The present invention is directed to a device for measuring muscular fatigue through obtaining a signal generated by repetitive motions of a human body. The present invention features a system for measuring movements of one or more muscles of a body of a user in order to track muscular fatigue. The system may comprise an object. The system may further comprise a motion sensor configured to measure signals in response to a stimulation and transmit said signal to a computing device. The stimulation may comprise an action carried out repetitively over an interval of time. The motion sensor is configured to measure a progressive reduction in a signal over the repetitive motions and disposed relative to the one or more muscles of the body of the user. The computing device may be capable of measuring muscular fatigue by measuring parameters of the received signals and generating a muscular fatigue signal.

A system for generating occlusal loading is provided, including a loading appliance and a controller. The loading appliance includes three load transmission elements and three actuators. The load transmission elements are adapted to be positioned between upper and lower anterior teeth of the patient and between upper and lower posterior teeth on the left and right sides of the patient's mouth, respectively. The load transmission elements are separated from each other. The actuators are coupled to the load transmission elements, respectively. The controller is configured to control the three actuators to actuate the three load transmission elements individually and sequentially, with a rest period between successive actions of the three load transmission elements, to transmit vibration energy from the three actuators to the patient's periodontal tissues of the anterior teeth, the left posterior teeth, and the right posterior teeth.

An apparatus for measuring eyelid tension includes: a cylindrical body; a measuring sensor formed on an outer circumferential surface of the body; and a contact part formed at a longitudinal distal end of the body to come into contact with the body of a person to be measured.

A play experience system disclosed in the present invention comprises an experience device including a plurality of experience rooms and a plurality of experience instruments provided in each of the plurality of experience rooms for the user to experience the play-type; a sensor device comprising at least one or more sensors being disposed in a predetermined area of each of the plurality of experience instruments; and a processing device configured to receive body composition information and heart rate information of the user and comprehensive measurement information on physical development items of the user from the at least one or more sensors, and to obtain result information on a current level of the physical development items of the user by comparing the received comprehensive measurement information on the physical development items with pre-stored standard information on the physical development items.

The present invention concerns the field of medical technology and relates to a device for the measurement, diagnosis, and/or therapy of the strength of the human finger, hand, arm, and/or shoulder, as can for example be used to measure bending strength. The object of the invention is to specify a device with which a multi-functional measurement, diagnosis, and/or therapy of the strength of the human finger, hand, arm, and/or shoulder is possible on one device. The object is attained by a device composed at least of a base plate and force-measuring sensors, of which at least one sensor comprises a puller bolt passing therethrough and this force-measuring sensor is positioned in a stationary manner on one side of the base plate and is connected to an actuation part in a force-fit via the puller bolt, furthermore in the region of the base plate a guide for additional force-measuring sensors is present and movable auxiliary devices can also be present.

Embodiments include a system for determining cardiovascular information for a patient. The system may include at least one computer system configured to receive patient-specific data regarding a geometry of the patient's heart, and create a three-dimensional model representing at least a portion of the patient's heart based on the patient-specific data. The at least one computer system may be further configured to create a physics-based model relating to a blood flow characteristic of the patient's heart and determine a fractional flow reserve within the patient's heart based on the three-dimensional model and the physics-based model.

Embodiments include a system for determining cardiovascular information for a patient. The system may include at least one computer system configured to receive patient-specific data regarding a geometry of the patient's heart, and create a three-dimensional model representing at least a portion of the patient's heart based on the patient-specific data. The at least one computer system may be further configured to create a physics-based model relating to a blood flow characteristic of the patient's heart and determine a fractional flow reserve within the patient's heart based on the three-dimensional model and the physics-based model.

A method of measuring muscular fitness of a user using a wearable device includes determining a target resistance profile for a target movement to be performed by the user wearing the wearable device to measure muscular fitness, controlling a motor driver circuit of the wearable device based on the target resistance profile to control a resistance force to be provided to the user, measuring state information of an actual movement performed by the user under the resistance force, and measuring the muscular fitness of the user based on the state information.

The present disclosure contains embodiments of an apparatus, system and method designed to facilitate learning or efficient multitasking involving movement and solar energy where users' movement devices process or respond to different stimuli to facilitate users moving while learning, working, or participating in a simulation. In some embodiments this may be accomplished with the aid of a circular treadmill, spherical walkway, or combinable modular trackpads that may be linked to allow a user to lay the apparatus in a path suited for a plurality of environments. The embodiments of the disclosure involve the user moving while processing information and receiving feedback, assistance related to that movement, processing, or any combination thereof while combining the motion of the movement device with the feedback loop sent from sensor relays a user may receive an optimal experience for learning while moving. Some embodiments make efficient use of solar energy for classroom education management.

In one embodiment, a method for generating a message to a friend of a user is provided, comprising: processing activity data of a first user measured by an activity monitoring device to update a value of an activity metric for the first user; identifying a change in an inequality relationship between the value of the activity metric for the first user and a value of the activity metric for a second user; in response to identifying the change in the inequality relationship, prompting the first user to generate a message to the second user.