Abstract: A vital information measuring device includes: a flexible substrate including a functioning part which is mounted thereon; and an outer member for covering the flexible substrate. The functioning part has: a sensor section for sequentially measuring a parameter relating to certain vital information on a subject; a circuit section for performing a predetermined process with respect to a measurement signal outputted from the sensor section; a memory section for storing therein the measurement signal or measurement data after the process by the circuit section; a display section for displaying thereon certain information relating to the measurement; and a power source section for supplying a drive voltage to the respective sections of the functioning part.

Abstract: In a solar cell evaluation device 1, a spectral sensitivity P(?) of a solar cell 2, which is a measurement object, is measured in advance. When the solar cell 2 is evaluated, a spectral irradiance L (?) of illumination light is measured, generated power EL of the solar cell 2 that is generated with the illumination light is measured, and the measured generated power EL of the solar cell 2 is converted into generated power ES generated by the solar cell 2 in the case of illumination with illumination light with a spectral irradiance S(?) based on the reference solar light. Therefore, since the calibration in the solar cell evaluation device 1 is performed with software, the calibration can be performed in a simple manner and at a low cost even when the solar cell type is changed.

Abstract: A pulse wave data analyzing method includes successively detecting bottom and top peak values of pulse wave data along a time axis, calculating successive bottom-to-top amplitude values along the time axis, and comparing first and second peak-to-peak amplitude values occurring in succession along the time axis. If the ratio of the second peak-to-peak amplitude value to the first peak-to-peak amplitude value is smaller than a preset threshold, the bottom and top peak values related to the second peak-to-peak amplitude value are classified as temporarily erased data. The second peak-to-peak amplitude value is compared with a third peak-to-peak amplitude value occurring immediately thereafter and, if the ratio between the second and third peak-to-peak amplitude values is larger than the threshold, the temporarily erased data is restored. If the ratio between the second and third peak-to-peak amplitude values is not larger than the threshold, the temporarily erased data is completely erased.

Abstract: A biometric information measuring apparatus has a storage device for storing data concerning a biometric signal or biometric information derived from the biometric signal in association with position information indicating the current location of a sensor unit of the apparatus. Since the biometric information measuring apparatus provides the position information acquired when the data on the biometric signal or the biometric information was obtained, one can know the location and behavior of a subject at the time of measurement and exactly analyze the biometric information on the subject.

Abstract: A spectral characteristic measuring system includes, a data processing apparatus, and a program, which correct an illumination light variation caused by a temperature rise in a semiconductor light-emitting element due to light emission or in a scanning type color measurement system, which sequentially measures color samples 1n and in which a semiconductor light-emitting element is used as a light source. Spectral distributions of illumination lights which are measured before and after the color sample is measured are interpolated, to estimate a spectral distribution of an illumination light at the time when a spectral distribution of the color sample is obtained. Spectral characteristics of the color sample are identified based on the spectral distribution of the reflected light or the transmitted light reflected by or transmitted through the color sample and the estimated spectral distribution.

Abstract: In a color sensor unit for use in a display device, a color measuring device for use in a display device, a display system and a display calibration method of the invention, a CPU is operable to calculate a luminance value or a chromaticity value substantially equivalent to that to be obtained by a measuring device having a light receiving angle smaller than a light receiving angle of a sensor, by correcting a luminance value or a chromaticity value measured by the sensor based on gradation information from the display device.

Abstract: A fluorescence detecting apparatus includes: an excitation light emitter for emitting excitation light exciting a fluorescent material onto a measurement object; an illumination light emitter for emitting illumination light onto the measurement object; an image pickup device for sensing light from the measurement object; and a controller for controlling the image pickup device, the excitation light emitter, and the illumination light emitter. The excitation light is emitted from the excitation light emitter onto the measurement object to define an image pickup condition of the image pickup device, based on an image pickup result to be obtained by sensing light from the measurement object by the image pickup device. A light amount of the illumination light to be emitted from the illumination light emitter is set depending on the image pickup condition.

Abstract: A calibration device 21 according to the present invention is a member used for white calibration of an optical characteristic measuring apparatus 1 for measuring an optical characteristic of a specimen arranged to close a measuring opening and is used together with a spacer 24. Accordingly, such a calibration device 21 can perform more accurate white calibration by preventing formation of an interference pattern by the spacer 24.

Abstract: According to color measuring apparatus and method and a liquid crystal display system S of the present invention, intensity signals obtained by receiving radiant light from a liquid crystal color display 3 at a first viewing angle and corresponding to at least three mutually different spectral responsivities are converted into information on a plurality of primary color intensities of the liquid crystal color display 3, and the intensity signals by the first viewing angle are corrected to signal intensities by a second viewing angle. Thus, these color measuring apparatus and method are capable of a more accurate measurement even at a dark gradation. The liquid crystal display system can more accurately calibrate a display surface 3a of the liquid crystal color display 3 even at a dark gradation.

Abstract: An illumination apparatus to illuminate a sample surface with excellent illumination efficiency and a reflective characteristics measuring apparatus using the illumination apparatus. The illumination apparatus includes a plane light source positioned on a normal at a center of the sample surface and a mirror having an internal reflective surface positioned between the plane light source and the sample surface. The internal reflective surface has a circular or polygonal shape in a section perpendicular to the normal and the circular or polygonal shape substantially corresponds to an imaginary circle centered on the normal and having a radius equal to half a distance between the plane light source and the sample surface. In place of the mirror, a plurality of reflective faces may be positioned.

Abstract: An optical property measuring method and an optical property measuring apparatus according to an aspect of the invention are operable to select bi-spectral characteristics relatively close to bi-spectral characteristics of a fluorescent sample, out of multiple bi-spectral characteristics stored in advance, based on a relative ratio between excitation efficiencies of the fluorescent sample illuminated by excitation illuminations whose spectral distributions are different from each other, in calculating an optical property of the fluorescent sample. The inventive optical property measuring method and optical property measuring apparatus are advantageous in calculating an optical property of a fluorescent sample easily and with high precision.

Abstract: An optical property measurement apparatus includes: a main body which includes a plane-shape surface that is so disposed as to face the display portion; an optical sensor which receives light directed from an opening that is formed through the plane-shape surface; and a support portion which is disposed on a side of the plane-shape surface and keeps a constant distance between the display portion and the plane-shape surface; wherein a light shield portion that is so disposed as to enclose a circumferential area of the opening of the plane-shape surface and shields entrance of light from a region other than a measurement target region of the display portion when the optical property is measured.

Abstract: A vital information measuring device includes: a first light emitter for outputting light having a first wavelength; a second light emitter for outputting light having a second wavelength different from the first wavelength; a light detector for detecting the light outputted from the first light emitter and the light outputted from the second light emitter; an emission controller for controlling the first light emitter and the second light emitter to emit the respective light at sampling frequencies different from each other a detection controller for controlling the light detector to detect the light from the first light emitter and the light from second light emitter in synchronism with the emission timing of the first light emitter and the emission timing of the second light emitter, respectively; and a storage for storing therein a light detection signal outputted from the light detector as measurement data.

Abstract: A spectral characteristic measuring apparatus includes: an illuminating section for irradiating illumination light onto a sample; a spectral section for separating light from the sample irradiated with the illumination light into light rays in accordance with wavelengths; a light receiving section including a plurality of light receiving elements for receiving the light rays separated by the spectral section in accordance with wavelengths, and converting the received light rays into electrical output signals; and a storing section for storing a combined central wavelength of each of the light receiving elements calculated in advance based a spectral intensity distribution of the illumination light.

Abstract: A reflection characteristic measuring apparatus capable of scanning a specimen surface of a sheet specimen at a high speed is provided. The reflection characteristic measuring apparatus includes a group of illuminating and light-receiving systems for directing illuminating light onto the specimen surface of the sheet specimen held by a specimen holding roller pair and for receiving reflected light from the specimen surface. The illuminating and light-receiving systems measure a spectral characteristic of the received reflected light. The illuminating and light-receiving systems are disposed over one-dimensional arrays of color samples which extend in the longitudinal direction of the sheet specimen, and scan the one-dimensional arrays in a direction opposite to a direction in which the sheet specimen is transported.

Abstract: A pulse wave analyzing device is provided with a performance part for performing analyzing of a pulse wave of a living body; and a mounting member for substantially integrally mounting constituent elements of the performance part. The performance part includes: a sensor section for measuring parameters relating to the pulse wave of the living body; an A/D converter for converting a measurement signal outputted from the sensor section into a digital signal; an analysis processing section for performing a predetermined data analysis with respect to measurement data outputted from the A/D converter; and a display section for displaying predetermined information relating to the measurement. The analysis processing section has a first analysis processor for performing a pulse wave analysis at least for a first case, and a second analysis processor for performing a pulse wave analysis for a second case different from the first case based on the measurement data relating to the pulse wave.

Abstract: A method is provided for controlling display of three-dimensional data in a three-dimensional processor that processes three-dimensional data indicating three-dimensional position coordinates of each point on a surface of an object to be measured, the three-dimensional data being obtained by projecting measurement light onto the object and receiving measurement light reflected from the object. The method includes obtaining reliability data that are an index of reliability of three-dimensional data of said each point, enabling a user to adjust a threshold for defining a range of the reliability, and displaying, on a screen of a display, three-dimensional data corresponding to reliability falling within a range defined by the threshold adjusted by the user with the three-dimensional data displayed distinguishably from different three-dimensional data.

Abstract: An optical characteristic measuring apparatus of the invention includes a sequentially-readable charge storage sensor array having a plurality of light receiving elements. Irradiation of first illumination light and second illumination light is controlled in such a manner that a period for irradiating the second illumination light onto a sample containing a fluorescent material is included in an integration period of each of the light receiving elements for receiving a wavelength component of fluoresced light from the sample in measuring an optical characteristic of the sample. The optical characteristic measuring apparatus having the above arrangement enables to accurately measure the optical characteristics of samples containing a fluorescent material in a short time by scanning the samples.

Abstract: A surface profile measuring apparatus of the invention has a changing section for changing the cross section of a flux of light to be projected onto a sample by a light projecting section in measuring a surface profile of the sample. The surface profile measuring apparatus having the above arrangement enables to measure the surface profile of the sample easily and precisely, without using different kinds of measuring apparatuses.

Abstract: A light receiving optical system includes: a relay optical system for converging light to be measured which has been converged on an image plane of an objective optical system. The light receiving optical system has a relay optical system with a relay lens operable to be selectively switched between first and a second conjugate positions, and a first and a second light flux limiting aperture members selectively switched between the first and the second conjugate positions. The relay optical system selectively forms, on the image plane of the objective optical system, an enlarged image and a reduced image of a view angle defining aperture in the case where the relay lens is selectively switched between the first and the second conjugate positions to define an incident light flux through the view angle defining aperture by a first and a second light flux limiting apertures, respectively.