A route guidance and obstacle avoidance system for the visually impaired includes a main body assembly worn around the body of the user and a headset assembly worn around the head of the user. The system incorporates obstacle avoidance technology and navigation technology to generate a 3D audio output to a user so as to generate an audible virtual environment reflective of the physical environment of the user. The assemblies include line of sight sensors, a central processing unit, a navigation module, and a camera assembly. Obstacles are detected and classified with a location and distance, and are concurrently processed with real time navigation that is adjusted to instruct not only how to get to a location but also how to avoid obstacles.

A surgery visualization theatre comprising: an augmented/extended reality (AXR) headset; a digital viewport mounted on a cobotic arm; a monitor mounted on a monitor cobotic arm; a camera subsystem mounted on a camera cobotic arm; and a frame with cobotic arms featuring intelligence and command and control for the system and visualization methodologies, where the digital viewport cobotic arm, the monitor cobotic arm, and the camera cobotic arm are mounted on the frame and the AXR headset is connected thereto.

A subretinal prosthetic device includes a substrate provided under a retina, a return electrode for receiving a current such that a ground is formed on the substrate, a plurality of stimulating electrodes provided on the substrate and for generating an active potential to an optic nerve in response to external visual information projected onto the retina, and a switch for controlling the current between each of the plurality of stimulating electrodes and the return electrode. The switch is connected between the plurality of stimulating electrodes and the return electrode to ground the plurality of stimulating electrodes to the return electrode in response to an on or off control signal.

A subretinal prosthetic device includes a substrate provided under a retina, a return electrode for receiving a current such that a ground is formed on the substrate, a plurality of stimulating electrodes provided on the substrate and for generating an active potential to an optic nerve in response to external visual information projected onto the retina, and a switch for controlling the current between each of the plurality of stimulating electrodes and the return electrode. The switch is connected between the plurality of stimulating electrodes and the return electrode to ground the plurality of stimulating electrodes to the return electrode in response to an on or off control signal.

The present invention concerns a medical device (10) intended to be worn by a human wearer, the medical device (10) defining a first area (26) and a second area (28), each area being intended to be positioned in front of a respective eye of the wearer. The medical device (10) comprises a frame (10), comprising a rear shell (34). The rear shell (34) defines a hole (54) facing the first area (26) and the rear shell (34) is opaque facing the second area (28). The medical device (10) also comprises an optical module (20) in the first area (26). The optical module (20) comprises a light source (70) and an optical system (72). The optical module (20) is arranged to send a light beam through the hole (54). The medical device (10) further comprises an electronic circuitry (18), adapted to command the optical module (20).

The present invention concerns a medical device (10) intended to be worn by a human wearer, the medical device (10) defining a first area (26) and a second area (28), each area being intended to be positioned in front of a respective eye of the wearer. The medical device (10) comprises a frame (10), comprising a rear shell (34). The rear shell (34) defines a hole (54) facing the first area (26) and the rear shell (34) is opaque facing the second area (28). The medical device (10) also comprises an optical module (20) in the first area (26). The optical module (20) comprises a light source (70) and an optical system (72). The optical module (20) is arranged to send a light beam through the hole (54). The medical device (10) further comprises an electronic circuitry (18), adapted to command the optical module (20).

A vision assistance apparatus may include an image acquisition unit configured to acquire an image by capturing the scene of the front which a user watches, a sensor unit configured to acquire sensing information on objects located in front of the user, a control unit configured to analyze the image acquired by the image acquisition unit and generate a notification signal for the front scene through an analysis result of the image and the sensing information acquired by the sensor unit, and an output unit configured to provide the user with the notification signal generated by the control unit in the form of sound.

A vision assistance apparatus may include an image acquisition unit configured to acquire an image by capturing the scene of the front which a user watches, a sensor unit configured to acquire sensing information on objects located in front of the user, a control unit configured to analyze the image acquired by the image acquisition unit and generate a notification signal for the front scene through an analysis result of the image and the sensing information acquired by the sensor unit, and an output unit configured to provide the user with the notification signal generated by the control unit in the form of sound.

An AXR headset may be used for remote telemedicine applications on the battlefield to assist generalist medical care providers on the battlefield or battlefield surgical care facility with specialist care providers though shared visualization, conversation, and data. In addition, the AXR headset for warfighters permits better target acquisition and visualization system comprising an AXR headset and a digital sight capable of being mounted on a weapon, the digital sight in communication with the AXR headset. The digital sight may be an existing weapon sight with an additional digital camera added, or the digital sight may be a sighting module of a digital nature capable of sending target information to the AXR headset.

A method for providing information to a user, preferably including: determining environmental information; determining a set of features based on the information; determining output parameters based on the features; and controlling a sensory output system to generate outputs based on the output parameters. A sensory output device, preferably including a plurality of sensory output actuators. A system for providing information to a user, preferably including one or more: sensory output devices, sensors, and computing systems.