An LED light fixture includes one or more optical transceivers that have a light support having a plurality of light emitting diodes and one or more photodetectors attached thereto, and a processor in communication with the light emitting diodes and the one or more photodetectors. The processor is constructed and arranged to generate a communication or data transfer signal.

A wireless optical communication network includes a base station established for wireless optical communication using a wireless optical signal and including a participant apparatus moveable with respect to the base station including a communication unit established for wireless optical communication. Further, the participant apparatus includes a deflection unit configured to deflect at least part of the wireless optical signal between a first direction between the deflection unit and the communication unit and a second direction between the deflection unit and the base station.

A system includes a first mobile part and a second mobile part, each being able to be moved in a movement plane of an installation. The first mobile part has corner modules at its outer corner areas, and the second mobile part also has corner modules at its outer corner areas. Each corner module has an electronic circuit together with transmitters and receivers such that modulated light is able to be emitted with the aid of the transmitters, and modulated light is able to be detected and demodulated with the aid of the receivers. The receivers have different sensitivities for light from different directions in space, in particular, the receivers of the respective corner module being situated in one plane with respect to this respective corner module.

The present application is applied for the field of optical networking technologies, and provides an optical networking method, an optical communication device and an optical networking system, which can use natural light to realize optical networking communication between optical communication devices and can effectively prevent interference from electromagnetic signals.

A shared wired-based medium is deployed inside a vehicle, so as to interconnect various in-vehicle communication components such as radio transmitters, radio receivers, antennas, and processors. The shared wired-based medium is used by each of the communication components to send and receive intermediate-frequency (IF) signals to and from at least one of the other communication components, thereby implementing an efficient in-vehicle IF communication bus, in which each of the IF signals may be a frequency-shifted version of an original signal produced by one of the communication components, and in which such IF signal, after being transported by the shared wired-based medium, is extracted from the shared wired-based medium by at least one of the other communication components, which in turn frequency-shifts the extracted IF signal into a respective radio-frequency (RF) signal capable, for example, of being wirelessly transmitted outside of the vehicle.

Disclosed herein are methods, devices, and system for beam forming and beam steering within ultra-wideband, wireless optical communication devices and systems. According to one embodiment, a free space optical (FSO) communication apparatus is disclosed. The FSO communication apparatus includes a semiconductor optical device configured to have a transient response time of less than 500 picoseconds (ps), a lens, and a first band select filter.

A system comprising a plurality of points of access deployed in venue having a crowd area located next to an event happening area, each one of the plurality of points of access comprising an optical transmitter adapted to broadcast an encoded media stream in light emissions, a plurality of portable optical receiver units, each having: a connector adapted to be electrically connected to one of a plurality of client devices, an optical receiver adapted to capture the light emissions, and a controller adapted to convert the light emissions into a digital stream forwarded via the connector to a respective client device of the plurality of client devices to allow a presentation of the digital stream on a display of the respective client device by an application executed on the respective client device.

A battery pack according to an embodiment of the present disclosure includes: a communication module configured to block light between an inside and an outside, the communication module including a master light emitting unit and a slave light receiving unit in the inside, the slave light receiving unit being configured so that a first signal output from the master light emitting unit is input thereto; a master BMS connected to the master light emitting unit and configured to output the first signal by flickering the connected master light emitting unit; and a slave BMS connected to the slave light receiving unit and configured to change an operation mode thereof when the slave light receiving unit receives the first signal from the master light emitting unit.

A wireless communication system comprises a base station and one or more relay docks and transmits directional wave signals between components using high frequency waves, such as millimeter waves. A beam forming decision engine utilizes position information collected from one or more position or motion sensors of a user device to determine a direction in which to form a directional wave signal being transmitted between components of the wireless communication system.

A system for optical communication includes at least one light source for transmitting optical signals, at least one optical receiving unit for receiving the optical signals of the at least one light source, at least one mask unit, which is arranged between the optical receiving unit and the at least one light source, and which is designed to be switchable back-and-forth at least in areas between an at least partially optically non-forwarding and at least partially optically forwarding state. An image of at least one light-emitting area of the at least one light source can be imaged onto the at least one mask unit and in the at least partially forwarding state of the at least one mask unit can be conducted to the receiving unit. A method for optical communication is also provided.