A system and method designed to encourage entrainment of brain waves with a therapeutic wave of a predetermined frequency. The system uses antennae to emit a modulated high frequency carrier signal that carries the therapeutic signal. The system can be utilized in modification of brainwave frequencies in a local or global scale and/or in establishing coherence between different cortical regions. The system can be utilized in treatment of individuals suffering from mental disorders and can be utilized to enhance/improve function in otherwise mentally healthy individuals.

The present disclosure pertains to a rotationally triply symmetric three axis magnetic antenna system having substantial isolation among the three axes, including a three axis skew orthogonal magnetic antenna system and device utilizing the antenna system. The antenna system comprising three substantially identical magnetic antenna elements disposed symmetrically about a reference point such that the magnetic axes from the three antenna elements are orthogonal to one another in direction and do not intersect one another. The three antenna elements are positioned in a substantial cross coupling null from one another to minimize cross coupling. The arrangement yields packaging efficiency for compact electronic devices. A 1, 1, diameter embodiment is disclosed. A location system utilizing the antenna system is disclosed. Methods for producing the antenna are disclosed. A moldable triple coil holder for the antenna system is described.

The present invention describes multilayered adhesive structures that can be used as adhesives to mount wearable devices onto the skin. The multilayered adhesive structures can comprise a buffer layer sandwiched between two adhesive layers, a first adhesive layer adhering the multilayered adhesive structure to the wearable device and a second adhesive layer adhering the buffer layer to the skin. The buffer layer separates or isolates the wearable device from the skin. By mechanically buffering the wearable device from the skin, the multilayered adhesive structures permit the devices to be skin-mounted for an extended period of time (e.g., a few hours or days) without causing moisture-associated skin injuries such as erythema, maceration, and irritation or inflammation.

The present invention describes multilayered adhesive structures that can be used as adhesives to mount wearable devices onto the skin. The multilayered adhesive structures can comprise a buffer layer sandwiched between two adhesive layers, a first adhesive layer adhering the multilayered adhesive structure to the wearable device and a second adhesive layer adhering the buffer layer to the skin. The buffer layer separates or isolates the wearable device from the skin. By mechanically buffering the wearable device from the skin, the multilayered adhesive structures permit the devices to be skin-mounted for an extended period of time (e.g., a few hours or days) without causing moisture-associated skin injuries such as erythema, maceration, and irritation or inflammation.

A transparent article is prepared with a transparent polymeric film and an electrically-conductive, metal-containing pattern disposed over a surface of the transparent polymeric film. Such pattern has, in order outwardly from a surface of the transparent polymeric film: a metallic pattern having a first surface facing the transparent polymeric film and an opposing second surface; and a pattern of a catalytic ink disposed over at least a portion of the opposing second surface. Such articles can be prepared by A-1) providing a pattern of a catalytic ink on the surface of the first substrate; A-2) curing the catalytic ink pattern sufficient to form a cured catalytic ink pattern; A-3) electrolessly plating a metal onto the cured catalytic ink pattern to form the metallic pattern on the surface of the first substrate, and B) transferring the metallic pattern to a surface of a second substrate that is a transparent laminating film.

An antenna structure capable of transmitting a WiGig band for a head-mounted wireless transmission display device including a display screen and an overhead device is disclosed. The antenna structure includes at least two body portions, each of the body portions having at least a signal transceiving end, the body portions are respectively arranged at left and right sides of the display screen, and signal transceiving ends of the body portions are extended outward from the left and right sides of the display screen respectively.

The present invention relates to a communication system for a helmet, comprising a docking station located in the rear portion of said helmet, and a detachable portion adapted to be connected to said helmet via said docking station, wherein said detachable portion comprises pressure-activated elements, which are located at a distance from the center of the rear portion of said helmet, such as to be easily reached by the fingers of the wearer.

Various implementations disclosed herein include devices, systems, and methods that predict a face configuration or hand pose of a user. For example, a device may include a structure and one or more antennas positioned on a portion of the structure. The device is worn on a head of a user. An associated process may be enabled to interpret data from the one or more antennas to discriminate deformation of a tissue geometry of at least one body portion of a user when the device is worn on the head of the user. The data from the one or more antennas may be associated with one or more impedance characteristics.

The disclosed system may include a sensor mounting bracket that has various mounting points for different sensors. The sensor mounting bracket may include a center portion and multiple different branches extending from the center portion. The system may also include a printed circuit board that includes antenna feed components. At least one of the branches of the sensor mounting bracket may be modified to form a specific type of antenna. The antenna feed components may be electrically connected to the antenna. Various other mobile electronic devices, apparatuses, and virtual reality headsets are also disclosed.

An antenna structure is capable of transceiving signals for a head-mounted wireless transmission display device including a display screen assembly. The antenna structure includes at least two body portions. Each of the body portions has at least a signal transceiving end. The body portions are respectively arranged at left and right sides of the display screen assembly. The signal transceiving ends of the body portions are extended outward from the left and right sides of the display screen assembly respectively. A first distance between the two signal transceiving ends is greater than a width of the display screen assembly.