Patent application number | Description | Published |
20120127125 | TOUCH PANEL APPARATUS, CONTROL APPARATUS AND CONTROL METHOD - According to an embodiment, a control apparatus controls a touch panel includes a first resistive film includes a first terminal and a second terminal and a second resistive film includes a third terminal and a fourth terminal, the first and second resistive films being laid on top of each other with a gap between the resistive films. The control apparatus comprises an application unit, a measurement unit and a calculation unit. The application unit is configured to apply a voltage between the first terminal and the second terminal at a first timing. The measurement unit is configured to measure a voltage of each of the third and fourth terminals at the first timing. The calculation unit is configured to derive a positional relationship between two points at which the touch panel has been touched based on the voltages of the third and fourth terminals measured at the first timing. | 05-24-2012 |
20140285794 | MEASURING DEVICE - According to an embodiment, a measuring device includes an imaging unit to capture an object from a plurality of positions to obtain a plurality of images; a distance measuring unit to measure a distance to the object from each position to obtain a plurality of pieces of distance information; a position measuring unit to measure each position to obtain a plurality of pieces of position information; a first calculator to calculate three-dimensional data of the object using the images; a second calculator to calculate a degree of reliability of each piece of distance information and each piece of position information; and a estimating unit to, among the pieces of distance information and the pieces of position information, make use of such pieces of distance information and such pieces of position information which have the degree of reliability greater than a predetermined value to estimate the scale of the three-dimensional data. | 09-25-2014 |
20140285816 | MEASURING DEVICE, MEASURING METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a measuring device includes a projector, an image capturing unit, and a first calculator. The projector projects, onto a target, a first superimposed pattern which is obtained by superimposing a first pattern having a periodic change and a second pattern configured with a first design for specifying a period of the first pattern. The image capturing unit captures the target, onto which the first superimposed pattern is projected to obtain an image. The first calculator performs matching of the first design taken by the image capturing unit, which is included in the first superimposed pattern in the image, with the first design projected by the projecting unit, and calculates correspondence between a second superimposed pattern, which points to the first superimposed pattern captured in the image, and the first superimposed pattern. | 09-25-2014 |
20140286537 | MEASUREMENT DEVICE, MEASUREMENT METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a measurement device includes an image acquisition unit, a time acquisition unit, and first and second calculators. The image acquisition unit is configured to acquire a reference image that is of an object captured at a first viewpoint as well as a plurality of asynchronous images of the object each captured at a second viewpoint at a time different from when the reference image is captured. The time acquisition unit is configured to acquire an image capture time of the reference image and an image capture time of each asynchronous image. The first calculator is configured to calculate a difference in the image capture times between the reference image and each asynchronous image. The second calculator is configured to calculate a spatial position of the object based on the reference image, the asynchronous images, and a plurality of the differences in the image capture time. | 09-25-2014 |
Patent application number | Description | Published |
20120177293 | FEATURE EXTRACTION DEVICE - According to one embodiment, a feature extraction device includes an obtaining unit that obtains image data having a plurality of pixels. The device includes a pixel feature calculation unit that calculates first pixel features and second pixel features of each of the pixels, which are different from each other, and a classification unit that classifies a pair of pixels by using the first features for at least some of the plurality of pixels. The device includes a co-occurrence frequency calculation unit that calculates a co-occurrence frequency representing a frequency of co-occurrence of the second pixel features of the first pixel and the second pixel features of the second pixel for the set for which a result of the classification by the classification unit is consistent. | 07-12-2012 |
20120243779 | RECOGNITION DEVICE, RECOGNITION METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a recognition device includes a generation unit to select, plural times, groups each including learning samples from a storage unit, learn a classification metric for classifying the groups selected in each selection, and generate an evaluation metric including the classification metrics; a transformation unit to transform a first feature value of an image including an object into a second feature value using the evaluation metric; a calculation unit to calculate similarities of the object to categories in a table using the second feature value and reference feature values; and a registration unit to register the second feature value as the reference feature value in the table associated with the category of the object and register the first feature value as the learning sample belonging to the category of the object in the storage unit. The generation unit performs the generation again. | 09-27-2012 |
20140002448 | MEASUREMENT SUPPORT DEVICE, METHOD AND COMPUTER PROGRAM PRODUCT | 01-02-2014 |
20140098222 | AREA IDENTIFYING DEVICE, AREA IDENTIFYING METHOD, AND COMPUTER READABLE MEDIUM - According to an embodiment, an area identifying device includes a projecting unit, an image capturing unit, a calculating unit, and an identifying unit. The projecting unit is configured to project a pattern so that the pattern performs a predetermined movement. The image capturing unit is configured to capture, in sequential order, multiple images of an area on which the pattern is projected, the image having a plurality of areas. The calculating unit is configured to calculate an amount of change of pattern appearances for each region in the multiple images. The identifying unit is configured to identify, as a reflective area, at least one area having a different amount of change of the pattern appearances from a reference amount of change of the pattern appearances based on the predetermined movement, among the amounts of change of the pattern appearances that are calculated by the calculating unit. | 04-10-2014 |
20140100814 | MEASURING DEVICE, MEASURING METHOD, AND COMPUTER READABLE MEDIUM - According to an embodiment, a measuring device includes a generating unit, an updating unit, and a calculating unit. The generating unit is configured to generate first position and orientation of an observing unit for observing a space containing a target object, an error model indicating a theoretical precision of observation, and three-dimensional shape data of the target object. The updating unit is configured to update space information that indicates a probability of the presence of the target object at each coordinate within the space, using the first position and the three-dimensional shape data. The calculating unit is configured to calculate a measurement quality increment for second position and orientation of a search area within the space using the error model and the space information, and set third position and orientation for which the calculated measurement quality increment satisfies a predetermined condition as new position and orientation, respectively. | 04-10-2014 |
20140104386 | OBSERVATION SUPPORT DEVICE, OBSERVATION SUPPORT METHOD AND COMPUTER PROGRAM PRODUCT - According to an embodiment, an observation support device includes an acquiring unit, a determining unit, and a generating unit. The acquiring unit is configured to acquire observation information capable of identifying an observing direction vector indicating an observing direction of an observing unit that observes an object for which a three-dimensional model is to be generated. The determining unit is configured to determine whether or not observation of the object in a direction indicated by an observed direction vector in which at least part of the object can be observed is completed based on a degree of coincidence of the observing direction vector and the observed direction vector. The generating unit is configured to generate completion information indicating whether or not observation of the object in the direction indicated by the observed direction vector is completed. | 04-17-2014 |
20140111097 | IDENTIFICATION DEVICE, METHOD AND COMPUTER PROGRAM PRODUCT - According to an embodiment, an identification device includes a controller, an acquiring unit, and an identifying unit. The controller controls turning on/off of a plurality of light emitting apparatuses via a network individually by using pieces of identification information of their respective light emitting apparatuses. The acquiring unit acquires images of the light emitting apparatuses in time-series. The identifying unit determines an installation position of each of the light emitting apparatuses by using the on/off control on the light emitting apparatuses and the images, and identifies each of the light emitting apparatuses determined by the installation positions corresponding to each of the light emitting apparatuses identified by the pieces of identification information with each other. | 04-24-2014 |
20140132600 | THREE-DIMENSIONAL MODEL GENERATING DEVICE - An example three-dimensional model generating device includes an emitting unit that emits a laser light and a first deflector that deflects laser light, whose emission direction rotates in a first rotation range, within a first scan plane. A second deflector deflects laser light, whose emission direction rotates in a second rotation range, within a second scan plane intersecting with the first scan plane. The detector detects a reflected light when laser light deflected from the first deflector is reflected from the target object or detects a reflected light when laser light deflected from the second deflector is reflected from the target object. The measuring unit measures a distance to the target object on the basis of the time taken since emission of the laser light to detection of the reflected light. The generating unit generates a three-dimensional model of the target object by using the measurement result. | 05-15-2014 |
20140132759 | MEASURING DEVICE, METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a measuring device includes a measuring unit, a capturing unit, an estimation unit, a calculator, and a detector. The estimation unit estimates, for each irradiated point, an estimated projection position on the image, using a direction and a distance of the irradiated point and calibration information based on calibration of a measuring unit and a capturing unit. The calculator calculates, for each irradiated point, an amount of change in reflection intensity and obtains a reflection intensity change point. The calculator calculates, for each estimated projection position, an amount of change in brightness and obtains a brightness change point. The detector detects a calibration shift between the measuring unit and the capturing unit by comparing the reflection intensity change point and the brightness change point. | 05-15-2014 |
20140177950 | RECOGNITION DEVICE, METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a recognition device includes a storage unit, an acquiring unit, a first calculator, a second calculator, a determining unit, and an output unit. The storage unit stores multiple training patterns each belonging to any one of multiple categories. The acquiring unit acquires a recognition target pattern to be recognized. The first calculator calculates, for each of the categories, a distance histogram representing distribution of the number of training patterns belonging to the category with respect to distances between the recognition target pattern and the training patterns belonging to the category. The second calculator analyzes the distance histogram of each of the categories to calculate confidence of the category. The determining unit determines a category of the recognition target pattern from the multiple categories by using the confidences. The output unit outputs the category of the recognition target pattern. | 06-26-2014 |
20160068984 | ZINC-NICKEL ALLOY PLATING SOLUTION AND PLATING METHOD - To provide a high-nickel plating bath which is weakly acidic and can stably form a plating film having a nickel content of 11 to 19% (preferably 12 to 18%) even at a current density of 3 A/dm | 03-10-2016 |
Patent application number | Description | Published |
20120249897 | ELECTROOPTIC DEVICE, PROJECTION DISPLAY DEVICE, AND ELECTRONIC DEVICE - When electrically connecting a second electrode layer and a pixel electrode through a plug electrode provided in a hole of an interlayer insulation film, the plug electrode is formed in such a manner as to fill the contact hole formed in the first insulation film, and then a second insulation film is formed. Then, the second insulation film is polished from the surface side to expose the plug electrode, and thereafter a pixel electrode is formed on the surface side of the second insulation film. | 10-04-2012 |
20120249905 | ELECTRO-OPTICAL DEVICE, PROJECTION-TYPE DISPLAY DEVICE, AND ELECTRONIC APPARATUS - An electro-optical device includes a substrate; a translucent pixel electrode installed at one side of the substrate; and a storage capacitor which is installed between the pixel electrode and the substrate, and in which a translucent first electrode layer overlapping with the pixel electrode in a plane view, a translucent second electrode layer electrically connected to the pixel electrode, and a translucent dielectric layer interposed between the first electrode layer and the second electrode layer are laminated. | 10-04-2012 |
20130021540 | ELECTRO-OPTIC DEVICE, METHOD OF PRODUCING ELECTRO-OPTIC DEVICE, AND PROJECTION TYPE DISPLAY APPARATUS - An electro-optic device is provided. In the electro-optic device, when a groove is sealed to be hollow, a sacrificial film is formed in the groove before forming a first sealing film, the first sealing film is formed, and then the sacrificial film is removed through a penetration portion of the first sealing film. A second sealing film is formed on the first sealing film, and the penetration portion of the first sealing film is blocked by the second sealing film. For this reason, it is possible to form the first sealing film to block an opening portion of the groove, and it is possible to prevent the first sealing film from being formed up to the inside of the groove. | 01-24-2013 |
20130021541 | ELECTRO-OPTIC DEVICE AND PROJECTION TYPE DISPLAY APPARATUS - An electro-optic device includes a substrate body (transparent substrate) of a second substrate. The substrate body is provided with a first groove opened to a space (inter-pixel area) between pixel electrodes adjacent to each other. A transparent film is formed on one side face of the substrate body and side faces of the first groove, a second groove deeper than the first groove narrower than the first groove is formed at an area overlapped with the first groove in plan view in the transparent film. For this reason, light which tends to be directed to the inter-pixel area is directed to the pixel electrodes using the side faces of the second groove as reflection faces. | 01-24-2013 |
20130021542 | ELECTRO-OPTICAL DEVICE, PROJECTION-TYPE DISPLAY DEVICE, ELECTRONIC DEVICE, AND MANUFACTURING METHOD OF THE ELECTRO-OPTICAL DEVICE - In the electro-optical device, a pillar-shaped protrusion is formed on an insulating film (a first insulating film) provided below a pixel electrode in the downward direction, and thus a conduction section of a second electrode layer (a conductive layer) overlaps the highest surface of the pillar-shaped protrusion. An inter-layer insulating film (a second insulating film) is provided between the second electrode layer and the pixel electrode, but the conduction section is exposed on a surface of the inter-layer insulating film. For this reason, the pixel electrode is electrically connected to the conduction section, when the pixel electrode is laminated on the inter-layer insulating film. | 01-24-2013 |
20130021555 | ELECTRO-OPTICAL DEVICE AND ELECTRONIC APPARATUS - A liquid crystal device as an electro-optical device of a present application example includes an element substrate, a translucent pixel electrode disposed on the pixel, a storage capacitor which is provided between the element substrate and the pixel electrode and has a pair of translucent electrodes disposed to face each other through a dielectric layer, and a third interlayer insulator film provided between the storage capacitor and the pixel electrode, and each of film thicknesses of the pixel electrode, a first electrode and a second electrode as the pair of translucent electrodes and the third interlayer insulator film are set so that a spectral distribution of light which transmits the pixel has peak transmittances corresponding to each of wavelength ranges of at least red, green and blue. | 01-24-2013 |
20130077003 | ELECTRO-OPTICAL APPARATUS, AND ELECTRONIC APPARATUS - Provided is an electro-optical apparatus that includes a first insulation layer, a retention capacitance region including a plurality of retention capacitances disposed on the first insulation layer, a second insulation layer formed so as to cover the first insulation layer and the plurality of retention capacitances, and a plurality of pixel electrodes arranged on the second insulation layer so as to respectively overlap a corresponding one of the plurality of retention capacitances in a plan view. The first insulation layer includes a recessed portion formed in a region including the retention capacitance region, and the retention capacitances are provided on a bottom face of the recessed portion. | 03-28-2013 |
20140203285 | ELECTROOPTIC DEVICE SUBSTRATE, ELECTROOPTIC DEVICE, AND ELECTRONIC APPARATUS - An electrooptic device substrate includes a scan line that is provided on an element substrate, a foundation insulating layer, a semiconductor layer provided on the foundation insulating layer, a gate insulating layer, recesses that are provided at both sides of the semiconductor layer so as to penetrate through the foundation insulating layer and the gate insulating layer, a gate electrode that is provided on the gate insulating layer and is electrically connected to the scan line in the recesses, an insulating interlayer that covers the gate insulating layer, the gate electrode, and the recesses, and a data line that is provided on the insulating interlayer so as to overlap with the scan line, the semiconductor layer, the gate electrode, and the recesses. The recesses include first recesses that overlap with the scan line and second recesses that extend to outer sides of the scan line. | 07-24-2014 |
20140300982 | ELECTRO-OPTICAL DEVICE, ELECTRONIC APPARATUS, AND MANUFACTURING METHOD FOR ELECTRO-OPTICAL DEVICE - An electro-optical device that includes an opposing substrate main section which has a groove on a front surface side thereof, a first insulation film which is so disposed as to cover the front surface and part of which keeps a distance from slopes of the groove, a light blocking film disposed in the circumference of the pixel region, a second insulation film disposed so as to cover the first insulation film, a hole penetrating the first insulation film and the second insulation film, and a third insulation film which is disposed so as to cover the second insulation film and to close the hole. | 10-09-2014 |
20150293395 | ELECTRO-OPTICAL DEVICE AND ELECTRONIC APPARATUS - A liquid crystal device comprises a first substrate, a second substrate, an insulating film, and a first, second, and third translucent electrode. The second substrate is disposed facing the first substrate. The first translucent electrode is disposed between the second substrate and the first substrate. The second translucent electrode is disposed between the first translucent electrode and the first substrate. The insulating film is disposed between the second translucent electrode and the first substrate. The third translucent electrode is disposed between the insulating film and the first substrate. | 10-15-2015 |
20150323828 | ELECTRO-OPTICAL DEVICE, PROJECTION-TYPE DISPLAY DEVICE, ELECTRONIC DEVICE, AND MANUFACTURING METHOD OF THE ELECTRO-OPTICAL DEVICE - In the electro-optical device, a pillar-shaped protrusion is formed on an insulating film (a first insulating film) provided below a pixel electrode in the downward direction, and thus a conduction section of a second electrode layer (a conductive layer) overlaps the highest surface of the pillar-shaped protrusion. An inter-layer insulating film (a second insulating film) is provided between the second electrode layer and the pixel electrode, but the conduction section is exposed on a surface of the inter-layer insulating film. For this reason, the pixel electrode is electrically connected to the conduction section, when the pixel electrode is laminated on the inter-layer insulating film. | 11-12-2015 |
20150378209 | SUBSTRATE FOR ELECTRO-OPTICAL DEVICE, ELECTRO-OPTICAL DEVICE, ELECTRONIC EQUIPMENT, AND METHOD FOR MANUFACTURING SUBSTRATE FOR ELECTRO-OPTICAL DEVICE - A substrate for an electro-optical device includes a substrate main body | 12-31-2015 |
Patent application number | Description | Published |
20140009899 | WIRING SUBSTRATE - A wiring substrate includes an insulating layer, an upper wiring pattern, and a lower wiring pattern, the wiring patterns sandwiching the insulating layer. The lower wiring pattern includes an interlayer connecting conductor integral therewith and projecting toward the upper wiring pattern for electrical connection to the upper wiring pattern. The interlayer connecting conductor is joined to the upper wiring pattern so as to penetrate into the upper wiring pattern beyond a joining interface between the insulating layer and the upper wiring pattern. Thus, the wiring substrate adaptable for a large current is provided without causing degradation of reliability in connection, which may occur by cracking, disconnection, interlayer peeling-off, etc. | 01-09-2014 |
20140022750 | CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - A circuit board includes an insulating layer with a surface on which a semiconductor element is to be mounted and wiring portions that are located on the insulating layer. The wiring portions includes upper wiring portions, lower wiring portions, and interlayer wiring portions. The upper wiring portions, the lower wiring portions, and the interlayer wiring portions are integrally defined by a single copper sheet. With this configuration, a circuit board capable of withstanding a large current and a method of manufacturing the circuit board are provided. | 01-23-2014 |
20140118977 | WIRING BOARD - A wiring board includes an insulating layer, and an upper wiring pattern and a lower wiring pattern arranged with the insulating layer interposed therebetween. A truncated cone-shaped projection is integral with the lower wiring pattern so as to project at the upper wiring pattern side, and a truncated cone-shaped projection is integral with the upper wiring pattern so as to project at the lower wiring pattern side. Bonding end portions of the projections are bonded to each other to form an inter-layer connection conductor. The inter-layer connection conductor conducts the upper wiring pattern and the lower wiring pattern. | 05-01-2014 |
Patent application number | Description | Published |
20150085273 | MEASUREMENT SUPPORT DEVICE, MEASUREMENT SUPPORTING METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a first calculator, a second calculator, a determination unit, and an informing controller. The first calculator is configured to calculate a projection position on which the point is projected on each image obtained by an image-capturing unit, by using a direction, a first distance from a measurement unit to an irradiated point of an object, and calibration information between both units. The second calculator is configured to calculate a set of reprojection positions by reprojecting a three-dimensional position on each image. The determination unit is configured to extract, from the set, a reprojection position on an image containing the projection position calculated from the point measured and captured within a certain time period, and calculate a second distance between the reprojection and projection positions. The informing controller is configured to prompt to irradiate the object in a direction in which the second distance decreases. | 03-26-2015 |
20150234782 | CALCULATION DEVICE AND METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a calculation device includes an acquisition unit, an extractor, a calculator, and an output unit. The acquisition unit acquires point cloud data that is a set of points representing a shape of an object. The extractor extracts a focus point from the point cloud data. The calculator calculates a distance between the focus point and each of one or more neighboring points located in the vicinity of the focus point, calculates relation information which represents a relationship, not the distance, between the focus point and each of the one or more neighboring points, calculates a co-occurrence frequency between the distance and the relation information for the one or more neighboring points, and determines the co-occurrence frequency as a descriptor of the focus point. The output unit outputs the descriptor. | 08-20-2015 |
20150269123 | DIMENSION REDUCTION APPARATUS, DIMENSION REDUCTION METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a dimension reduction apparatus includes an obtaining device to obtain a first vector made up of elements; a generator to generate first partial vectors each made up of one or more elements of the elements; a first mapping controller to transform each first partial vector into a second partial vector by reducing number of elements constituting the first partial vector using first mapping corresponding to the first partial vector, concatenate the second partial vectors, and generate a second vector by reducing number of dimensions of the first vector; and a second mapping controller to apply, to the second vector, second mapping which maps the second vector into a space having number of dimensions not larger than that of the second vector, and generate a third vector by reducing the number of dimensions of the second vector to not larger than that of the second vector. | 09-24-2015 |
20150269454 | EXTRACTION DEVICE, METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, an extraction device includes an acquisition unit, a first calculator, a first extractor, and an output unit. The acquisition unit acquires point group data that are a set of points including three-dimensional coordinates on a surface of an object and normal vectors perpendicular to the surface of the object at the three-dimensional coordinates. The first calculator calculates, using the normal vectors of the respective points of the point group data, a normal space point density representing a density of points of the point group data in a normal space defined by axes that are parameters expressing the normal vectors. The first extractor extracts, from the point group data, one or more points at which the normal space point densities satisfy a predetermined condition of lowness. The output unit outputs the extracted one or more points. | 09-24-2015 |
20150310296 | FOREGROUND REGION EXTRACTION DEVICE - According to one embodiment, a foreground region extraction device includes a processor and a detector. The processor acquires information of first distances at a first time between a first position and a first region. The processor acquires information of second distances at a second time between a second position and a second region. The processor derives a first image of the first region projected onto a first plane based on the first distances, and calculates a first feature based on the first image. The processor derives a second image of the second region projected on to a second plane based on the second distances and a relative arrangement of the first position and the second position and calculates a second feature based on the second image. The detector detects a moving body based on the first feature and the second feature. | 10-29-2015 |
Patent application number | Description | Published |
20150363667 | RECOGNITION DEVICE AND METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a recognition device includes a memory to store therein learning patterns each belonging to one of categories; an obtaining unit to obtain a recognition target pattern; a first calculating unit to calculate, for each category, a distance histogram representing distribution of the number of learning patterns belonging to the categories with respect to distances between the recognition target pattern and the learning patterns belonging to the categories; a second calculating unit to analyze the distance histogram of each category, and calculate a feature value of the recognition target pattern; a third calculating unit to make use of the feature value and one or more classifiers, and calculate degrees of reliability of the recognition target categories; and a determining unit to make use of the degrees of reliability and, from among the one or more recognition target categories, determine a category of the recognition target pattern. | 12-17-2015 |
20160105645 | IDENTIFICATION DEVICE, METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, an identification device includes a light emission controller, an image capturing controller, a detector, a position calculator, and an identification unit. The light emission controller individually controls lighting on/off of light-emitting instruments via a network. The image capturing controller controls capturing devices by using identification information of the image capturing devices, and obtains an image sequence captured by each image capturing device. The detector detects, for each image sequence, one or more regions varying in conjunction with lighting on/off of the light-emitting instruments. The position calculator calculates, for each image sequence, a position of the image capturing device that captures the image sequence by using a position of the light-emitting instrument performing lighting on/off causing each region. The identification unit identifies each image capturing device specified by the calculated position and each image capturing device specified by the identification information. | 04-14-2016 |
20160132463 | COMPUTING APPARATUS, COMPUTING METHOD, AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a computing apparatus includes a memory, and a processor. The memory stores N first vectors in a d-dimensional binary vector space consisting of binary values. The processor acquires a second vector in the d-dimensional binary vector space. The processor extracts M first vectors having a distance from the second vector satisfying a first condition out of the N first vectors, and calculate a distribution of distances of the M first vectors from the second vector. The processor acquires a first kernel function per a first distance between the M first vectors and the second vector in a first range. The processor generates a second kernel function based on the distribution and the first kernel functions. The processor calculates an occurrence probability of the second vector in the N first vectors based on the second kernel function. | 05-12-2016 |