A skin measuring microscope includes a housing, an electronic imager disposed along an imaging axis, and an illumination system. The illumination system includes a plurality of LEDs disposed in a ring-like configuration adjacent a distal end of the housing.

The embodiments described herein provide an apparatus adapted to be coupled to the body of a user. The apparatus includes a transceiver and a processor configured to determine the user's location. The processor may make this determination based, at least in part, on a plurality of signals received via the transceiver. The processor may then determine that the user is lost and transmit, via the transceiver, a distress signal including the location of the user.

A hand-held medical device includes a housing, an electronic imager, and an optical system aligned with the electronic imager along an imaging axis of the device. An illumination system includes at least one light source for directing light towards a target of interest, as well as a display connected to the electronic imager and attached to the housing. A processor, disposed within the housing, is connected to the electronic imager, the illumination assembly and the display, and includes processing logic and data storage for storing a plurality of images.

A method for administering an exposure treatment of a cognitive behavioral therapy (CBT) uses a mobile app and a server application. A user state of a patient undergoing a first step of the CBT based on the patient's condition during the first step is detected by sensors of the patient's smartphone. A situational state of the patient's surroundings during the first step is detected by the smartphone sensors. The mobile app determines whether the patient has made progress performing the first step. A user prompt is generated based on the user state and situational state. A next step of the CBT is configured based on the user state and situational state. The characteristics of the user prompt are generated using machine learning based on past task completions by the patient and other users so as to increase the likelihood that the patient will complete the next step of the CBT.

A training apparatus has an input device and a wearable computing device with a bio-signal sensor and a display to provide an interactive virtual reality (VR) environment for a user. The bio-signal sensor receives bio-signal data from the user. The user interacts with content that is presented in the VR environment. The user interactions and bio-signal data are scored with a user state score and a performance scored. Feedback is given to the user based on the scores in furtherance of training. The feedback may update the VR environment and may trigger additional VR events to continue training.

A method, apparatus and computer program product of determining a state of a vehicle driver, the method comprising: receiving an image of the driver captured by a hyper spectral camera capable of imaging body features invisible to a human; receiving telemetry information from a car telemetry system; analyzing the image to receive at least one indicator to a clinical parameter of the driver; and fusing the at least one indicator with the telemetry information to obtain an assessment to a stress level of the driver.

A system and apparatus is disclosed for indicating a window of fertility based on the fertility awareness method (FAM).

A training apparatus has an input device and a wearable computing device with a bio-signal sensor and a display to provide an interactive virtual reality (VR) environment for a user. The bio-signal sensor receives bio-signal data from the user. The user interacts with content that is presented in the VR environment. The user interactions and bio-signal data are scored with a user state score and a performance scored. Feedback is given to the user based on the scores in furtherance of training. The feedback may update the VR environment and may trigger additional VR events to continue training.

The embodiments described herein provide an apparatus adapted to be coupled to the body of a user. The apparatus includes a transceiver and a processor configured to determine the user's location. The processor may make this determination based, at least in part, on a plurality of signals received via the transceiver. The processor may then determine that the user is lost and transmit, via the transceiver, a distress signal including the location of the user.

An apparatus may be configured for providing feedback to caregivers during a code blue scenario when adhered to the chest of a subject undergoing resuscitation by sensing and transmitting information associated with the code blue scenario. Such information may include one or more of vital signs of the subject during resuscitation, information associated with chest movements of the subject during resuscitation, and audio information from an environment of the subject during resuscitation. One or more processors may generate real-time feedback for communication to the caregivers during the code blue scenario based on the sensed and transmitted information.