CERAMIC COMPOSITION, ELECTRONIC COMPONENT, AND PRODUCING METHOD OF THE ELECTRONIC COMPONENT - A hexagonal type barium titanate powder comprising barium titanate as a main component shown by a generic formula of (Ba | 04-05-2012 |
| 20120250216 | SEMICONDUCTOR CERAMIC AND A MULTILAYER SEMICONDUCTOR CERAMIC CAPACITOR - A purpose of the present invention is to provide a multilayer semiconductor ceramic capacitor, which makes coexistence of a high dielectric property and a high insulating resistance of a semiconductor ceramic possible by improving insulating property of the semiconductor ceramic component. In order to achieve such object, BaTiO | 10-04-2012 |
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| 20090196009 | Semiconductor module, wiring board , and wiring method - A semiconductor module includes a plurality of rectangular shaped semiconductor devices which are arranged in two rows such that each pair of adjacent semiconductor devices is in orientations differed by 90 degrees from each other. A plurality of wirings connect the semiconductor devices included in one of the two rows to the semiconductor devices included in the other row such that the semiconductor devices arranged in the same orientations are connected to each other. | 08-06-2009 |
| 20090236758 | SEMICONDUCTOR MODULE - A semiconductor module has a plurality of semiconductor devices arranged on a substrate and mutually connected by signal bus wiring lines. Each pair of first semiconductor devices are connected to each other by the signal bus wiring lines, skipping a second semiconductor device located between the pair of first semiconductor devices. | 09-24-2009 |
| 20100157645 | MEMORY MODULE AND LAYOUT METHOD THEREFOR - The present invention provides a novel wiring method for LR-DIMM of VLP type that conforms to LR-DIMM technology. The LR-DIMM comprises a plurality of DRAMs mounted on a board, two connectors mounted on the board for receiving data, and a buffer device mounted on the board for redriving data applied to the two connectors to supply the data to the plurality of DRAMs. The buffer device is located near the center of the board on which the two connectors are arranged at both ends thereof, and supplies data from each connector to DRAMs arranged on the opposite side to the connector. | 06-24-2010 |
| 20110093764 | MEMORY MODULE ON WHICH REGULAR CHIPS AND ERROR CORRECTION CHIPS ARE MOUNTED - Regular chip packages that store user data therein and error-correction chip packages that store an error correction code therein are mounted on a module substrate. The module substrate has first and second mounting areas of different coordinates in an X direction, and the second mounting area has third and fourth mounting areas of different Y coordinates. The regular packages are oppositely arranged in the first mounting area on a surface and the back surface of the module substrate. The error-correction chip packages are oppositely arranged in the third mounting area on the surface and the back surface of the module substrate. A memory buffer that buffers user data and an error correction code is arranged in the fourth mounting area. | 04-21-2011 |
| 20120026772 | MEMORY MODULE AND LAYOUT METHOD THEREFOR - The present invention provides a novel wiring method for LR-DIMM of VLP type that conforms to LR-DIMM technology. The LR-DIMM comprises a plurality of DRAMs mounted on a board, two connectors mounted on the board for receiving data, and a buffer device mounted on the board for redriving data applied to the two connectors to supply the data to the plurality of DRAMs. The buffer device is located near the center of the board on which the two connectors are arranged at both ends thereof, and supplies data from each connector to DRAMs arranged on the opposite side to the connector. | 02-02-2012 |
| 20120281348 | MEMORY MODULE AND LAYOUT METHOD THEREFOR - The present invention provides a novel wiring method for LR-DIMM of VLP type that conforms to LR-DIMM technology. The LR-DIMM comprises a plurality of DRAMs mounted on a board, two connectors mounted on the board for receiving data, and a buffer device mounted on the board for redriving data applied to the two connectors to supply the data to the plurality of DRAMs. The buffer device is located near the center of the board on which the two connectors are arranged at both ends thereof, and supplies data from each connector to DRAMs arranged on the opposite side to the connector. | 11-08-2012 |
| 20130010514 | SEMICONDUCTOR MODULE HAVING MODULE SUBSTRATE AND PLURAL SEMICONDUCTOR DEVICES MOUNTED THEREON - Disclosed herein is a semiconductor module that includes a module substrate and a plurality of semiconductor devices mounted on the module substrate. Among the semiconductor devices, two of the semiconductor devices adjacent in a first direction differ in a mounting direction by 180°. Among the semiconductor devices, two of the semiconductor devices adjacent in a second direction perpendicular to the first direction differing in a mounting direction by 180°. | 01-10-2013 |
