Abstract: A diseased person distinguishing device includes a temperature pattern calculation unit that calculates a temperature pattern in an exposed region of a subject on the basis of temperature data input from a body surface temperature measurement device that measures the body surface temperature of the subject, and a subject distinguishing unit that applies a learned model that has been learned in advance to the calculated temperature pattern to determine whether the subject is a diseased person or a healthy person.

Abstract: An imaging device includes an imaging terminal device having an imaging member, a controller having an operation section that operates the imaging terminal device, and a coupling portion that couples the imaging terminal device and the controller to each other in a manner in which the imaging terminal device and the controller can be detached from each other and rotated relative to each other. In the imaging device, the coupling portion is configured by an imaging-side coupling member provided in the imaging terminal device and a controller-side coupling member provided in the controller, the controller-side coupling member being fitted into the imaging-side coupling member, and at least one of the imaging-side coupling member and the controller-side coupling member is provided at a plurality of places.

Abstract: On a printed wiring board obtained by a method of manufacturing a printed board, a predetermined component is to be mounted on at least one of a front surface side and a back surface side. The manufacturing method includes preparing a CFRP core, forming a through hole so as to penetrate the CFRP core from the front surface side to the back surface side and include a region in which the component is to be mounted when viewed in a plan view, and embedding a GFRP core having insulating properties within the through hole by filling the through hole with a resin having insulating properties and curing the resin. According to the manufacturing method, the component mounted on the printed board is not affected by a stray capacitance due to a CFRP, and it is not difficult to form a circuit.

Abstract: An image capture device and method for correcting output levels thereof, made up of an image shifter for moving an image position on a light receiving surface, having a differential calculating section for calculating the differential between the output levels of pixels receiving light from the same part of an image on a light-receiving surface before and after moving the image position; an offset amount calculating section for calculating the amount of offset to the output levels of pixels in a pixel line by sequentially adding the differences in output levels in pixel lines arrayed in the direction of image position movement; and a correcting section for correcting pixel output levels by equalizing the variability in output levels between pixels in a pixel line based on the amount of pixel offset in the pixel line.

Abstract: The present invention is applied for an image capturing device having a light source and a camera that captures an image of a measurement subject placed in an optical path that lies between said camera itself and said light source. The image capturing device according to the present invention includes a control unit that subtracts a plurality of frame images captured by said camera during an OFF period of said light source from a plurality of frame images captured by said camera during an ON period of said light source, the number of frame images captured by said camera during the OFF period being the same as that number of frame images obtained by said camera during the ON period and integrates the differences between their images.

Abstract: The present invention is applied for an image capturing device having a light source and a camera that captures an image of a measurement subject placed in an optical path that lies between said camera itself and said light source. The image capturing device according to the present invention includes a control unit that subtracts a plurality of frame images captured by said camera during an OFF period of said light source from a plurality of frame images captured by said camera during an ON period of said light source, the number of frame images captured by said camera during the OFF period being the same as that number of frame images obtained by said camera during the ON period and integrates the differences between their images.

Abstract: A camera generates a light source control signal for controlling a light source to turn the light source on and off, acquires a plurality of items of first image data and a plurality of items of second image data obtained by picking up the measured wave, and transfers the plurality of items of acquired first image data and the plurality of items of acquired second image data to an external storage and processing device as digital data with an identifying number for identifying a frame in which the image data is acquired attached every frame. The external storage and processing device determines whether each frame of the digital data is an item of the first image data or an item of the second image data on the basis of the identifying number, and subtracts the plurality of items of determined second image data from the plurality of items of determined first image data to produce difference image data.

Abstract: An image capturing device for generating images with precise luminance gradation regardless of variability in output levels between pixels. The image capturing device consists of an image shifting means for moving an image position on a light receiving surface, a differential calculating section for calculating the difference between output levels of the same pixels before and after image position movement, a summed level calculating section for sequentially summing the difference in output level for each pixel in pixel lines arrayed in the direction of movement of the image position to calculate the summed level of each pixel, and an image generating section for generating images based on the summed levels of each pixel.

Abstract: Provided is an imaging system, including: a light source; an imaging device; a first optical system for irradiating an imaging object with light from the light source; a second optical system for causing one of light reflected from the imaging object and light transmitted through the imaging object to enter the imaging device; a control device for controlling the light source to irradiate the light with a predetermined period; and a processing device for acquiring time-series image data over a plurality of frames by controlling the light source to irradiate the light with the predetermined period, and allocating a maximum pixel intensity among the time-series pixel data of each pixel as pixel data of the each pixel to thereby obtain first image data when the light source irradiates the light.

Abstract: Provided is an imaging system, including: a light source; an imaging device; a first optical system for irradiating an imaging object with light from the light source; a second optical system for causing one of light reflected from the imaging object and light transmitted through the imaging object to enter the imaging device; a control device for controlling the light source to irradiate the light with a predetermined period; and a processing device for acquiring time-series image data over a plurality of frames by controlling the light source to irradiate the light with the predetermined period, and allocating a maximum pixel intensity among the time-series pixel data of each pixel as pixel data of the each pixel to thereby obtain first image data when the light source irradiates the light.

Abstract: A camera generates a light source control signal for controlling a light source to turn the light source on and off, acquires a plurality of items of first image data and a plurality of items of second image data obtained by picking up the measured wave, and transfers the plurality of items of acquired first image data and the plurality of items of acquired second image data to an external storage and processing device as digital data with an identifying number for identifying a frame in which the image data is acquired attached every frame. The external storage and processing device determines whether each frame of the digital data is an item of the first image data or an item of the second image data on the basis of the identifying number, and subtracts the plurality of items of determined second image data from the plurality of items of determined first image data to produce difference image data.

Abstract: On a printed wiring board obtained by a method of manufacturing a printed board, a predetermined component is to be mounted on at least one of a front surface side and a back surface side. The manufacturing method includes preparing a CFRP core, forming a through hole so as to penetrate the CFRP core from the front surface side to the back surface side and include a region in which the component is to be mounted when viewed in a plan view, and embedding a GFRP core having insulating properties within the through hole by filling the through hole with a resin having insulating properties and curing the resin. According to the manufacturing method, the component mounted on the printed board is not affected by a stray capacitance due to a CFRP, and it is not difficult to form a circuit.

Abstract: On adjusting a target specification data error predicted value so as to become larger on detecting maneuver of a target, the target specification data error predicted value is adjusted, in consideration of type of the maneuver and a course of the target, so as to make a direction of varying specification data large and to make a direction of constant specification data small. It is therefore possible to quickly recover a delay of the following of the varying specification data and to avoid increasing an error of the constant specification data.

Abstract: On adjusting a target specification data error predicted value so as to become larger on detecting maneuver of a target, the target specification data error predicted value is adjusted, in consideration of type of the maneuver and a course of the target, so as to make a direction of varying specification data large and to make a direction of constant specification data small. It is therefore possible to quickly recover a delay of the following of the varying specification data and to avoid increasing an error of the constant specification data.

Abstract: In a pattern inspection method, a master pattern serving as a reference and the continuous tone image of a pattern to be measured that is sensed by a camera are aligned. At least the position of a base in the continuous tone image of the pattern to be measured is detected on the basis of the master pattern. At least one threshold is set on the basis of the difference from at least the density value of the base. The continuous tone image of the pattern to be measured is binarized on the basis of the set threshold. The pattern to be measured is inspected by comparing the binarized pattern to be measured and the master pattern. A pattern inspection apparatus and alignment method are also disclosed.

Abstract: An object of this invention is to confirm the content of a defect in real time. A defect image, corresponding master pattern image, failure designation button, nondefective designation button, dust designation button, piece number, piece coordinates, and the type of defect are displayed within a defect image region in an inspection status display window. When the nondefective designation button or dust designation button is selected, the inspecting apparatus recognizes that a defect corresponding to the selected button is negligible, and changes the inspection result of this defect from the defect to a nondefective.

Abstract: A method of manufacturing a printed wiring board, enabling insertion components to be mounted on both sides thereof, including: a) providing first and second copper-clad laminates, including plated through-holes thereon; b) hot-pressing the laminates with each other and a first prepreg bonding sheet therebetween, so that the through-holes are closed by the prepreg to form non-through holes; c) laminating a second prepreg on each of the surfaces of the composite laminate; d) covering the opening of respective non-through holes with a heat resistant resin film; e) laminating one-side copper-clad laminate on each of the surfaces of the product of (d), with the copper side out, followed by hot-pressing; f) etching the copper sides to form outer layer circuit patterns; g) removing the base material layers covering the openings of the non-through holes; and h) removing the heat resistant resin films of the openings of the non-through holes.

Abstract: In a tracking apparatus for tracking an object by the use of a plurality of detecting data sets supplied from a detecting device, a velocity presuming portion is provided together with a position presuming portion. The position presuming portion finds a presumed position of the object at the latest detecting time of the detecting data sets by the use of the latest detecting time and regression curves found on the basis of the detecting data sets. The velocity presuming portion finds a presumed velocity of the object at the latest detecting time by the use of the regression curves and at least one of former detecting times different from the latest detecting time.

Abstract: A printed wiring board comprises upper and lower copper-clad laminates having circuit patterns thereon, an insulation layer provided between the two laminates, a conductive no-through hole formed on the upper surface of the upper laminate, and a conductive non-through hole formed on lower surface of the lower laminate. The non-through holes on both laminates do not penetrate the insulation layer. The non-through holes can be uses as lead mounting holes for mounting components from both front and back sides of the printed wiring board. High density mounting of insertion component having lead is attained and freedom of circuit design is increased. Manufacturing methods of the printed wiring board having non-through holes are also provided.