The present invention is both a device and a method for verifying a subject's identity while using a medical device or undergoing a medical diagnostic or therapeutic procedure, particularly at home or at a remote location. The method and device can be used for inpatient and remote sleep and signal analysis with biometric identification. The present invention is further related to the devices and sensors used in executing the method, and includes various embodiments of a method of inpatient and remote sleep analysis.

An electronic device is disclosed. The electronic device identifies a user on the basis of: a biological signal input unit for receiving the input of a user's biological signal detected through an electrode; a voice input unit for receiving the input of a voice signal; a biological signal inputted through the biological signal input unit; and a voice signal inputted through a microphone.

An electronic device is disclosed. The electronic device identifies a user on the basis of: a biological signal input unit for receiving the input of a user's biological signal detected through an electrode; a voice input unit for receiving the input of a voice signal; a biological signal inputted through the biological signal input unit; and a voice signal inputted through a microphone.

Various embodiments of a hearing device and a method of forming such device are disclosed. The device includes a housing adapted to be worn on or behind an ear of a wearer and includes a housing body and a top plate connected to the housing body. The hearing device further includes a sensor disposed on at least one of a first side surface and a second side surface of the housing body. The sensor is adapted to be in contact with either a pinna or a skull of the wearer. The sensor is further adapted to detect a physiological characteristic of the wearer and generate a sensor signal based on the physiological characteristic.

Various embodiments of a hearing device and a method of forming such device are disclosed. The device includes a housing adapted to be worn on or behind an ear of a wearer and includes a housing body and a top plate connected to the housing body. The hearing device further includes a sensor disposed on at least one of a first side surface and a second side surface of the housing body. The sensor is adapted to be in contact with either a pinna or a skull of the wearer. The sensor is further adapted to detect a physiological characteristic of the wearer and generate a sensor signal based on the physiological characteristic.

The wearable device (10) comprises a liveness detection module (103) arranged to detect whether the wearable device (10) is being worn by a user. The wearable device (10) comprises an activation message module (105) arranged to generate an activation message for requesting that wireless network services be activated for the wearable device (10) in response to the liveness detection module detecting that the wearable device is being worn. The wearable device (10) comprises a communicator (107) arranged to transmit the activation message to a server operable to activate wireless network services for the wearable device (10). The wireless network services are to be activated for a first wireless network. The communicator (107) is arranged to transmit the activation message via a second wireless network that the wearable device (10) is activated to transmit data on.

The described embodiments relate to a self-regulating patch for taking biopotential measurements and balancing accurate measurements and user comfort. The self-regulating patch including: a heating element operable to generate heat that causes formation of sweat at the skin surface; a biopotential sensor; an exterior surface constructed of a moisture wicking material enveloping the heating element; and a logic to concurrently activate the biopotential sensor and transition the self-regulating patch between a plurality of modes, including a comfort mode and an accuracy mode, where in the comfort mode the heating element is inactive and in the accuracy mode the heating element is active.

A system for monitoring the cardiopulmonary functioning of a person includes a remote terminal and a sensor module configured to be worn by the person. The sensor module includes at least one physiological sensor configured to sense the following types of physiological information generated by the person: pulse rate, blood flow, and blood pressure; at least one signal processor configured to process signals generated by the at least one physiological sensor; and at least one transmitter responsive to the at least one signal processor that is configured to transmit at least one signal to the at least one remote terminal. The at least one signal processor is configured to focus processing resources on one of the types of physiological information in response to a specified preference by the person.

A system for monitoring the cardiopulmonary functioning of a person includes a remote terminal and a sensor module configured to be worn by the person. The sensor module includes at least one physiological sensor configured to sense the following types of physiological information generated by the person: pulse rate, blood flow, and blood pressure; at least one signal processor configured to process signals generated by the at least one physiological sensor; and at least one transmitter responsive to the at least one signal processor that is configured to transmit at least one signal to the at least one remote terminal. The at least one signal processor is configured to focus processing resources on one of the types of physiological information in response to a specified preference by the person.

Wearable apparatus for monitoring various physiological and environmental factors are provided. Real-time, noninvasive health and environmental monitors include a plurality of compact sensors integrated within small, low-profile devices, such as earpiece modules. Physiological and environmental data is collected and wirelessly transmitted into a wireless network, where the data is stored and/or processed.