Embodiments provide physiological measurement systems, devices and methods for cardiovascular intensity measurement. In an aspect, a wearable device receives a time series of heart rate data for a user. The time series of heart rate data can be weighted and summed according to a weighting scheme. The weighted and summed time series of heart rate data can be used to generate an intensity score indicating the cardiovascular intensities experienced by the user during a desired period of time.

[Object] To provide a reproduction apparatus and a reproduction method which enable easier operation of providing a response to distributed information. [Solution] A reproduction terminal including: a reproducing unit configured to reproduce distributed information; a sensor unit configured to detect body action of a user; and a control unit configured to process operation regarding provision of a response to the distributed information on the basis of the body action detected at the sensor unit.

A super modular monitoring system is disclosed. The system may include a lattice having a plurality of intersections, and which may be formed of a flexible conductive material having a shape comprising repeating geometric patterns. The lattice of the system may serve as the primary sensor of the super modular monitoring system. The system may also include any number of secondary sensors with each being disposed at an intersection of the plurality of intersections of the lattice. The secondary sensors may be in electrical communication with the primary sensor, which may include transmission of both power and data. The system may further include a monitoring system in electrical communication with the lattice. One or more lattices of the system may be coupled together to form a super lattice. The primary and secondary sensors may transmit data simultaneously to the monitoring system for further analysis.

A blood pressure monitoring device, including a cuff assembly to connect around a limb of a user, a blood pressure monitor assembly disposed at a first side on at least a portion of the cuff assembly to detect at least one of a blood pressure level and a heart rate of the user, and a tourniquet assembly disposed on at least a portion of a second side of the blood pressure monitor assembly to at least partially decrease a diameter the tourniquet assembly around the limb of the user in a first position and at least partially increase the diameter of the tourniquet assembly around the limb of the user in a second position.

Systems and methods for operating a system to facilitate behavior management of an individual. The methods comprise: receiving, by a computing device, sensor data from at least one sensor device in proximity to the individual; processing, by the computing device, the sensor data to detect when at least a threshold probability of a given mindfulness state for the individual is indicated by at least one of a location, an activity and a physical characteristic of the individual; and causing, by the computing device, a mindfulness risk remediation event to occur when the threshold probability of the given mindfulness state for the individual is detected.

A body mass index interval estimation device including an inertial sensor and an arithmetic circuit is provided. The inertial sensor is suitable for being worn on a body part to detect and obtain first gait information of a user in a traveling state. The first gait information includes first three-axis acceleration information and first three-axis angular velocity information. The arithmetic circuit causes processed first gait information after a pre-processing to pass an identification model to generate first body mass index interval information. The identification model is created by performing a training on a sample database. The sample database includes a plurality of second gait information and a plurality of label information corresponding thereto in a one-to-one manner. Each second gait information further includes second three-axis acceleration information and second three-axis angular velocity information.

An intravaginal ejaculation latency time and vaginal clonus monitoring device has a monitoring sleeve, an integrated sensor set and a processing circuit integrated module. The integrated sensor set is located in the monitoring sleeve. The processing circuit integrated module is detachably connected with the monitoring sleeve, and has a real-time clock chip, a central processing unit, a data transmission component and a power module. The integrated sensor set, the real-time clock chip and the data transmission component are all connected with the central processing unit. The power module is used for providing a working power supply.

A Wound Moisture and Assessment System includes a flexible coupon containing one or more electrochemical moisture sensors for measuring a moisture profile of a wound. The coupon is activated by a wireless RF scanner that provides power to the coupon for taking moisture measurements, receives the moisture measurements therefrom, and transmits the measurements to a computing device. The moisture measurements can be represented as a wound moisture map that allows a patient or caregiver to assess the health and healing progress of a wound such as an ulcer.

An urethral compression apparatus is defined by a semi-cylindrical fenestrated dorsal hood that is worn dorsally on the penis and which is interconnected with a strap to a urethral compressor that is oriented ventrally to apply compressive pressure on the urethra to prevent urine leakage. The dorsal hood and the urethral compressor apply distributed pressure that prevents compromised venous and arterial circulation but eliminate incontinence. The device may be worn continually and is easily removed to allow voiding, then reattached. The fenestration in the dorsal hood (or plural fenestrations as the case may be) allows distribution of pressure to avoid venous and arterial blood flow interruption. The dorsal hood partially encircles the penile shaft and the urethral compressor is oriented ventrally and applies the desired pressure to the soft ventral tissues and the urethra. A strap applies tension between the dorsal hood and the urethral compressor, and thus the necessary compression between these two components.

A wearable device, such as a ring, is used to be worn on at least one part of a human body. A wearable device includes a body having a bottom surface and a top surface, an opening defined between the top surface and the bottom surface. The opening is used to receive therethrough and hold the at least one part of the human body. A pocket is defined in the body between the opening and the top surface for holding the camera presenting an activation button to turn on and turn off the camera. The body includes a membrane defined in the top surface of the body.