Patent application number | Description | Published |
20110083517 | SENSOR SYSTEM - A sensor system includes a first sensing device that includes a sensor, and first and second surrounding portions that surround the sensor at least partially, a second sensing device that comprises a sensor, and first and second surrounding portions that surround the sensor at least partially, wherein at least one of a combination of shapes of the first and second surrounding portions of the respective first and second sensing devices and a combination of physical properties of the first and second surrounding portions of the respective first and second sensing devices is configured such that a detection characteristic of the first sensing device is different from a detection characteristic of the second sensing device. | 04-14-2011 |
20110152709 | MOBILE BODY CONTROL DEVICE AND MOBILE BODY CONTROL METHOD - A mobile body control device includes: a brain activity detecting unit that detects brain activity information of a user; a brain signal separating unit that separates an artifact component from the brain activity information detected by the brain activity detecting unit; a control signal generating unit that slides a sampling period for extracting brain data, at predetermined intervals in an overlapped manner in the brain activity information from which the artifact component is separated, successively calculates feature values for the brain data within each of the sampling periods obtained by sliding, and generates a control signal based on the feature values calculated; and a drive control unit that drives and controls a mobile body with a user riding thereon, based on the control signal generated. | 06-23-2011 |
20120001625 | ULTRASENSITIVE MAGNETIC SENSOR BASED ON GIANT FARADAY ROTATION - A high-resolution sensor of magnetic field sensor system and materials for use in such a system are described. The sensor systems measure a magnetic field using inorganic and/or organic magneto-optically active materials, e.g. polymer material and have an interferometer based on Faraday rotation. The polymer material is preferably in the form of a film. The polymer material has an optical property that is sensitive to the magnetic field, e.g. the Faraday rotation effect. The present invention also provides a sensor head structure comprising the above polymer material. The sensor head may be designed for use with an optical fiber or with mirrors. In particular the present invention provides a fiber Sagnac interferometer to measure the rotation of polarized plane of light. The present invention provides a fiber or mirror based Sagnac interferometer with passive phase bias applied to magnetic field sensing. This invention has the following three major aspects each being an embodiment of the present invention: 1. Sensing material: a conjugate polymer such as polythiophene and/or a polymer containing superparamagnetic nanoparticles that exhibits a giant Faraday rotation. 2. Magnetic field probe that incorporates the above polymer or polymer/nanoparticle composite, e.g. in the form of a film. 3. Sensor: The sensor combines an optical fiber-based Sagnac interferometer and the above magnetic field probe. | 01-05-2012 |
20120199921 | SENSOR DEVICE AND METHOD FOR PRODUCING SENSOR DEVICE - Provided is a technique for packaging a sensor structure having a contact sensing surface and a signal processing LSI that processes a sensor signal. The sensor structure has the contact sensing surface and sensor electrodes. The signal processing integrated circuit is embedded in a semiconductor substrate. The sensor structure and the semiconductor substrate are bonded by a bonding layer, forming a sensor device as a single chip. The sensor electrodes and the integrated circuit are sealed inside the sensor device, and the sensor electrodes and external terminals of the integrated circuit are led out to the back surface of the semiconductor substrate through a side surface of the semiconductor substrate. | 08-09-2012 |
20120243822 | GETTING-ON/OFF DETERMINATION APPARATUS AND GETTING-ON/OFF DETERMINATION METHOD - A getting-on/off determination apparatus determines rider's getting-on/off for an inverted two-wheel vehicle that travels while maintaining the inverted state. The getting-on/off determination apparatus includes an optical fiber laid in a step portion that a rider gets on/off, a light emitting unit that emits detection light and is connected to one end of the optical fiber, a light receiving unit that receives the detection light emitted from the light emitting unit and is connected to another end of the optical fiber, at least one transmitted light varying portion that varies an amount of transmitted light of the detection light passing through the optical fiber in conjunction with a vertical displacement of the step portion that occurs when the rider gets on/off the inverted two-wheel vehicle, and a determination unit that determines getting-on/off of the rider based on an amount of the detection light received by the light receiving unit. | 09-27-2012 |
20120247226 | SHEET-LIKE TACTILE SENSOR SYSTEM - Provided are multiple normal stress detection sensor units capable of detecting a normal stress, and a sheet layer portion. The sheet layer portion includes an exterior sheet layer portion, a force detection sheet layer portion incorporating normal stress detection units, and an intermediary layer sandwiched between the exterior sheet layer portion and the force detection sheet layer portion. The exterior sheet layer portion and the force detection sheet layer portion include multiple protrusions protruding in directions opposed to each other, and are disposed such that the protrusions engage each other with the intermediary layer interposed therebetween. Each normal stress detection sensor unit includes a central portion detection sensor device disposed immediately below a central portion of the protrusion provided on the force detection sheet portion, and at least two edge detection sensor devices disposed immediately below edge portions of the protrusion provided on the force detection sheet portion. | 10-04-2012 |
20120254490 | TOUCH SENSOR SYSTEM - A touch sensor system includes buses, a plurality of touch sensor devices disposed on the buses, and an information integrating device that is connected to all the buses and integrates information from the touch sensor device. The touch sensor device includes a sensor unit and a signal processing unit that transmits a sensor data signal generated by processing an analog sensor signal to the information integrating device through the bus. The signal processing unit includes a digital converting unit, a threshold evaluating unit that gives a start permission of the signal process when a sensor value exceeds a preset threshold, an ID adding unit that adds a transmitter identification number to the sensor signal, and a data transmitting unit that outputs the sensor data signal to a signal line of the bus. Fast responses are made possible without increasing the amount of data and host processing load while including many touch sensor elements. | 10-04-2012 |
20140070802 | ULTRASENSITIVE MAGNETIC SENSOR WITH MAGNETO-OPTICALLY ACTIVE MATERIAL WITH HIGH VERDET CONSTANT - A high-resolution sensor of magnetic field sensor system and materials for use in such a system are described. The sensor systems measure a magnetic field using inorganic and/or organic magneto-optically active materials, e.g. polymer material and have an interferometer based on Faraday rotation. The polymer material is preferably in the form of a film. The polymer material has an optical property that is sensitive to the magnetic field, eg the Faraday rotation effect. The present invention also provides a sensor head structure comprising the above polymer material. The sensor head may be designed for use with an optical fiber or with mirrors In particular the present invention provides a fiber Sagnac interferometer to measure the rotation of polarized plane of light. The present invention provides a fiber or mirror based Sagnac interferometer with passive phase bias applied to magnetic field sensing. | 03-13-2014 |
20150333046 | INTEGRATED DEVICE - An integrated device with high insulation tolerance is provided. A groove having an inclined side surface is provided between adjacent devices. When a side where an electronic circuit or MEMS device is mounted is a front surface, the groove becomes narrower from the front surface to a back surface because of the inclined surface. A mold material (insulating material) is disposed inside the groove, so that the plurality of devices are mechanically joined together, being electrically insulated from one another. A line member that establishes an electrical conduction between the adjacent devices is formed to lie along the side surface and the bottom surface of the groove. To lead the line out to the backside, the bottom surface of the groove has a hole, so that the line member is exposed to the backside from the hole. | 11-19-2015 |
Patent application number | Description | Published |
20080224590 | MANUFACTURING METHOD OF GAS DISCHARGE TUBE, GAS DISCHARGE TUBE, AND DISPLAY DEVICE - A gas discharge tube is manufactured by closing an opening of a glass tube by forming a glass layer with outer peripheral shape identical to the outer peripheral shape of the glass tube on an end face of the glass tube. An open end face (opening) of the glass tube is pressure-welded to a dry film containing a low melting point glass powder and a binder resin, and then the glass tube is lifted up to transfer the dry film for closing the opening to the end face of the glass tube. A phosphor support member is inserted into the glass tube from a side opposite to the end face and then an end of the phosphor support member is caused to adhere to the dry film. The binder resin is burnt off, and the dry film is vitrified to produce a low melting point glass layer. | 09-18-2008 |
20090128038 | Light-emitting discharge tube, method of fabricating the same, and protective film forming apparatus - A light-emitting discharge tube in which an outer wall surface of a glass tube is made less susceptible to flaws by forming a protective film on the outer wall surface of the glass tube, a method of fabricating the light-emitting discharge tube, and a protective film forming apparatus are provided. The light-emitting discharge tube defines light-emitting discharge regions by a plurality of external electrodes. The outer wall surface of the light-emitting discharge tube (the glass tube) is coated with the protective film (a metal film, a conductive metal oxide film, an insulating metal oxide film, or an organic film). | 05-21-2009 |
20090212013 | METHOD FOR MANUFACTURING ELECTRODE FOIL - A method of manufacturing a electrode foil composed of a valve metal layer of a first valve metal and a metal foil of a second valve metal supporting the valve metal layer, the method includes coating fine particles of the first valve metal with a resin to form composite fine particles, forming the composite fine particles into an aerosol, jetting the aerosol to the metal foil in an atmosphere under a reduced pressure, depositing the composite fine particles onto the metal foil to form a aerosol deposition layer, and removing selectively the resin from the aerosol deposition layer to form the valve metal layer. | 08-27-2009 |
20100294633 | ELECTRONIC DEVICE AND METHOD OF MANUFACTURING THE SAME - An electronic device includes a substrate, a stationary electrode provided above the substrate, a movable electrode that is provided to face the stationary electrode, a wall portion that is provided on the substrate and surrounds the movable electrode and the stationary electrode, a film member that is fixed to the wall portion and seals space including the movable electrode and the stationary electrode, and a support portion that is provided, on an inner side of the wall portion on the substrate, in addition to the movable electrode and the stationary electrode to support the film member from within the space. | 11-25-2010 |
Patent application number | Description | Published |
20090290809 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - A motion vector calculation unit | 11-26-2009 |
20100245604 | IMAGE PROCESSING DEVICE, PHOTOGRAPHING DEVICE, REPRODUCING DEVICE, INTEGRATED CIRCUIT, AND IMAGE PROCESSING METHOD - To provide an image processing device that calculates a parameter used for correcting large video jitter with high accuracy even when the accuracy of a sensor for measuring a movement of a photographing device is low. The image processing device includes: a constraint condition generating unit ( | 09-30-2010 |
20120105578 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - Both tilt information included in an image and positional information are acquired in order to calculate a relative tilt angle between at least two images. Whether the tilt information can be used to estimate the tilt angle (whether the tilt information is fake information) is determined from a distribution characteristic in the image of the acquired positional information. The tilt angle is estimated from the tilt information determined to be able to be used. A tilt included in the acquired image is corrected using the estimation result, and the image having the correct orientation can be produced. | 05-03-2012 |
20120134596 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, INTEGRATED CIRCUIT, AND PROGRAM - A picture processing device ( | 05-31-2012 |
20120229609 | THREE-DIMENSIONAL VIDEO CREATING DEVICE AND THREE-DIMENSIONAL VIDEO CREATING METHOD - A three-dimensional video creating device ( | 09-13-2012 |
20120274634 | DEPTH INFORMATION GENERATING DEVICE, DEPTH INFORMATION GENERATING METHOD, AND STEREO IMAGE CONVERTER - A depth information generating device according to the present invention includes a region extracting unit that detects a human face in at least one two-dimensional image, and based on the detected face, extracts a human figure region indicating a human figure within a region of the at least one two-dimensional image; and a depth map generating unit that gives a depth value different from a depth value of a region other than the human figure region to the human figure region to generate a depth map that separates the human figure region from the region other than the human figure region. Thereby, a depth map for displaying a 3D pop-out from which a viewer feels no unnaturalness can be generated. | 11-01-2012 |
20120281104 | PICTURE PROCESSING DEVICE, PICTURE PROCESSING METHOD, PROGRAM FOR PICTURE PROCESSING, AND IMAGING DEVICE - The picture processing device of the present invention includes: a rotational motion distance calculating unit which calculates a rotational motion distance of a second picture with respect to a first picture; a cutout picture generating unit which (i) generates a first cutout picture from the first picture, and (ii) and generates a second cutout picture from a first corrected picture, the first corrected picture being generated from the second picture whose rotational displacement amount, in a combination of directions in three axes, is corrected; a parallel motion amount calculating unit which calculates a parallel motion amount of a second cutout picture with respect to the first cutout picture; and a motion amount determining unit which determines a motion amount of the second picture with respect to the first picture. | 11-08-2012 |
20120281146 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM FOR IMAGE PROCESSING - An image processing device of the present invention includes: a motion amount estimating unit which estimates, using feature points extracted from each of a first picture and a second picture, a motion amount indicating an amount of displacement of the second picture with respect to the first picture, the second picture being captured temporally after the first picture; a determining unit which determines, using the feature points, whether or not correction is made using the motion amount estimated by the motion amount estimating unit; and a picture correcting unit which corrects the displacement of the second picture with respect to the first picture using the motion amount so as to correct the displacement between the pictures, in the case where the determining unit determines that the correction is made using the motion amount. | 11-08-2012 |
20120281922 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM FOR IMAGE PROCESSING - An image processing device including: a motion amount estimating unit estimating a first motion amount indicating a displacement amount of a second picture with respect to a first picture; an area setting unit setting an area to be used for post-processing for each of the first picture and a first corrected picture, using feature points extracted from the first picture and the second picture; a post-processing unit generating a first cutout picture from the first picture and a second cutout picture from the first corrected picture and estimating a second motion amount indicating a displacement amount of the second cutout picture with respect to the first cutout picture; and a motion amount obtaining unit obtaining a motion amount indicating a displacement amount between the first picture and the second picture, from the estimated first motion amount and the estimated second motion amount. | 11-08-2012 |
20130004079 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM THEREOF - To enhance the accuracy of image alignment performed to reduce a vertical disparity between a first image and a second image that are images of the same object captured from different viewpoints, an image processing apparatus according to an aspect of the present invention includes: a division unit which divides each of the first image and the second image into a plurality of sub-regions; and an extraction unit which performs feature point extraction on each of the sub-regions, wherein the extraction unit performs the feature point extraction in such a manner that a value indicating a degree of variation among the sub-regions in total number of extracted feature points is less than or equal to a predetermined value. | 01-03-2013 |
20130101177 | MOTION ESTIMATION APPARATUS, DEPTH ESTIMATION APPARATUS, AND MOTION ESTIMATION METHOD - A motion estimation apparatus according to an aspect of the present invention is a motion estimation apparatus for estimating, using a set of multi-focus images which correspond to a single scene and have different focuses, motion for each of the first regions included in the scene, including: a cost value computing unit configured to compute, using the set of multi-focus images, for each of the first regions, a cost value indicating a difference between a blur amount of the first region and a standard blur amount determined for each of distances in a depth direction; and a motion estimation unit configured to estimate, using the cost value, the motion of the first region corresponding to the cost value. | 04-25-2013 |
20130121537 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - This image processing apparatus is an image processing apparatus for measuring a subject distance using a plurality of captured images acquired by capturing the same subject in a plurality of imaging states in succession of time, and includes a target motion amount estimation unit that estimates a target motion amount representing an amount of shift in subject position between first and second images among the captured images, the first image being captured in a first imaging state and a second image being captured in a second imaging state different from the first imaging state, a corrected image generation unit that generates a corrected image by performing motion compensation on the second image based on the target motion amount, and an image processing unit that performs image processing such as measuring a subject distance or generating an HDR image, using the first image and the corrected image. | 05-16-2013 |
20140023292 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus is an image processing apparatus which derives an angle of inclination of an image and includes: an edge angle calculation unit which calculates a plurality of edge angles corresponding to a plurality of pixels in the image by calculating, in each of the pixels, an edge angle that is an angle of an edge; a use angle identification unit which identifies one or more use angles that are each the edge angle and are each a candidate for the angle of inclination, using the edge angles and a plurality of depth values that correspond to the pixels and each indicate a depth of a corresponding one of the pixels; and an inclination angle derivation unit which derives the angle of inclination from the one or more use angles. | 01-23-2014 |
20140049614 | IMAGE PROCESSING APPARATUS, IMAGING APPARATUS, AND IMAGE PROCESSING METHOD - An image processing apparatus includes: an image obtainment unit that obtains an image; an information obtainment unit that obtains embedment information that is to be embedded into a region within the image obtained by the image obtainment unit; a depth information obtainment unit that obtains depth information indicating a depth value of each pixel in the image obtained by the image obtainment unit; and an embedment region determination unit that determines, using the depth information, an embedment region into which the embedment information is to be embedded. | 02-20-2014 |
20140362078 | IMAGE PROCESSING DEVICE AND IMAGE PROCESSING METHOD - An image processing device includes: a data obtainment unit which obtains an input image captured from a first viewpoint, and depth information indicating a depth of a subject in the input image; a viewpoint transformation unit which generates, using the depth information, a plurality of first transformed images each of which is an image of the input image seen from a corresponding one of second viewpoints different from the first viewpoint; and a blank area analysis unit that analyzes a blank area which is included in each of the first transformed images and includes a pixel which does not have a corresponding pixel in the input image, and generate blank information which indicates, for each of the second viewpoints, a size of the blank area in the first transformed image corresponding to the second viewpoint. | 12-11-2014 |
20150332443 | IMAGE PROCESSING DEVICE, MONITORING CAMERA, AND IMAGE PROCESSING METHOD - An image processing device for correcting atmospheric turbulence in a first input image included in a video includes: a determination unit which determines an atmospheric turbulence intensity which indicates an intensity of the atmospheric turbulence; and a correction unit which corrects the atmospheric turbulence in the first input image, according to the atmospheric turbulence intensity determined by the determination unit, wherein the atmospheric turbulence intensity determined by the determination unit has a value that increases with an increase in a ratio of a total number of pixels each having a difference in pixel value between the first input image and a frame temporally preceding the first input image to a total number of edge pixels included in the first input image or the frame temporally preceding, the difference being a predetermined threshold or more. | 11-19-2015 |
Patent application number | Description | Published |
20140137670 | DYNAMIC QUANTITY SENSOR AND DYNAMIC QUANTITY SENSOR SYSTEM - A dynamic quantity sensor includes a force receiving portion, a first movable portion that rotates in a first rotational direction around a first rotational axis according to dynamic quantity in a first direction that the force receiving portion receives, and rotates in the first rotational direction around the first rotational axis according to dynamic quantity in a second direction different from the first direction that the force receiving portion receives; and a second movable portion that rotates in a second rotational direction around a second rotational axis according to the dynamic quantity in the first direction that the force receiving portion receives, and rotates in an opposite direction to the second rotational direction around the second rotational axis according to the dynamic quantity in the second direction that the force receiving portion receives. | 05-22-2014 |
20150106023 | TRAINING APPARATUS, TRAINING METHOD, AND PROGRAM - A training apparatus includes: a controller. The controller is configured to: (a) while a subject is performing a behavior, acquire time-series myoelectric potentials of each of muscles of the subject; (b) calculate a muscle synergy matrix W, a control matrix C and an error matrix E from a myoelectric potential matrix M so that the relationship M=WC+E is satisfied, row vectors each expressing the acquired time-series myoelectric potentials of a corresponding one of the muscles, m being arranged in rows in the myoelectric potential matrix, n unit column vectors being arranged in columns in the muscle synergy matrix W, n row vectors being arranged in rows in the control matrix; (c) calculate a feature quantity indicating consistency among the unit column vectors included in the calculated muscle synergy matrix W; and (d) output the calculated feature quantity. | 04-16-2015 |
20150217112 | REHABILITATION SYSTEM - A rehabilitation system that assists an action of a paretic arm due to brain damage, such as a stroke, includes: a detecting unit configured to detect an assist action that a healthy arm assists the paretic arm; an assist unit configured to cause the paretic arm to carry out bending and stretching actions; an adjustment unit configured to adjust an operation timing, operation speed, bending load or stretching load of the assist unit in response to detection of the assist action by the detecting unit; and a control unit configured to cause the assist unit to operate in accordance with the operation timing, operation speed, bending load or stretching load, adjusted by the adjustment unit. | 08-06-2015 |