Abstract: According to one embodiment, an apparatus includes a detector, a measuring unit, and a calculator. The detector detects a pulse wave in a temporally continuous manner. The measuring unit measures first biological information intermittently. A calculator calibrates the pulse wave based on the first biological information and calculates second biological information from the pulse wave calibrated. The detector, The measuring unit, and The calculator are arranged at a same site.

Abstract: A vehicle display control device controls display performed by a head-up display for a vehicle. The head-up display is configured to project an image on a projection member to cause a virtual image to be displayed in superimposed relation on a front view of the vehicle. The vehicle display control device determines a host vehicle situation as a road structure of a road on which a host vehicle is running, and controls to limit or not to limit a superimposed display of the virtual image with respect to a target object on which the virtual image is to be displayed in superimposed relation according to the host vehicle situation determined.

Abstract: A display control device for controlling a display position of a virtual image displayed and superimposed on a foreground in a vehicle (A), includes: an information acquisition unit for acquiring state information of the vehicle and extracting attitude change information and vibration information of the vehicle from the state information; a position correction unit for correcting a displacement of the display position of the virtual image with respect to the foreground caused by the attitude change of the vehicle, based on the attitude change information; a rough road determination unit for determining whether a road is a rough road, the road on which the vehicle is traveling or scheduled to travel, based on the vibration information; and a correction suppression unit for suppressing a correction control of the display position executed by the position correction unit and continuing to display the virtual image, based on a rough road determination.

Abstract: A biometric information measurement device intermittently measures biometric information from a living body. The device includes an attachment and detachment determining section which determines whether the device is in an attached state where the device is attached to the living body or an unattached state where the device is detached from the living body, a personal identifying section which, in the attached state, determines whether a user attached with the device is a registered user who is registered in advance and stores a result of the determination, and a storage controller which, when a determination result indicating that the user is the registered user is stored, stores information indicating the registered user while being associated with the measured biometric information. The personal identifying section deletes the determination result when a time period in which the device is determined to be in the unattached state exceeds a predetermined time period.

Abstract: With the blood pressure meter of the present invention, a pump unit is connected via a first fluid path to a fluid bladder. The first fluid path extends straight in the Z direction between the pump unit and the fluid bladder, sends air supplied from the pump unit to the fluid bladder or sends air inside of the fluid bladder to a valve.

Abstract: A fatigue degree determination device includes a fatigue degree determination unit. A first biological heart rate is acquired while a user is awake and at rest, based on a biological heart rate measured from the user. A second biological heart rate is acquired while the user is sleeping, based on the biological heart rate measured from the user. The fatigue degree determination unit determines a fatigue degree of the user, based on information read out from a storage medium, the first biological heart rate and the second biological heart rate. The storage medium stores the information in which a degree of change of one biological heart rate relative to the other biological heart rate of a biological heart rate while a person is awake and at rest and a biological heart rate while the person is sleeping and a fatigue degree are associated with each other.

Abstract: A biological information measurement device operates using a battery as a power source, and enables the continuous measurement of biological information. The biological information measurement device is provided with: a battery charge level detection unit for detecting the charge level of the battery; a measurement control unit that ends measurement of biological information when the charge level of the battery falls below a threshold value during biological information measurement; and an information output unit that, when biological information measurement has been ended by the measurement control unit, outputs, to a display unit, information indicating the length of time over which biological information was measured.

Abstract: A system control unit in the biological information measurement device generates and reports measurement efficiency information indicating measurement efficiency for biological information included in biological information calculation results information, based on biological information calculation results information and pulse wave detection results information from a storage medium storing the biological information calculation results information and the pulse wave detection results information, said biological information calculation results information being information indicating the calculation results for biological information from a biological information calculation unit that calculates biological information based on pulse waves for each pulse detected for a living body, said biological information calculation results information including at least the biological information, and said pulse wave detection results information indicating results from pulse wave detection performed for calculating b

Abstract: A biological information measurement device includes: a pulse wave detection unit that continuously detects pulse waves from a living body; a biological information calculation unit that calculates biological information based on pulse waves detected by the pulse wave detection unit and stores, in a storage medium, biological information calculation results information including said biological information; a storage control unit that stores, in the storage medium, pulse wave detection results information by the pulse wave detection unit in order to calculate biological information included in biological information calculation results information; a measurement efficiency information generation unit that generates measurement efficiency information indicating measurement efficiency for biological information included in biological information calculation results information, generating same based on the biological information calculation results information and pulse wave detection results information; and a

Abstract: A biological information measurement device includes: an information input request unit configured to request an input of identification information at each of a plurality of timings after measurement of the biological information is started; a personal identification unit configured to determine whether a user wearing the biological information measurement device is a pre-registered person in synchronization with each of the plurality of timings, based on the identification information; an identification result information generation unit configured to generate identification result information indicative of a relationship between a first number of times that the request is made by the information input request unit and a second number of times that the user is determined to be the pre-registered person by the personal identification unit; and a correctness determination unit configured to determine correctness of the biological information on the basis of the identification result information.

Abstract: A pulse wave detecting device includes a sensor section and a control unit. The sensor section is rotatable about a first axis and is rotatable about a second axis. The control unit determines a rotation angle about the second axis and a rotation angle about the first axis in a state where the sensor section is pressed against the body surface with a prescribed pressing force. After determining the optimal roll angle and the optimal pitch angle, the control unit reduces the pressing force to a reset value smaller than the prescribed pressing force and larger than zero, increases the pressing force from this state, detects a pulse wave based on pressure signals detected by pressure detecting elements during the increase, and calculates vital information based on the detected pulse wave.

Abstract: A pulse wave detecting device includes a sensor section and a control unit. The sensor section is rotatable about a first axis and is rotatable about a second axis. The control unit determines a rotation angle about the second axis based on DC components of a plurality of a pressure detecting elements included in at least one of element rows. Then, the sensor section is pressed against the body surface in a state that the sensor section is controlled in the optimal roll angle, the pulse wave is detected based on pressure signals detected from the pressure detecting elements and the vital information is calculated based on the detected pulse wave.

Abstract: A pressure pulse wave detector includes: a pressing member which includes a pressing face in which element arrays each including pressure detecting elements arranged in one direction are arranged in a direction intersecting with the one direction; a pressing mechanism which presses the pressing face against a body surface of a living body; a rotation driving mechanism which rotates the pressing face around each of two axes which are perpendicular to a pressing direction of the pressing face pressed by the pressing mechanism and include a first axis extending in the one direction and a second axis perpendicular to the one direction; a support member which supports the pressing mechanism, the rotation driving mechanism and the pressing member; a housing which houses therein the support member; and a movement mechanism which moves the support member in the one direction inside the housing.

Abstract: A pulse wave detection method includes: increasing a pressing force of a pressing member for pressing a strain sensor fixed thereto against a body surface, the flexible strain sensor having a plurality of strain detection elements arranged on a substrate; determining a deformation stop timing at which deformation of a detection face of the strain sensor has been stopped based on the strain detection signal detected by each of the plurality of strain detection elements in a pressure raising process in which the pressing force is increased; setting a level of the strain detection signal detected at the deformation stop timing as a reference level; calibrating the first strain detection signal detected after the deformation stop timing based on the reference level; and generating a pressure signal from the calibrated first strain detection signal.

Abstract: A pulse wave detector includes: a pressure pulse wave sensor that includes: sensor chips each having an element row including plural pressure detection elements arranged in one direction; a substrate to which the sensor chips are fixed; a protection member for protecting the substrate and the sensor chips; and a filling material being filled in a space between detection faces of the sensor chips on which the pressure detection elements are formed and opening sections provided in the protection member, the opening sections being disposed on a side opposite to a side of the substrate to which the sensor chips are fixed and being disposed at positions opposed to the detection faces in a vertical direction perpendicular to the detection faces, and a rotation mechanism for rotating the pressure pulse wave sensor around a direction orthogonal to each of the one direction and the vertical direction.

Abstract: A pulse wave detector includes: a sensor unit which includes a plurality of element arrays, each including pressure detecting elements arranged in one direction, the element arrays being arranged in a direction perpendicular to the one direction; a pressing part which is configured to press the sensor unit to a body surface of a living body in a state where the one direction intersects with an extension direction of an artery under the body surface; a rotation mechanism which is configured to rotate the sensor unit about a first axis extending in the one direction; and a rotation drive unit which is configured to drive the rotation mechanism. The rotation mechanism, the pressing part and the sensor unit are arranged in this order in a pressing direction of the pressing part.

Abstract: A pulse wave detecting device includes a sensor section and a control unit. The sensor section is rotatable about a first axis and is rotatable about a second axis. The control unit determines a rotation angle about the first axis based on DC components of pressure detecting elements included in element rows. Then, in a state where the sensor section is controlled to the optimal pitch angle, the sensor section is pressed against the body surface, and a pulse wave is detected based on pressure signals detected by pressure detecting elements in this state, and vital information is calculated based on the detected pulse wave.

Abstract: A cuff of a blood pressure measurement device compresses a measurement site by being wrapped therearound. A control unit evaluates the wrapping strength of the cuff, by comparing a detection amount detected based on the output of a sensor with a history of the detection amount stored in the storage unit.

Abstract: A pulse wave detector includes a body portion; a band which is wound around a wrist while the band is engaged with the body portion; a first engaging portion with which a basal end portion in a longitudinal direction of the band is engaged; a second engaging portion with which an arbitrary position in the longitudinal direction of the band is engaged while the band is folded back; and an engagement member which causes a tip end portion in the longitudinal direction of the band to be engaged with the basal end portion or the first end portion while the basal end portion and the tip end portion overlap with each other. A tip end of the tip end portion is directed from an opposed surface of the body portion to the wrist to an opposite surface of the body portion.

Abstract: A pulse wave detecting device includes a sensor section and a control unit. The sensor section is rotatable about a first axis and is rotatable about a second axis. The control unit determines a rotation angle about the first axis, and determines a rotation angle about the second axis in a state where a pitch angle of the sensor section is controlled to the optimal pitch angle. Then, in a state where the sensor section is controlled to the optimal roll angle and the optimal pitch angle, the sensor section is pressed against the body surface, and a pulse wave is detected in this state based on pressure signals detected by pressure detecting elements, and vital information is calculated based on the detected pulse wave.