A method of automatically commissioning a lighting system comprising a plurality of luminaires for illuminating one or more regions within a space. The method comprises: receiving signals from a positioning system, indicating a respective location within the space at which each of a plurality of physical entities is detected by the positioning system, each of the entities being a person or a movable nonhuman object. The method further comprises determining a spatial distribution of at least some of the entities based on the locations indicated by the signals from the positioning system, and determining a region within the space corresponding to this spatial distribution. The method then comprises identifying a group of the luminaires that are arranged to illuminate the determined region and storing identifiers of those luminaires together as a group in a commissioning database.

A method of automatically commissioning a lighting system comprising a plurality of luminaires for illuminating one or more regions within a space. The method comprises: receiving signals from a positioning system, indicating a respective location within the space at which each of a plurality of physical entities is detected by the positioning system, each of the entities being a person or a movable nonhuman object. The method further comprises determining a spatial distribution of at least some of the entities based on the locations indicated by the signals from the positioning system, and determining a region within the space corresponding to this spatial distribution. The method then comprises identifying a group of the luminaires that are arranged to illuminate the determined region and storing identifiers of those luminaires together as a group in a commissioning database.

Disclosed are a method (1) and a system (2) of configuring an illumination system (3) of a building. The method (1) comprises: determining (10) a configuration of the illumination system (3) in dependence of a building layout and a device control configuration; and remotely commissioning (13) one or more installed illumination devices (31) of the illumination system (3) in accordance with the determined configuration. This enables a more simplified, intuitive and less error-prone configuration of building-based illumination systems.

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.

The present disclosure provides LED array systems with a control system for arrays of LED array luminaires that allows for display of images or light patterns across and array of luminaires over a low bandwidth control protocol.

An advanced lighting control system including systems for commissioning a network of lighting fixtures preferably includes a plurality of lighting fixtures, each having a sensor and control module. The sensor and control module includes occupancy and light sensing elements, and a first transceiver. The lighting fixtures can send wireless signals to a second transceiver located in a room controller and/or a network coordinator. The room controller being configured to interpret the occupancy and light sensing information and make decisions thereon, while the network coordinator can rank the lighting fixtures according to a determined signal strength. The network coordinator can command each of the lighting fixtures to illuminate, and based on an observation of the lighting fixture, a determination is made about whether the lighting fixture is located in a particular room. The network coordinator can also include a third transceiver for receiving wireless commands from a remote device.

Networked intelligent lighting devices may utilize visual light communication to perform autonomous neighbor discovery, for example, as part of a map generation process. Individually, each intelligent lighting device within an installation transmits a series of packets via visual light communication for receipt by one or more of the other intelligent lighting devices. Receiving intelligent lighting devices record the number of received packets from each transmitter. Records of numbers of received packets are conveyed via a data communication network to a centralized process. The centralized process utilizes the conveyed records to determine neighbor relationships between lighting devices, for example to generate a map of devices as located within the installation.

The invention relates to a luminaire (10) comprising illuminants (170) for generating light, and a control unit (110) for controlling the illuminants (170), and at least one further element (140), in particular an operator control element (143) or a sensor (142), for generating control information that influences the operation of the luminaire (10), wherein the control unit (110) is configured in such a way that a self-test is carried out after a supply voltage has been applied to the luminaire (10). Said self-test is carried out automatically and independently in an analysis mode of the luminaire (10), wherein the control unit (110) checks the luminaire (10) for the presence and/or the functionality of the at least one further element (140). Depending on the checking result, and the type of further unit (140) checked, the control unit (110) controls the illuminants (170) such that a temporally variable light emission (171) signals the checking result. Measuring devices (200, 210, 220) are additionally specified which detect the checking result by measurement of operating parameters of the luminaire (10) and present this information preferably by way of a display (211, 221) of the measuring device (200, 210, 220). A method is likewise specified which includes checking the at least one further element (140) and controlling the illuminants (170) by means of the control unit (110).

The present invention provides LED array systems with a control system for arrays of LED array luminaires that allows for display of images or light patterns across and array of luminaires over a low bandwidth control protocol.

Sectorized Visual Light Communication (VLC)/Dark Light Communication (DLC) systems and sensors are generally disclosed. The exemplary VLC/DLC systems may include a transmitter for transmitting a light signal including information about the transmitting light source, and a receiver with a number of surface facets facing in different directions at different angles, and configured to determine a distance and a direction of a transmitting light source from the VLC/DLC receiver. Associated exemplary methods for automatic identification and grouping of light sources are disclosed.