A clip light can include a clip having a first clamp member and a second clamp member that opposes the first clamp member, wherein the first clamp member and the second clamp member are elastically biased towards one another; a light emitting diode located on the first clamp member; and a light unit cover that encloses the light emitting diode. A lighting system can include: a plurality of clip lights arranged into a light string by wires; a power adapter that transmits power to the plurality of clip lights through the wires and a set of wires that connects the plurality of clip lights to the power adapter.

The present disclosure is generally directed to an aircraft cabin LED lighting system and lighting assembly, in which each LED light is paired with and controlled by a separate microcontroller, which is individually addressable. In various embodiments, a lighting control device (e.g., a control panel for flight attendants) transmits pixel data to various lighting assemblies around the cabin. These lighting assemblies include the microcontroller-LED light pairs. Each LED light is multicolor and includes multiple LEDs (e.g., one for each color). The pixel data defines a color scheme and/or animation sequence. Each pixel maps to one of the microcontroller-LED pairs. The microcontroller controls the intensity of each LED of the LED light according to the pixel data it receives.

Power receptacle control circuitry includes load switching circuitry, communications circuitry, sensor circuitry, processing circuitry, and a memory. The sensor circuitry includes a light sensor. The processing circuitry is coupled to the load switching circuitry, the communications circuitry, the sensor circuitry, and the memory. The memory includes instructions, which, when executed by the processing circuitry cause the power receptacle control circuitry to selectively deliver power to a load via the load switching circuitry, detect a modulated light signal via the light sensor, and join a group of devices based on the modulated light signal.

A controllable light source is provided that includes a load control circuit and an integrated lighting load. The controllable light source is configured to receive wirelessly communicated commands transmitted by a remote control device associated with the controllable light source, such as a rotary remote control device. The controllable light source may include an actuator for associating the controllable light source with the remote control device, such that the load control circuit is operable to adjust the intensity of the lighting load in response to wireless signals received from the remote control device. The controllable light source may support the actuator such that the actuator may be actuated when the controllable light source is installed in a fixture.

A method for creating a desired lighting effect. The desired lighting effect is created by using a plurality of apparatuses at a controlled access venue which are capable of actuating one or more lights. The apparatuses in conjunction can create a desired lighting affect. The desired lighting effect can be customized to alleviate crowds. The desired lighting effect can also help to identify and direct aid to attendees in distress.

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.

An automated light rigging system (ALRS) that adjusts, or creates, light rigs that more accurately causes lighting from light rigs and light objects to conform to, or more closely conform with, target lux values of a target lux map for one or more regions of a virtual interactive environment. The ALRS can receive light rig data to sample lux values of the virtual interactive environment to determine where a loss or discrepancy of luminance occurs among the virtual interactive environment, based at least in part on a target lux map.

A method of activating a lighting system including grouping a plurality of lights into two or more lighting zones, wherein the plurality of lights are coupled to a power controller, coupling the two or more lighting zones to a bypass controller, wherein the two or more lighting zones are configured to be actuated together or separately, and activating at least one of the two or more lighting zones via the bypass controller.

A linear lighting fixture may comprise lighting control devices for controlling lighting loads in a load control system. Each linear lighting fixture may include a fixture controller configured to control lighting control devices. The fixture controller may receive messages from one or more devices in the load control system for controlling lighting control devices in the linear lighting fixture. The fixture controller may receive the message and communicate with the lighting control devices on a wired power/communication link. Each linear lighting fixture may comprise one or more sensors. The sensors may be coupled to the fixture controller to send/receive messages on a wired power/communication link and/or a wireless communication link. The lighting control devices in the fixtures may be zoned separately or together. Each of the sensors in a linear lighting fixture may be zoned with one or more of the lighting control devices in the linear lighting fixture.

A setting system includes a setting input section, an image data generator, and a control data generator. The setting input section is configured to receive an input of setting data on a setting of operation of a plurality of facilities. The plurality of facilities includes a lighting fixture and a shielding apparatus. The image data generator is configured to render, based on model data, image data representing a light environment corresponding to the setting data of the building. The control data generator is configured to generate control data for executing control corresponding to the setting data over the plurality of facilities.