Electrode array for monitoring of physiological parameters and devices including or utilizing same, the electrode array including an active electrode configured to provide an electrical signal and at least two inactive electrodes configured to collect the electrical signal transferred from the active electrode, wherein each of the at least two inactive electrodes are positioned at a different predetermined distance from the active electrode.

Disclosed herein is a system and a method for generating stress level information for an individual and stress level resilience information for an individual, which includes a stress information processing module configured to process stress information for the individual, the stress information for the individual comprising at least two of psychometric information for the individual, physiological information for the individual, behavioural information for the individual, and cognitive function information for the individual

A system for monitoring muscle activity of a biological subject, the system including at least one garment including a number of arrays of electrodes positioned on the garment so that when the garment is worn by a subject in use, the electrodes contact skin of the subject and generate electrical signals indicative of electrical potentials within respective muscles of the subject and at least one electronic processing device that processes signals from the electrodes in each electrode array to determine a muscle activation for parts of the respective muscles and uses the muscle activation to determine at least one muscle indicator indicative of muscle activity of the subject.

A system for monitoring muscle activity of a biological subject, the system including at least one garment including a number of arrays of electrodes positioned on the garment so that when the garment is worn by a subject in use, the electrodes contact skin of the subject and generate electrical signals indicative of electrical potentials within respective muscles of the subject and at least one electronic processing device that processes signals from the electrodes in each electrode array to determine a muscle activation for parts of the respective muscles and uses the muscle activation to determine at least one muscle indicator indicative of muscle activity of the subject.

Systems, methods, and devices are provided herein providing electrical muscle stimulation (EMS). In some instances, an EMS device may be provided. The EMS device may be compact, light, and unobtrusive such that it can be used by a person going about his or her daily activities. In some instances, the EMS device may comprise additional sensors for increased functionality and may be capable of interacting with additional devices or platforms to provide a full-fledged EMS device capability.

Systems, methods, and devices are provided herein providing electrical muscle stimulation (EMS). In some instances, an EMS device may be provided. The EMS device may be compact, light, and unobtrusive such that it can be used by a person going about his or her daily activities. In some instances, the EMS device may comprise additional sensors for increased functionality and may be capable of interacting with additional devices or platforms to provide a full-fledged EMS device capability.

A wearable device for tracking swim activities of a user is provided. The wearable device may include one or more sensors configured to generate sensor data, and based on the sensor data, the wearable device may determine swim metrics such as swim stroke count, swim stroke type, swim lap count, and swim speed. The determined swim metrics may be filtered based on one or more swim periods during which the user is likely to have been swimming. The wearable device may determine such swim periods based on the sensor data and/or the determined swim metrics.

A method of monitoring the status of a body of a person during sleep, said method comprising:—retaining in or adjacent the mouth or nose of said person an electronic detector which detects indications of the state of said body,—wirelessly transmitting a first data stream representing said indications to a data receiving means,—transmitting said first data stream from said data receiving means to a data processing means,—processing said first data stream within said data processing means to produce a second data stream representing said indications, or conclusion drawn from said indications, and—displaying a visual representation of said indications or conclusions.

A method of monitoring the status of a body of a person during sleep, said method comprising:—retaining in or adjacent the mouth or nose of said person an electronic detector which detects indications of the state of said body,—wirelessly transmitting a first data stream representing said indications to a data receiving means,—transmitting said first data stream from said data receiving means to a data processing means,—processing said first data stream within said data processing means to produce a second data stream representing said indications, or conclusion drawn from said indications, and—displaying a visual representation of said indications or conclusions.

A medical device assembly is disclosed. The medical device assembly includes a therapeusis delivery portion and an algometer portion. The therapeusis delivery portion includes a body having a proximal end and a distal end. The algometer portion includes a body having a proximal end and a distal end. The body of the therapeusis delivery portion defines a therapeusis-delivering passage and an algometer-receiving passage. The algometer-receiving passage may be sized to receive a portion of the algometer portion for connecting the algometer portion to the therapeusis delivery portion. A portion of medical device assembly is also disclosed. A method is also disclosed.