An example patient device includes memory configured to store a monitoring application, communication circuitry configured to communicate with at least one of a server or another device, and processing circuitry communicatively coupled to the memory and the communication circuitry. The processing circuitry is configured to receive an advertising token from the server. The processing circuitry is configured to wirelessly advertise for a connection using the advertising token. The processing circuitry is configured to, in response to the wirelessly advertising, receive patient-specific information relating to a patient associated with the patient device from the another device and configure the monitoring application to include the patient-specific information.

A sleep system including an analysis unit configured to be in data communication with a plurality of sensors, the sensors being selected from one or more sound sensors, biological sensors, environmental sensors, motion sensors, or a combination thereof.

A hands-free height measurement system includes a distance sensor configured to generate a signal indicative of a height of a user, a processor, and a memory. The memory includes instructions stored thereon, which when executed by the processor cause the hands-free height measurement system to receive a first signal, by the distance sensor, indicating a distance from the user to the hands-free height measurement system, compare the indicated distance to a stored predetermined distance from a floor to the hands-free height measurement system, and determine a height of the user based on the comparison.

A stimulating system for collaborative functions of brain and body according to this invention comprising a touch sensor which senses a user's input and transmits the detected input signals when at least one part of user's body touches at least one predefined area of the said sensor, a stimulating pattern generator which contains instruction directing a user to touch the sensor in a predefined pattern, a stimulating pattern display unit which displays the instruction corresponding to the said stimulating pattern for the user, a synergistic operation processor which processes the efficiency in the synergistic operations of brain and body and the stimulating pattern generator wherein the said synergistic operation processor is configured to receive touch data from the said touch sensor, examine a relationship between the said data and the pattern defined by the stimulating pattern generator and process such relationship in the form of a relationship score based on the predefined levels of relationship.

A patient support apparatus includes a frame, a support surface, and a sensor. The frame cooperates with the support surface to support a patient. The sensor is coupled to one of the frame and the support surface and is configured to provide an input signal indicative of a characteristic associated with the patient.

Eyewear apparatus includes dry electrophysiological electrodes and, optionally, other physiological and/or environmental sensors to measure signals such as EOG and ECG from the head of a subject. Methods of use of such apparatus to provide fitness, health, or other measured or derived, estimated, or predicted metrics are also disclosed.

An evaluation engine has two or more modules to assist a driver of a vehicle. A driver drowsiness module analyzes monitored features of the driver to recognize two or more levels of drowsiness of the driver of the vehicle. The driver drowsiness module evaluates drowsiness of the driver based on observed body language and facial analysis of the driver. The driver drowsiness module is configured to analyze live multi-modal sensor inputs from sensors against at least one of i) a trained artificial intelligence model and ii) a rules based model while the driver is driving the vehicle to produce an output comprising a driver drowsiness-level estimation. A driver assistance module provides one or more positive assistance mechanisms to the driver to return the driver to be at or above the designated level of drowsiness.

A method and an apparatus for adjusting a user emotion are provided. In one example, the method includes obtaining, by a terminal device, data that represents a physical condition of a user, where the data comprises first data, and the first data is at least one parameter value detected for the user by a wearable device connected to the terminal device. The method also includes obtaining, by the terminal device, emotion information determined based on the data and performing, by the terminal device, an operation corresponding to the emotion information.

The present invention provides methods and systems that provide for reliable, convenient, and noninvasive assessment of hydration status. The methods and apparatuses can use the temporal sequence of the aortic value opening and closing along with the user's body position to derive parameters that determine the hydration status of the user. The user can use this information to make near-term lifestyle changes that can improve physical performance, health, and general wellbeing.

A mobile device is provided. The mobile device includes a display, a front camera provided to face in a forward direction of the display, a touch sensor provided at a front side of the display, and a processor configured to acquire a photoplethysmography (PPG) signal from an image of a finger captured by the front camera in a PPG measurement mode, and output guide information that guides at least one of a position of the finger or a contact pressure with which the finger presses the front camera based on at least one of an output of the touch sensor or the image of the finger.