In accordance with embodiments of the present disclosure, a user-platform apparatus, such as a bodyweight sensing scale, includes a heart/cardiogram sensor which is used to detect heart and vascular characteristics of a user, and provide a cardiogram output indicative of the detected cardiovascular characteristics. The cardiogram output can be used for various purposes, such as detecting arterial stiffness and/or aging.

Methods, apparatuses, and systems are provided for interacting with a user to promote engagement with a fitness monitoring device configured to measure a fitness parameter of the user, which may include determining, by one or more processors in at least one of the fitness monitoring device or a device in communication with the fitness monitoring device, that user engagements with the fitness monitoring device have occurred on multiple occasions, in which each user engagement produces at least one measurement of the fitness parameter; receiving, by the one or more processors, information indicating a level of engagement metric for the user based, at least in part, on multiple detected the multiple user engagements with the fitness monitoring device; and generating, by the one or more processors and based on the level of engagement metric, a notification containing information relating to at least a level of user engagement with the fitness monitoring device or the fitness parameter.

Methods, apparatuses, and systems are provided for interacting with a user to promote engagement with a fitness monitoring device configured to measure a fitness parameter of the user, which may include determining, by one or more processors in at least one of the fitness monitoring device or a device in communication with the fitness monitoring device, that user engagements with the fitness monitoring device have occurred on multiple occasions, in which each user engagement produces at least one measurement of the fitness parameter; receiving, by the one or more processors, information indicating a level of engagement metric for the user based, at least in part, on multiple detected the multiple user engagements with the fitness monitoring device; and generating, by the one or more processors and based on the level of engagement metric, a notification containing information relating to at least a level of user engagement with the fitness monitoring device or the fitness parameter.

A biological information monitoring system (100) configured to monitor biological information of a subject (S) on a bed (BD) includes at least one load detector (11, 12, 13, 14) provided below the bed or legs of the bed and configured to detect a load of the subject on the bed, a waveform calculation unit (31) configured to calculate a waveform indicating a temporal variation in a detected value of the at least one load detector in accordance with respiration or a heartbeat of the subject, and a biological information calculation unit (32) configured to calculate a respiration rate or a heart rate of the subject by using the waveform. The biological information calculation unit includes a first calculation unit (321) configured to calculate the respiration rate or the heart rate of the subject by a first means based on the waveform, a second calculation unit (322) configured to calculate the respiration rate or the heart rate of the subject by a second means that differs from the first means and includes normalizing the waveform, and a calculation control unit (320) configured to cause the second calculation unit to calculate the respiration rate or the heart rate when an amplitude of the waveform is a threshold value or less.

To provide a motor function evaluation device and a motor function evaluation method capable of evaluating a motor function of a subject comprehensively and easily. A motor function evaluation device 1 of the present invention includes a measurement base 11, a load measurement unit 14 that measures load change over time of the subject applied to the measurement base 11, and an arithmetic unit 24 that determines a balance ability indicator of the subject determined by the load change over time measured by the load measurement unit 14. The arithmetic unit 24 determines the balance ability indicator from a time interval from when the subject stands up and the load applied to the load measurement unit 14 is maximized until when the load variation is stabilized.

To provide a motor function evaluation device and a motor function evaluation method capable of evaluating a motor function of a subject comprehensively and easily. A motor function evaluation device 1 of the present invention includes a measurement base 11, a load measurement unit 14 that measures load change over time of the subject applied to the measurement base 11, and an arithmetic unit 24 that determines a balance ability indicator of the subject determined by the load change over time measured by the load measurement unit 14. The arithmetic unit 24 determines the balance ability indicator from a time interval from when the subject stands up and the load applied to the load measurement unit 14 is maximized until when the load variation is stabilized.

The present invention generally provides personal health management devices, and corresponding systems and methods. The personal health management device generally include an electronic controller and at least one memory device which cooperate to store at least temporarily weight management data for managing the weight of at least one user, such as a user's weight, a user's body fat percentage, exercise data, food consumption data, or a combination thereof, obtained from at least one component for obtaining such data, such as a keypad, a body fat percentage sensor for measuring a user's body fat percentage, a scale for measuring a user's weight, an exercise machine, a food scale, etc, and a communications unit for communicating the data obtained to a healthcare provider for monitoring progress with respect to a weight management program over a communications network.

A method and device for simultaneously measuring the mass and the height of a body, wherein the measurement of the body mass is carried out by measuring the deformation of at least one deformable element, during which a scale platform is lowered, and the height measurement is realized as an absolute distance measurement relative to the scale platform, so that the distance measurement is subject to an error equal to the amount by which the scale platform is lowered. The error-prone distance measurement is converted by a correction factor into a height measurement value the absolute value of which corresponds to the averaged lowering of the scale platform.

A method and device for simultaneously measuring the mass and the height of a body, wherein the measurement of the body mass is carried out by measuring the deformation of at least one deformable element, during which a scale platform is lowered, and the height measurement is realized as an absolute distance measurement relative to the scale platform, so that the distance measurement is subject to an error equal to the amount by which the scale platform is lowered. The error-prone distance measurement is converted by a correction factor into a height measurement value the absolute value of which corresponds to the averaged lowering of the scale platform.

A sheet-shaped sensor is laid on the ground on which a person can walk in a barefoot state or a barefoot-equivalent state so as to allow it to come in contact with the soles of the right foot and left foot. A feature value acquisition unit derives a feature value based on a first point positioned in an inner side of a landing portion below a metatarsal bone of the right foot or left foot, a second point positioned in an outer side thereof, and a third point positioned at a landing portion below a calcaneus bone, based on an output of the sheet-shaped sensor generated when the person stands still on the sheet-shaped sensor or when the person is walking. An authentication unit authenticates the person based on the feature value.