A vehicle seat has at least one occupant comfort actuator suited for acting on a part of the body of an occupant of the seat. The actuator is driven based on at least one measurement of one sensor of sweat from the occupant of the seat.

An autonomous control system according to an embodiment includes a memory; and processing circuitry. The processing circuitry configured to detect surrounding information of an object. The processing circuitry configured to identify identification information indicating the object from the surrounding information. The processing circuitry configured to determine an increase and decrease in stress information of a user. The processing circuitry configured to learn correction information for correcting an operation of the object, to an operation of reducing the stress of the user. The processing circuitry configured to determine a type of control relative to the object, and determine control information for specifying the operation of the object by the determined type of control, from the identification information and the correction information. The processing circuitry configured to control the object by the control information.

There is provided an information processing device to reduce the difference in way of feeling a tactile sense in accordance with a state or situation, the information processing device including: an acquisition unit configured to acquire context information concerning a state or a situation user of an external environment or context information concerning a user; and a modulation unit configured to modulate a control signal for controlling a haptics unit for presenting haptics to a predetermined part of the user on the basis of the context information having been acquired.

Methods and devices for treating and managing addiction are disclosed where an apparatus for mitigating addictive behavior may generally comprise at least two electrodes for positioning in proximity to an ulnar nerve of a body of a subject and one or more sensors configured to detect physiologic parameters which correlate to one or more symptoms indicative of addictive behavior of the subject. A pulse generator may be programmed to receive a sensor output based on the detected physiologic parameters and to apply a treatment stimulation to the ulnar nerve through a skin surface of the subject such that the addictive behavior of the subject is reduced.

Provided is a sensor patch configured to be attached to the skin of a user. The sensor patch may include: at least one opening; and a frame surrounding the at least one opening, wherein the frame may include at least one senor configured to measure a biosignal of the user. Therefore, since the at least one sensor for measuring a biosignal is provided on the frame surrounding at least one opening, it may be possible to continuously obtain a biosignal of the user for a long period of time.

Various embodiments provide systems and methods for identifying impairment using measurement devices.

A method and apparatus to detect environmental triggers of stress and antecedent physiological stress symptoms of a patient, followed up with delivery of stress relieving therapeutic response to the patient and a chronological report of events. An embodiment comprises a first device worn by the patient that contains sensors and can transmit and receive signals and a second device used by the caregiver that can transmit and receive signals. This integrated system continuously monitors environmental triggers and physiological stress indicative parameters of a patient diagnosed with autistic spectrum disorder, or other emotional or physical disorders, and compares these parameters against thresholds for the parameters. These thresholds can be configured automatically by the system—based on past episodes—or manually by the caregiver, or using automatically configured thresholds that are fine-tuned by the caregiver. When the parameters exceed the configured thresholds, several responses can be automatically generated by the system including: 1) generating therapeutic calming responses and cues to the patient to alleviate the episode, 2) sending notifications to the caregiver's device for intervention, and 3) creating a chronological assessment report of environmental stress triggers, antecedent physiological stress symptoms, and the resultant behavior of the patient.

Methods, systems, and devices are described herein for various embodiments of using a sample analysis system to analyze a sample of bodily fluid from a user to determine parameters associated with the user including states of hydration, dehydration, rehydration, electrolyte loss, wellness, recovery, and the like. In some embodiments, the methods disclosed can be implemented using a device worn by a user, and operatively coupled to a sample analysis system configured to collect a sample of bodily fluid, and measure and analyze the bodily fluid to determine a property of the bodily fluid and/or a physiological/wellness parameter (e.g., degree of hydration, electrolyte losses, perspiration rate, etc.) of the user.

A computer-implemented method or system for generating health data is provided. The method includes receiving a sensor data set measured by one or more sensors of a wearable device over an interval of time, the sensor data set indicating a time series profile of a body parameter of a user of the wearable device over the interval of time. The method also includes determining an activity type of the user matching the time series profile; and calculating a value associated with a health metric, wherein the value is calculated based on the activity type.

A wearable sensor includes: a base member which is worn on a body of a wearer; a hole-like flow passage which penetrates through the base member; a sensor part which detects a signal as to electrical characteristics of a solution inside the flow passage; and a heater which is located in the base member in such a way as to enclose the flow passage.