Patent application number | Description | Published |
20090020709 | IMAGE PROCESSING SYSTEM, IMAGE PROCESSING METHOD AND COMPUTER READABLE MEDIUM - Provided is an image processing system including: a specific wavelength image obtaining section that obtains a specific wavelength image being an image of light from an object existing inside a substance, the light belonging to a specific wavelength region; a depth calculator that calculates a depth of the object from a surface of the substance, using a plurality of specific wavelength images corresponding to different specific wavelength regions from each other; and an object image generator that generates an image of the object according to the depth of the object calculated by the depth calculator. | 01-22-2009 |
20090122152 | IMAGE CAPTURING SYSTEM, IMAGE CAPTURING METHOD, AND COMPUTER READABLE MEDIUM - Provided is an image capturing system including an image capturing section that includes a plurality of first light receiving elements for receiving light of a first wavelength region and a plurality of second light receiving elements for receiving light of a second wavelength region, a control section that causes to be generated, from a subject, light of a different spectrum at a different timing for each of the first wavelength region and the second wavelength region, and an image generating section that generates an image from light of a first spectrum from the subject received by the first light receiving elements at a predetermined timing, and light of a second spectrum from the subject received by the second light receiving elements at a timing other than the predetermined timing. | 05-14-2009 |
20090124854 | IMAGE CAPTURING DEVICE AND IMAGE CAPTURING SYSTEM - Provided is an image capturing system comprising an image capturing device. The image capturing device includes a plurality of first light receiving elements that receive light in a first wavelength region and a plurality of second light receiving elements that receive light in a wavelength region having a penetration depth in relation to a subject that is less than the penetration depth of light in the first wavelength region. The number of second light receiving elements is greater than the number of first light receiving elements. The ratio of the number of second light receiving elements to the number of first light receiving elements may be set according to a ratio of the penetration depth of light in the first wavelength region to the penetration depth of light in a second wavelength region, which is the light in the wavelength region received by the second light receiving elements. | 05-14-2009 |
20090143671 | POSITION IDENTIFYING SYSTEM, POSITION IDENTIFYING METHOD, AND COMPUTER READABLE MEDIUM - Provided is a position identifying system with a simple configuration that can identify a position of an object inside a body. The position identifying system identifies a position of an object existing inside a body. The position identifying system includes a vibrating section that vibrates each of a plurality of different positions inside the body at a different timing; an image capturing section that captures a frame image of the object at each of the different timings; and a position identifying section that identifies the position of the object based on a blur amount of an image of the object in each frame image captured by the image capturing section. | 06-04-2009 |
20090159776 | IMAGE CAPTURING SYSTEM, IMAGE CAPTURING METHOD, AND COMPUTER READABLE MEDIUM - An image capturing system includes an image capturing section that includes a plurality of light receiving elements configured to receive light in a first wavelength range and light in a second wavelength range, a control section that controls the light in the second wavelength range to be received by each of the plurality of light receiving elements more frequently than the light in the first wavelength range, where the light in the second wavelength range has a lower spectral intensity than the light in the first wavelength range, and an image generating section that generates an image by using the light in the first wavelength range received by the plurality of light receiving elements at a given timing and the light in the second wavelength range received by the plurality of light receiving elements at a different timing. | 06-25-2009 |
20090174941 | OPTICAL DEVICE - There is provided an optical device including a plurality of first phasors having substantially the same phase delaying axis as each other; and a plurality of second phasors having substantially the same phase delaying axis as each other in a direction different from that of the first phasors and providing a phase difference substantially the same as that provided by the first phasors, in which the plurality of first phasors and the plurality of second phasors are arranged on substantially the same face, a density of the first phasors is substantially the same as a density of the second phasors, and a spatial distribution of the density of the first phasors and a spatial distribution of the density of the second phasors are substantially uniform. | 07-09-2009 |
20090179143 | IMAGE CAPTURING DEVICE - An image capturing device includes a lens system including a plurality of regions on a pupil plane that each have different focal distances, a plurality of first polarizing elements that respectively transmit differently polarized light and respectively transmit light passing through the plurality of regions, a plurality of second polarizing elements that respectively transmit polarized light transmitted through the plurality of first polarizing elements, and a plurality of light receiving elements that respectively receive light transmitted through the plurality of second polarizing elements. | 07-16-2009 |
20090190200 | OPTICAL DEVICE AND OPTICAL SYSTEM - There is provided an optical device including a plurality of polarizers that are arranged along a propagation direction of incident light, where the plurality of polarizers have transmission axes of substantially the same direction, a phaser that is provided between the plurality of polarizers, where the phaser has a retarded-phase axis forming a predetermined angle with the transmission axes of the plurality of polarizers, and a phase modulator that is provided adjacent to the phaser along the propagation direction, where the phase modulator has a retarded-phase axis of substantially the same direction as the retarded-phase axis of the phaser. Here, a phase difference generated in the incident light by the phase modulator is temporally adjusted such that the optical device transmits light in different wavelength ranges at different timings. | 07-30-2009 |
20090206240 | OPTICAL DEVICE AND OPTICAL SYSTEM - Provided is an optical device, comprising a plurality of polarizers that are arranged along a propagation direction of incident light; a first phase element that is disposed between the plurality of polarizers and that has a phase lag axis forming a prescribed angle relative to transmission axes of the polarizers arranged along the propagation direction; and a second phase element that is disposed between the first phase element and one of the polarizers arranged along the propagation direction, and that provides the incident light with a prescribed phase difference. An angle of the phase lag axis of the second phase element is adjusted such that the optical device transmits light in a prescribed wavelength region in the incident light. | 08-20-2009 |
20090244339 | IMAGE CAPTURING APPARATUS AND IMAGE CAPTURING METHOD - Provided is an image capturing apparatus comprising a plurality of first light receiving elements that are arranged on substantially the same plane and that each receive light of a first color component from a subject; a plurality of second light receiving elements that are arranged on substantially the same plane and with a higher surface density than the plurality of first light receiving elements, and that each receive light of a second color component from the subject; and a polarizing section that blocks polarized light components from the subject except for a first polarized light component so that first-polarized-light receiving elements, which are a portion of the plurality of second light receiving elements, receive the first polarized light component from the subject, the first-polarized-light receiving elements transmitting the light from the subject to be received by the plurality of first light receiving elements. | 10-01-2009 |
20090244537 | OPTICAL SYSTEM, METHOD, AND COMPUTER READABLE MEDIUM - An optical system includes a light sending section that sends light to an object having a scattering medium and a lower medium positioned below the scattering medium, where the scattering medium scatters light and the lower medium feeds back polarized light in response to light incident thereon, a light receiving section that receives (i) light that is sent from the light sending section and then scattered by the scattering medium and (ii) light from the lower medium, and a thickness calculating section that calculates a thickness of the scattering medium, by referring to at least one of a non-polarization component and a polarization component of the light received by the light receiving section. | 10-01-2009 |
20120315314 | BASE MAKEUP COSMETIC AND METHOD FOR PRODUCING THE SAME - A base makeup cosmetic satisfying the relationship expressed by the following Formula (1) and the relationship expressed by the following Formula (2) and exhibiting a hue angle of the cosmetic in a range of from 40° to 80°, wherein, when incident light falls on a light-receiving surface from a direction at −45° relative to the light-receiving surface, the light-receiving surface being a surface of a coating layer obtained by applying the base makeup cosmetic, (C*45) and (angle h*45) respectively represent the chroma (C*45) and hue angle (angle h*45) of reflected light in a specular reflection direction (a direction at)45°; and, when incident light falls on the light-receiving surface from a direction at −45° relative to the light-receiving surface, (C*0) and (angle h*0) respectively represent the chroma (C*0) and hue angle (angle h*0) of reflected light in a diffuse reflection direction (a direction at 0°). | 12-13-2012 |
20130028503 | CONDUCTIVE FILM MANUFACTURING METHOD, CONDUCTIVE FILM, AND RECORDING MEDIUM - Disclosed is a method for manufacturing a conductive film in which a mesh pattern comprising a wire material is provided on a base material. Also disclosed are a conductive film and a recording medium. Image data representing a mesh pattern is created on the basis of a plurality of selected positions. On the basis of said image data, an evaluation value which quantifies noise characteristics of the mesh pattern is computed. On the basis of the computed evaluation value and prescribed evaluation conditions, one image datum is chosen as an output image datum. | 01-31-2013 |
20130255998 | METHOD OF MANUFACTURING CONDUCTIVE SHEET, CONDUCTIVE SHEET, AND RECORDING MEDIUM - The method of manufacturing a conductive sheet of the present invention is provided with: a creation step for creating image data that indicates a meshed pattern; and an outputting step for outputting and forming wire materials on a base body on the basis of the created image data, and manufacturing a conductive sheet having the meshed pattern. The image data has, in convolution integration of a power spectrum of the image data and standard vision responsiveness of human beings, a characteristic of having each of the integration values at a spatial frequency band that is not less than 1/4 and not more than 1/2 of a Nyquist frequency corresponding to the image data to be greater than integration values at a null-space frequency. | 10-03-2013 |
20140111711 | CONDUCTIVE SHEET, TOUCH PANEL, DISPLAY DEVICE, METHOD FOR PRODUCING SAID CONDUCTIVE SHEET, AND NON-TRANSITORY RECORDING MEDIUM - The present invention pertains to: a conductive sheet, a touch panel, a display device, a method for producing the conductive sheet, and a recording medium. In the present invention, the relative refractive index of a substrate with respect to a first protective layer, and/or the relative refractive index of the substrate with respect to a second protective layer is 0.86-1.15. The relative refractive index of a first substrate with respect to the first protective layer, and/or the relative refractive index of a second substrate with respect to the second protective layer is 0.86-1.15. | 04-24-2014 |