Described herein is an apparatus for monitoring various physiological parameters of a user. The apparatus may be in the form of a shopping cart, so as to allow a user to obtain e.g., an ECG measurement while they are using the shopping cart. The apparatus may comprise an electrode assembly including a set of electrodes to perform an electrocardiogram (ECG) by sensing an electrical signal corresponding to heart activity of a user when in contact with skin of the user and output the electrical signal. The apparatus may further include a converter assembly to convert the electrical signal to a modulated signal, and a transmitter to transmit the modulated signal. The apparatus may transmit the modulated signal to a computing device which may receive the modulated signal and determine whether the electrical signal indicates that the user is experiencing a heart condition.

A caregiver assistance system helps caregivers manage the care of patients and the beds that support the patients. The system monitors tasks associated with the patients, such as caregiver rounding tasks, bed sore assessments, and/or fall risk assessments, and forwards completed tasks to an EMR server. The system also monitors the state of the beds and determines compliance with one or more healthcare facility protocols. Over time, the system gathers data from multiple beds regarding how often the beds are in compliance with the healthcare facility protocols and produces reports of the compliance levels to assist administrators in managing their healthcare facilities. The system may further monitor how quickly caregivers responds to one or more alert conditions relating to the beds and/or patients, and generate reports for the administrators regarding such response times. In some embodiments, the system may further provide instructions to caregivers for operating features of the bed and/or compliance with healthcare facility protocols.

Early detection of infectious respiratory diseases includes monitoring, during a predetermined time interval, electronic communications generated by network-connected portable devices, each portable device used by one of a plurality of users. The electronic communications are processed by extracting from each electronic communication biomarkers obtained by processing signals captured by the portable devices, the signals generated in response to sensor-detected respiratory activity of the portable device users. Clusters of users are generated based on the biomarkers and are conditioned based on pre-condition data extracted from the electronic communications, the pre-condition data corresponding to users determined to have pre-existing health conditions. Based on context data extracted from the electronic communications, user co-locations and pre-symptomatic biomarker variation co-occurrences are determined for users who exhibit pre-symptomatic biomarker variations associated with an infectious respiratory disease. An outbreak of the infectious respiratory disease is predicted along with the likelihood of infection for individuals based on the user co-locations and pre-symptomatic biomarker variation co-occurrences.

An eyewear device that includes a frame and two arms extending distally from the frame with at least one processor included on the frame or the arms and at least two proximity sensors disposed within the frame or arms in a directional manner. The proximity sensors include an infrared signal receiver to receive an infrared emission. The processors execute an operation to warn a person wearing the eyeglasses by emitting a signal selected from a sound, light or vibration when the proximity sensor detects an infrared emission.

A device for monitoring a health parameter of a person is disclosed. The device includes a semiconductor substrate including at least one transmit component and multiple receive components, at least one transmit antenna configured to transmit millimeter range radio waves over a 3D space below the skin surface of a person, and multiple receive antennas configured to receive radio waves, the received radio waves including a reflected portion of the transmitted radio waves, wherein the semiconductor substrate includes circuits for processing signals received on the multiple receive antennas, wherein the semiconductor substrate includes at least one output configured to output a signal that corresponds to a health parameter of a person in response to received radio waves, and wherein the at least one transmit antenna is collocated with the at least one transmit component and the multiple receive antennas are collocated with respective ones of the multiple receive components.

A method to measure a cognitive load based upon ocular information of a subject includes the steps of: providing a video camera configured to record a close-up view of at least one eye of the subject; providing a computing device electronically connected to the video camera and the electronic display; recording, via the video camera, the ocular information of the at least one eye of the subject; processing, via the computing device, the ocular information to identify changes in ocular signals of the subject through the use of convolutional neural networks; evaluating, via the computing device, the changes in ocular signals from the convolutional neural networks by a machine learning algorithm; determining, via the machine learning algorithm, the cognitive load for the subject; and displaying, to the subject and/or to a supervisor, the cognitive load for the subject.

Provided are a skin disease detection system and a skin disease management method using a portable terminal. The method comprises: a step in which a health management server generates skin health standard data by matching basic skin condition information with basic skin result data; a step in which the health management server receives skin condition measurement information for a skin disease of a test subject from a user terminal; and a step in which the health management server generates health result data by comparing and analyzing the skin condition measurement information on the basis of the skin health standard data, wherein the step in which the health management server generates skin health standard data by matching basic skin condition information with basic skin result data may comprise: a step in which the health management server pre-processes an image included in basic skin photographing information included in the basic skin condition information; a step in which the health management server extracts an analysis image for each site from the pre-processed image; a step in which the health management server analyzes a characteristic distribution diagram from the analysis image for each site; and a step in which the health management server quantifies and evaluates the severity of a skin disease of the test subject by using the analyzed characteristic distribution diagram.

A non-transitory memory component including software that, upon execution by a processor, perform operations to classify an activity performed by a user. First, the software receives activity data pertaining to an activity being performed by a user. The activity data may include one or more parameters associated with the activity including steps and time. Thereafter, a step rate is calculated based on the activity data, an activity is determined based on the calculated step rate, and an effort is determined in terms of cardiovascular intensity based, at least in part, on the calculated step rate. An appropriate effort threshold of determined cardiovascular intensity is identified based on oxygen uptake threshold. After, an activity type is classified using the effort and the activity.

Devices, systems and methods are disclosed for treating seizures, such as epileptic seizures, by electrical non-invasive stimulation of a nerve, such as the vagus nerve. A stimulator comprises a contact surface, such as an electrode, for contacting an outer skin surface of a patient. The stimulator is configured for coupling to a mobile device configured to receive a wireless signal. The stimulator is configured to transmit the electrical impulse through the contact surface and the outer skin surface sufficient to modulate a nerve within a patient and to ameliorate one or more symptoms of a seizure in the patient.

The invention concerns wearable electronic devices, systems and methods for sports performance monitoring. In one embodiment, the invention provides a device comprising a heartbeat sensor for providing a heartbeat signal, a motion sensor for providing a motion signal and processing means adapted to calculate at least one performance parameter depicting said sports performance and/or the person using temporal characteristics of periodic features of the heartbeat signal compared with temporal characteristics of periodic features in the motion signal. The invention allows for utilization of an existing relation between cadence and heart rate for characterizing the performance or the person in a novel way.