Patent application number | Description | Published |
20110231357 | INTER-FACILITY MOVEMENT ESTIMATION APPARATUS, METHOD AND PROGRAM - In general, embodiments provide an inter-facility movement estimation apparatus including: a movement map which stores location information about facilities and movement times therebetween; a positioning unit which obtains user's location information when starting a movement; a movement candidate list which stores given movement path candidates; a movement situation estimating unit which estimates a user's movement situation; a movement path estimating unit which selects, whenever the movement situation is changed, estimated movement path candidates from the given movement path candidates based on the nearest facility and the user's movement situation; and an adjusting unit which changes the likelihoods of the estimated movement path candidates, wherein one of the estimated movement path candidates having a highest likelihood thereamong is specified as an actual movement path of the user. | 09-22-2011 |
20110246122 | MOTION DETERMINATION APPARATUS, METHOD AND COMPUTER READABLE MEDIUM - In one embodiment, a motion determination apparatus includes: a basic motion determination module determining a basic motion of a user, based on a sensor signal for detecting a motion of the user; a basic motion recording module recording the basic motion in a temporal sequence; a motion scene determination table configured to store the basic motion and a condition under which the basic motion occurs, for each motion scene; a motion scene determination module determining that the basic motion recorded in the temporal sequence corresponds to a certain motion scene, based on the motion scene determination table; a detailed label determination table storing a detailed label indicating a detailed motion in the motion scene, for each motion scene; and a detailed label determination module determining that the basic motion included in the motion scene corresponds to a certain detailed label, based on the detailed label determination table. | 10-06-2011 |
Patent application number | Description | Published |
20080244374 | FILE PROCESSING APPARATUS, FILE PROCESSING METHOD AND COLOR-IMAGE PROCESSING FILE - A file editing apparatus is provided that edits a color-image processing file in which limitations can be imparted on the display of edit history information that corresponds to a new shooting mode. The apparatus includes an editing unit that edits a color processing file; a display control unit; and a storage unit that stores the color-image processing file including edit history information of the color processing file edited by the editing unit, and edit history display control information for the display control unit to control display of the edit history information. | 10-02-2008 |
20090102943 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE SENSING APPARATUS - An image processing apparatus includes a spectrum estimation unit for estimating a spectrum for each pixel from multiband image data comprising image data in multiple different wavelength ranges; a memory for storing spectral data suitable for each of multiple different shooting modes; and a conversion unit for determining a shooting mode of the multiband image data and converting the spectrum into band data with different spectral characteristics using the spectral data stored in the memory, the spectral data suitable for the determined shooting mode. | 04-23-2009 |
20090297060 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus which includes an image processing unit and a system control unit, wherein this system control unit adds information for determining an image height reference position of an image before cropping processing is performed to an image cropped by the image processing unit, and records the resultant image in an external storage device. Alternatively, information for determining an image height reference position of an image before rotation processing is performed is added to an image rotated by the image processing unit, and the resultant image is recorded in an external storage device. | 12-03-2009 |
20090304301 | IMAGE PROCESSING APPARATUS, CONTROL METHOD, AND PROGRAM - An image processing apparatus includes a reading unit configured to read an image and information about a target portion recorded along with the image, a correction unit configured to correct distortion occurring in the image, and a recording control unit configured to re-record the information about the target portion which has been changed according to a distortion correction amount performed on the image by the correction unit. | 12-10-2009 |
20110122285 | IMAGE PROCESSING FILE SETTING SYSTEM - A system setting an image processing parameter in an imaging apparatus and an information processing apparatus, downloads a parameter file from an external apparatus, and sets in the imaging apparatus an image processing parameter included in the parameter file downloaded from the external apparatus. In the information processing apparatus, image data is processed using the image processing parameter included in the parameter file. Thus, the information processing apparatus and the imaging apparatus can perform image processing using an image processing parameter obtained from one downloaded parameter file. | 05-26-2011 |
20120140985 | IMAGE PROCESSING APPARATUS AND CONTROL METHOD THEREFOR - A parameter for each of a plurality of images captured in time series is computed based on information obtained from the image, and a normal reference image (an image captured before an image targeted for processing is stored). A degree of similarity between the image targeted for processing and the normal reference image is computed, and a parameter to be used in image processing applied to the image targeted for processing is computed by performing weighted addition such that a parameter computed from the normal reference image has a higher weight than a parameter computed from the image targeted for processing the higher the degree of similarity. | 06-07-2012 |
20130222649 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus which includes an image processing unit and a system control unit, wherein this system control unit adds information for determining an image height reference position of an image before cropping processing is performed to an image cropped by the image processing unit, and records the resultant image in an external storage device. Alternatively, information for determining an image height reference position of an image before rotation processing is performed is added to an image rotated by the image processing unit, and the resultant image is recorded in an external storage device. | 08-29-2013 |
Patent application number | Description | Published |
20120127454 | PATTERN FORMING METHOD - According to one embodiment, a pattern including first and second block phases is formed by self-assembling a block copolymer onto a film to be processed. The entire block copolymer present in a first region is removed under a first condition by carrying out energy beam irradiation and development, thereby leaving a pattern including the first and second block phases in a region other than the first region. The first block phase present in a second region is selectively removed under a second condition by carrying out energy beam irradiation and development, thereby leaving a pattern including the first and second block phases in an overlap region between a region other than the first region and a region other than the second region, and leaving a pattern of second block phase in the second region excluding the overlap region. The film is etched with the left patterns as masks. | 05-24-2012 |
20120214094 | METHOD OF FORMING PATTERN - According to one embodiment, there is provided a method of forming a pattern including forming a polymer layer on a substrate, the polymer layer including a first and second regions, selectively irradiating either of the first and second regions with energy rays or irradiating the first and second regions with energy rays under different conditions to cause a difference in surface free energy between the first and second regions, thereafter, forming a block copolymer layer on the polymer layer, and causing microphase separation in the block copolymer layer to simultaneously form first and second microphase-separated structures on the first and second regions, respectively. | 08-23-2012 |
20130075360 | METHOD OF FORMING PATTERN - According to one embodiment, there is provided a method of forming a pattern, includes forming a guide pattern including a first region having a first surface energy and a second region having a second surface energy on a to-be-processed film, the first and second regions alternately arranged in one direction, forming a block copolymer layer on the guide pattern, and causing microphase separation in the block copolymer layer, the microphase-separated structure is a lamellar block copolymer pattern. | 03-28-2013 |
20130078570 | METHOD OF FORMING PATTERN AND LAMINATE - According to one embodiment, there is provided a method of forming a pattern, including forming a thermally crosslinkable molecule layer including a thermally crosslinkable molecule on a substrate, forming a photosensitive composition layer including a photosensitive composition on the thermally crosslinkable molecule layer, chemically binding the thermally crosslinkable molecule to the photosensitive composition by heating, selectively irradiating the photosensitive composition layer with energy rays, forming a block copolymer layer including a block copolymer on the photosensitive composition layer, and forming a microphase-separated structure in the block copolymer layer. | 03-28-2013 |
20130133825 | PATTERN FORMATION METHOD AND POLYMER ALLOY BASE MATERIAL - According to one embodiment, a pattern formation method is provided, the pattern formation includes: laminating a self-assembled monolayer and a polymer film on a substrate; causing chemical bonding between the polymer film and the self-assembled monolayer by irradiation with an energy beam to form a polymer surface layer on the self-assembled monolayer; and forming on the polymer surface layer a polymer alloy having a pattern of phase-separated structures. | 05-30-2013 |
20150261092 | METHOD OF FORMING PATTERN AND LAMINATE - According to one embodiment, there is provided a method of forming a pattern, including forming a thermally crosslinkable molecule layer including a thermally crosslinkable molecule on a substrate, forming a photosensitive composition layer including a photosensitive composition on the thermally crosslinkable molecule layer, chemically binding the thermally crosslinkable molecule to the photosensitive composition by heating, selectively irradiating the photosensitive composition layer with energy rays, forming a block copolymer layer including a block copolymer on the photosensitive composition layer, and forming a microphase-separated structure in the block copolymer layer. | 09-17-2015 |
Patent application number | Description | Published |
20120177329 | COATED PLASTIC CLADDING OPTICAL FIBER AND OPTICAL FIBER CABLE - A coated plastic cladding optical fiber and an optical fiber cable, in which a transmission loss caused when this coated fiber or this fiber cable is bent in a small radius is small, and which can be used sufficiently as a USB cable or a HDMI cable in a high speed transmission, are provided. | 07-12-2012 |
20120219261 | MULTI-CORE OPTICAL FIBER AND METHOD OF PRODUCING THE SAME - A multi-core optical fiber according to the present invention includes plural single-core optical fibers, and comprises an intermediate portion in which a side surface of each single-core optical fiber is covered with a resin layer, and a terminal portion in which the each single-core optical fiber is exposed from the resin layer. In the terminal portion of the multi-core optical fiber, the single-core optical fibers are separated from each other. | 08-30-2012 |
20120247828 | METHOD FOR PRODUCING WIRING HARNESS, AND WIRING HARNESS - Provided is a method for producing a wiring harness including a sealing member having higher airtightness, the method including a coat formation step of forming a coat of a composition solution by providing the composition solution that contains at least a photo polymerization initiator, a thermal radical polymerization initiator, and a polymerizable compound to an exposed bunched portion and a coated bunched portion that is adjacent to the exposed bunched portion of the bunch of electric wires, and a curing step of irradiating the coat formed on the exposed bunched portion and the adjacent coated bunched portion with light to photocure the coat and to thermally cure the coat by heat of the photocure and heat of collected light. | 10-04-2012 |
20120261186 | METHOD FOR PRODUCING WIRING HARNESS, AND WIRING HARNESS - Provided is a method for producing a wiring harness including a sealing member having higher airtightness, the method including a coat formation step of forming a coat of a composition solution by providing the composition solution that contains at least a photo polymerization initiator, a thermal radical polymerization initiator, a redox catalyst and a polymerizable compound to an exposed bunched portion and a coated bunched portion that is adjacent to the exposed bunched portion of the bunch of electric wires, and a light irradiation step of irradiating the coat formed on the exposed bunched portion and the adjacent coated bunched portion with light to photocure the coat. | 10-18-2012 |
20130084048 | MULTI-MODE OPTICAL FIBER - The present invention relates to a multi-mode optical fiber having a structure to reduce the numerical aperture at the emission end of the multi-mode optical fiber having a length for which practical use is assumed. The multi-mode optical fiber comprises a core portion, a trench portion, and a cladding portion. The multi-mode optical fiber is designed such that the numerical aperture at the emission end thereof is reduced as the fiber length increases, and moreover such that the numerical aperture of the multi-mode optical fiber having a length for which practical use is assumed satisfies a specific condition. By this means, the numerical aperture at the emission end of the multi-mode optical fiber can be kept small, and coupling efficiency of the multi-mode optical fiber with other optical components is drastically improved. | 04-04-2013 |
20140119698 | OPTICAL CABLE - An optical cable comprises a coated optical fiber having an optical fiber which includes a core made of glass and a cladding surrounding the core and a jacket made of a thermoplastic resin. The jacket is directly covering the coated optical fiber while in close contact therewith. In the optical cable, the optical fiber has the highest modulus of elasticity in materials constituting the optical cable, a glass diameter of the optical fiber is at least 30 μm but not more than 200 μm while being 5% or less of a cable diameter of the optical cable, and a distortion occurring in the optical fiber when bending the optical cable by 180° is 6% or less. | 05-01-2014 |
20140178019 | OPTICAL CABLE - In an optical cable | 06-26-2014 |
20140199040 | OPTICAL FIBER - Provided is an optical fiber which is provided with heat resistance and productivity and in which a transmission loss is suppressed even in a high-temperature environment. It has, on an outer periphery of a glass fiber composed of a core part and a cladding part, a coating layer made by crosslinking an energy-curable resin composition containing a silicon compound, in which the silicon compound contained in the energy-curable resin composition of the coating layer as an outermost layer has a specified structure having a cyclic silicone site having an epoxy group and a linear silicone site, with the content of the cyclic silicone site in the compound being from 10 to 30% by mass. | 07-17-2014 |
20140376866 | OPTICAL FIBER AND OPTICAL CABLE - An optical fiber includes a core, a clad and a coating layer. The core is made of glass, has a higher refractive index than that of the clad, and can guide propagating light. The clad surrounding the core is made of glass or plastic. The coating layer surrounding the clad is made of plastic. The core has a diameter d1 of from 70 to 105 μm. The clad has a diameter d2 of from 80 to 130 μm. The glass has a diameter of from 70 to 130 μm. The coating layer has a thickness t3 of from 12.5 to 85 μm. The optical fiber has an effective numerical aperture NA of from 0.28 to 0.35. The optical fiber of this embodiment has a transmission loss of 20 dB/km or smaller and a transmission bandwidth of 40 MHz·km or larger at an 850-nm wavelength. | 12-25-2014 |
20150030296 | OPTICAL FIBER RIBBON - An optical fiber ribbon | 01-29-2015 |
20150226916 | MULTI MODE OPTICAL FIBER - A multi mode optical fiber includes a core having a refractive index distribution of a curved form, a central part in a radial direction of which protrudes, a cladding provided in the periphery of the core and having a constant refractive index lower than a refractive index of the core and a trench layer provided between the core and the cladding and having a constant refractive index lower than that of the cladding. A width dimension of the trench layer in the radial direction is set to 2 μm or smaller and a ratio of an absolute value of Δ trench that is a refractive index difference between the cladding and the trench layer to an absolute value of Δ core that is a maximum refractive index difference between the cladding and the core is set to 0.5 or larger. | 08-13-2015 |
Patent application number | Description | Published |
20090268294 | MOLDED PRODUCT AND METHOD FOR MANUFACTURING SAME - A molded product having a phase separation structure formed by photopolymerization of a photopolymerizable composition and imparting a sharp diffraction spot at a high diffraction efficiency, and a method for manufacturing same are provided. The molded product ( | 10-29-2009 |
20130186467 | MOLD HAVING FINE UNEVEN STRUCTURE IN SURFACE, METHOD OF MANUFACTURING ARTICLE HAVING FINE UNEVEN STRUCTURE IN SURFACE, USE OF ARTICLE, LAMINATED BODY EXPRESSING IRIS COLOR, AND SURFACE-EMITTING BODY - A mold having an uneven structure is provided, wherein surface roughness Ra of the uneven structure, a maximum value Ra′(max) and a minimum value Ra′(min) of line roughness Ra′ satisfy the following Expression (1). | 07-25-2013 |
20140117397 | MOLD HAVING AN UNEVEN SURFACE STRUCTURE, OPTICAL ARTICLE, MANUFACTURING METHOD THEREFOR, TRANSPARENT SUBSTRATE FOR SURFACE LIGHT EMITTER AND SURFACE LIGHT EMITTER - The invention relates to a mold having an irregularly uneven surface structure in which an average inclination angle is from 20 to 80 degrees; an optical article having an irregularly uneven surface structure in which an average inclination angle is from 20 to 80 degrees; a method for manufacturing an optical article having an irregularly uneven surface structure by transferring an uneven structure of a mold; a transparent substrate for a surface light emitter which uses an optical article having an irregularly uneven surface structure; and a surface light emitter having a transparent substrate for a surface light emitter. | 05-01-2014 |
20150177427 | Light Extraction Film for EL Elements, Surface Light Emitting Body, and Method for Producing Light Extraction Film for EL Elements - A light extraction film for EL elements enables a surface light emitting body to have a good balance between suppression of emission angle dependence of the wavelength of emitted light and improvement of light extraction efficiency and luminance in the normal direction. A surface light emitting body has improved light extraction efficiency and luminance in the normal direction, while being suppressed in emission angle dependence of the wavelength of emitted light. A light extraction film for EL elements comprises a recessed and projected structure having a plurality of spherical projections, each containing a resin and fine particles added into the resin. The content of the fine particles in the spherical projections is 22-55% by mass, and the average maximum diameter (A | 06-25-2015 |