A device for receiving light having at least one wavelength for the detection of an object, includes: an optical phased array including a plurality of optical phased sub-arrays, each optical phased sub-array including (a) a plurality of antennas and (b) a detector for coherently receiving light; and an evaluation unit connected to the optical phased sub-arrays and configured to determine the angle at which the object is detected.

An omnidirectional optical communication system. The omnidirectional optical communication system includes a multifaceted structure, a laser transmitter with a steerable mechanism, an optical detector receiver, and an angle-of-arrival system. In one aspect, the laser transmitter with a steerable mechanism, the optical detector receiver, and the angle-of-arrival system are housed in within the multifaceted structure, which enables omnidirectional optical communication. In another aspect, the omnidirectional optical communication system is used in a spacecraft for inter-spacecraft omnidirectional optical communication. In yet another aspect, the omnidirectional optical communication system is used in terrestrial applications for gigabit communications in WiFi, inter smartphones, internet of things and smart cities. In yet another aspect, the omnidirectional optical communication system further includes a global positioning system.

An omnidirectional optical communication system. The omnidirectional optical communication system includes a multifaceted structure, a laser transmitter with a steerable mechanism, an optical detector receiver, and an angle-of-arrival system. In one aspect, the laser transmitter with a steerable mechanism, the optical detector receiver, and the angle-of-arrival system are housed in within the multifaceted structure, which enables omnidirectional optical communication. In another aspect, the omnidirectional optical communication system is used in a spacecraft for inter-spacecraft omnidirectional optical communication. In yet another aspect, the omnidirectional optical communication system is used in terrestrial applications for gigabit communications in WiFi, inter smartphones, internet of things and smart cities. In yet another aspect, the omnidirectional optical communication system further includes a global positioning system.

A quantum dot (QD) lightning detection and warning (LDW) system and method. This LDW system and method find broader applicability to spark and other transient optical event detection as well. The QDs are operable for receiving ultraviolet (UV), infrared (IR), visible, x-ray, and/or gamma ray radiation emanating from lightning or the like and generating visible radiation that may be detected and utilized to generate topological event information, such that property, human life, and the like may be safeguarded.

A tracking apparatus includes a photosensor. The apparatus includes only a single, physically compact, optical pattern emitting base station. The apparatus includes a computer that tracks the photosensor to sub-millimeter accuracy using the optical pattern emitted by the base station. Alternatively, the computer determines angular position of the photosensor relative to the base station to a finer resolution than the size of an aperture of the photosensor from the light emitted by the base station. A method for tracking.

A tracking apparatus includes a photosensor. The apparatus includes only a single, physically compact, optical pattern emitting base station. The apparatus includes a computer that tracks the photosensor to sub-millimeter accuracy using the optical pattern emitted by the base station. Alternatively, the computer determines angular position of the photosensor relative to the base station to a finer resolution than the size of an aperture of the photosensor from the light emitted by the base station. A method for tracking.

Radiation detection arrangement and method for measuring the effect of radiation on a biological object using (thermally activated delayed fluorescence) TADF material based detection of radiation.

Radiation detection arrangement and method for measuring the effect of radiation on a biological object using (thermally activated delayed fluorescence) TADF material based detection of radiation.

Provided is an electronic device configured to charge at least one charging service use device and an operating method thereof. An embodiment of the present disclosure provides an electronic device configured to receive charging state information including at least one of device identification information, charging specifications, a current remaining battery capacity, and an expected discharge time from at least one charging service use device, generate a charging schedule for charging the at least one charging service use device based on a remaining capacity of a built-in battery and the received charging state information, move to a location of a charging target device determined based on the charging schedule, and supply power stored in the built-in battery to the charging target device by connecting to a charging terminal of the charging target device to charge the charging target device.

Methods and apparatus for monitoring windlass rotation are provided to determine the real time rate and length of rode release when anchoring a boat. The rotation can be monitored in real time using directional sound and/or electromagnetic radiation receivers and/or transmitter in a module attached to the windlass. Another windlass module can monitor windlass rotation using micro-electromechanical systems (MEMS) components such as accelerometers, magnetometers, gyroscopes, and/or inertial measurement units (IMU) to sense motion and/or position.