The invention relates to a method and a system for determining body's readiness to respond to physical exercise and for providing feedback to a user. In the method the user starts to perform an exercise, an earlier performance level is determined before starting a performance check having steps of: an instant performance level of the user is determined, the earlier performance level is compared to the instant performance level, a readiness index is determined according to the said comparison and optionally with background and/or training history of the user, a feedback is given according to the determined readiness index.

The present disclosure is directed towards methods for calculating disease progression rates and sojourn times of solid tumors from metabolic markers and using this calculation to optimize patient-specific diagnosis, scheduling of screening procedures, and dosage or frequency of treatment.

A spoke for a wheel can include a first end, a second end, and an attachment section therebetween, the first end and the second end extend at an acute angle with respect to each other, the attachment section including a non-circular portion in cross-section.

A method and apparatus to facilitate learning while moving, efficient multitasking involving movement while the user processes or responds to different stimuli. The stimuli may include but are not limited to information related to education or entertainment or feedback concerning the user's movement. More specifically this movement may be related to coordination, exercise or physiotherapy. The methods and apparatuses of the disclosure involve the user conducting movement, while simultaneously processing with the aid of an output device, movement device and sensor relays. In this disclosure sensors monitoring a user's performance on an output device may alter the parameters of a movement device's functionality, or vice versa. In some embodiments sensor relays may be used to create a perimeter for an area where a user can exercise while using an output device without the aid of a movement device. In other embodiments an observer can adjust the devices' set points.

The invention relates to a diagnostic system for the simultaneous long-term registration of heart rate variability as well as the pressure value and/or the impedance and, if so desired, further measured values of a patient with a measuring probe system suitable for deriving data for electrocardiogram generation, a catheter for insertion into the esophagus of the patient, the catheter being provided with several measuring probes each for pressure determination and/or for impedance measurement, and, if required, further measuring probes for determining further measured values, a recording apparatus having a voltage source and a plurality of channels for the registration and recording of the measurement data originating from the measuring probes, at least one memory for time-dependent storage of the measurement data and means for data transmission from the measuring probes to the recording apparatus for use in the diagnosis of motility disorders influenced by the autonomic nervous system and the use of this system in the differential diagnosis of motility disorders.

Methods, systems and devices are provided for motion-activated display of messages on an activity monitoring device. In one embodiment, method for presenting a message on an activity monitoring device is provided, including the following method operations: storing a plurality of messages to the device; detecting a stationary state of the device; detecting a movement of the device from the stationary state; in response to detecting the movement from the stationary state, selecting one of a plurality of messages, and displaying the selected message on the device.

A technology is disclosed for indicating the fatigue of a person. It comprises: obtaining (102) a plurality of simultaneously recorded signals, wherein each signal is associated with a muscle of the person and indicates the electrical activity of the muscles in the time domain. The technology further comprises: determining (104) a set of points in time from each signal, wherein each point in time indicates a change in the state of the associated muscle, and determining (106) the measure indicating the fatigue of the person based on the set of points in time from the plurality of simultaneously recorded signals.

Methods, systems and devices are provided for motion-activated display of messages on an activity monitoring device. In one embodiment, method for presenting a message on an activity monitoring device is provided, including the following method operations: downloading a plurality of messages to the device; detecting a stationary state of the device; detecting a movement of the device from the stationary state; in response to detecting the movement from the stationary state, selecting one of a plurality of messages, and displaying the selected message on the device.

The present invention relates to a pulse diagnosis apparatus, and more particularly, to a pulse diagnosis apparatus which includes a blood flow rate sensor, continuously observes a blood flow rate change of a user, and diagnoses a pulse of the user by using a pulse model generated by using a deep neural network (DNN) and a pulse diagnosis method used in the pulse diagnosis apparatus.

A device or a system for measuring muscle signals. A system may include at least one processor, memory including computer program code, the memory and the computer program code configured to, with the at least one processor, cause the system to perform at least the following: measure a signal from a muscle to obtain a muscle activation signal; carry out at least one transform on the muscle activation signal to obtain a muscle activation spectrum; and determine a muscle state indicator from the muscle activation spectrum by using signal characteristics from a first and a second band of the muscle activation spectrum.