Luminaires in a lighting system have mutually different addresses. A setting device includes a communication unit that transmits an address request signal at a first transmission power level and a control unit that determines whether a total number of the addresses transmitted from one or more of the luminaires in response to receiving the address request signal is within a target range. The control unit instructs the communication unit to transmit the address request signal at a transmission power level different from the first transmission power level when the total number of the addresses is outside the target range, and executes pairing of the one or more of the luminaires that responded to the address request signal with a wireless controller when the total number of the addresses is within the target range.

A method for configuring a lighting system including one or more sensors for controlling one or more lighting units for providing illumination of an area. The method allows a target area to be determined for a particular sensing function, and then determines suitable sensor locations based on a mapping derived from an image of the area in question. The target area can be determined based on recognition of relevant objects such as doors and window for example. The sensor location or locations may be selected from existing sensor locations which may be integrated with a luminaire, or new sensor locations may be proposed.

Lighting control systems may be commissioned for programming and/or control with the aid of an autonomous mobile device. Design software may be used to create a floor plan of how the lighting control system may be designed. The design software may generate floor plan identifiers for each lighting fixture, or group of lighting fixtures. During commissioning of the lighting control system, the autonomous mobile device may be used to help identify the lighting devices that have been installed in the physical space. The autonomous mobile device may receive a communication from each lighting control device that indicates a unique identifier of the lighting control device. The unique identifier may be communicated by visible light communication (VLC) or RF communication. The unique identifier may be associated with the floor plan identifier for communication of digital messages to lighting fixtures installed in the locations indicated in the floor plan identifier.

Lighting control systems may be commissioned for programming and/or control with the aid of a mobile device. Design software may be used to create a floor plan of how the lighting control system may be designed. The design software may generate floor plan identifiers for each lighting fixture, or group of lighting fixtures. During commissioning of the lighting control system, the mobile device may be used to help identify the lighting devices that have been installed in the physical space. The mobile device may receive a communication from each lighting control device that indicates a unique identifier of the lighting control device. The unique identifier may be communicated by visible light communication (VLC) or RF communication. The unique identifier may be associated with the floor plan identifier for communication of digital messages to lighting fixtures installed in the locations indicated in the floor plan identifier.

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.

Method of detecting a change in a lighting system comprising a plurality of devices each comprising a luminaire and/or a sensor, wherein each respective one of the devices has a respective location recorded in a commissioning database in association with data reported by the respective device; the method comprising: identifying a subset of said devices located within a predetermined spatial demarcation; automatically monitoring a respective value of a characteristic of each of the devices in said subset, thereby forming a data cluster comprising the values of said characteristic for the subset; automatically detecting that one of one of the devices in the subset has been moved by detecting a shift in one of the cluster values relative to the rest of the values in the data cluster; and in response to said detection, automatically outputting an indication that the commissioning database is likely to require updating to reflect said change.

A design software, e.g., a graphical user interface (GUI) software, may be used to design and/or configure a load control system. The design software may be executed on a network device (e.g., a personal computer, a laptop, a tablet, or a smart phone). The design software may allow for easy configuration of load control panels and effortless multiplication of configured panels during the design of the load control system. Each load control panel may have a plurality of control devices, such as load control devices (e.g., power modules, dimming modules, and/or switching modules), system controllers, and/or power supplies. The design software may allow for the configuration of load control panels having different types and numbers of control devices. In addition, the design software may allow for the multiplication of load control panels having the same configuration (e.g., the same type and number of control devices).

The invention refers to a communication module arranged to support execution of commissioning of one or more installed devices and configured to transmit, according to Thread network protocol, via multiple channels a connectivity verification message arranged to initiate an execution of a predetermined activity by the one or more installed devices. Present invention concerns a commissioning device, transmitting the connectivity verification message to the one or more installed devices via the communication module, and installed devices, each installed device monitoring received messages, determining whether or not a received message is the connectivity verification message, determining whether or not a signal strength of the received message is above a predetermined threshold, if the received message is a connectivity verification message and if the signal strength of the received message is above the predetermined threshold, executing the predetermined activity. Further, the invention concerns a managing device supporting the execution of said commissioning.

A method of operating a smart lighting system comprising a first mobile device, a lighting control device and first through nth (n being a positive integer) lighting devices, includes establishing, by the first mobile device, a first wireless connection with the lighting control device; performing, by the lighting control device, a first time synchronization with the first mobile device; providing, by the first mobile device, the lighting control device with a scheduling information representing operation of each of the first through nth lighting devices according to lapse of time; and controlling, by the lighting control device, operation of each of the first through nth lighting devices based on a current time and the scheduling information, wherein the current time is determined based on the time synchronization.

A wireless lighting control system includes a remote server system connected to a wide area network and having software for configuring, monitoring, and controlling lighting fixtures at an installation site. The site includes wireless devices in communication with a gateway via a local wireless network and at least some of the wireless devices are configured to control lighting fixtures, including a configurable user control device, such as a wall dimmer switch, having user interface elements configurable to activate specific lighting effects, such as power, dimming, and scene control. A user computer device is connected to the wide area network and has a graphical user interface enabling virtually mapping of user interface elements to lighting effects. Configuration can advantageously be done without physical access to either the user control device or to the lighting controllers, fixtures, or other devices at the installation site.