According to one embodiment, a lighting system can comprise a light source and a light switch. The light switch can comprise a binary switch, a wireless transmitter, a processor, and a memory coupled with and readable by the processor and storing therein a code identifying the light switch. A light driver can be coupled with the light source. The light driver can comprise a pairing switch, a wireless receiver, a processor, and a memory coupled with and readable by the processor and storing therein a set of instructions which, when executed by the processor, causes the processor to pair with the light switch by receiving, from the pairing button, a first input indicating a start of a pairing mode, initiating the pairing mode based on the first input, and determining whether a message is received from the light switch within a first predetermined period of time.

The invention relates to a method for controlling at least one controllable device, arranged in a predefined region, by means of a communications terminal, wherein a transmitting device sends out a radio signal wirelessly, the radio signal having identification data specific to the transmitting device, having the steps: assigning the at least one controllable device to the transmitting device, receiving the radio signal by means of the communications terminal, evaluating the radio signal in order to capture the specific identification data, identifying the at least one controllable device assigned to the transmitting device using the captured specific identification data, establishing a communication link between the at least one device and the communications terminal and transmitting data corresponding to a control command in order to control the at least one device.

Disclosed are systems and methods for adjusting environmental conditions based on automatically and manually generated requests. A commissioned unit comprising at least one IP luminaire (140, 150), transmits a signal comprising one or more identification codes. The signal may be, for example, a coded light signal. An environment control device (160) receives the signal, detects user input indicating one or more preferred environmental conditions, and transmits an environment control request comprising the one or more preferred environmental conditions. An environment manager module (110) receives the environment control request, generates an environment control command using the control request, and transmits the environment control command to one or more commissioned units to alter environmental conditions in a space in accordance with the user input.

A method of operating a group of lamps in a multi-lamp luminaire, each lamp being operable to emit respective illumination embedded with a predetermined coded light message, and each comprising a respective local controller; wherein the method comprises: communicating between the local controllers of the lamps within the multi-lamp luminaire in order to coordinate that unsynchronized instances of said coded light message are not transmitted from different ones of the lamps in the multi-lamp luminaire.

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 for scheduled automation associations, for example, to control one or more lighting fixtures depending on the state of one or more wireless devices having sensors or user interface elements. The associations can activate specific lighting effects, such as power, dimming, and scene control and also are dependent on selected scheduling events such as one or more of a time of day, day of week, and time delay.

Disclosed are systems and methods for commissioning, localizing, and re-localizing a system device used for monitoring physical environments. A disclosed system for localizing a system device comprises a computing cloud, a building server, and a gateway. The computing cloud comprises various application modules, including an application module for receiving a user's selection of the system device on a portable electronic device, a project service module for receiving and transmitting a request to open a wireless network of a gateway, and a plugin module for receiving an enhanced request to open a wireless network of a gateway, and for transmitting a request to open a specific type of wireless network at the gateway. The building server is communicatively coupled with the computing cloud, the gateway is communicatively coupled with the building server, and the system device is communicatively coupled with the gateway.

Aspects of the present disclosure include systems and methods for automated luminaire commissioning using computer vision and light-based communications (LCom). In some examples, locations of an installation of luminaires can be measured and recorded with a mobile commissioning device equipped with an image capture device and image processing and simultaneous localization and mapping software.

An imaging sensor determines an influence of artificial light from one or more artificial light sources and an influence of natural light in an area associated with a lighting system. On the basis of the influence of the natural light and the influence of the artificial light, the imaging sensor determines the location of the one or more artificial light sources with respect to the location of the imaging sensor. Further, the imaging sensor allocates a portion of the area as an area of influence of the imaging sensor based on a threshold change in luminescence of the area associated with switching on or switching off of the one or more artificial light sources. Responsively, the imaging sensor associates at least one artificial light source of the one or more light sources and occupancy sensors corresponding to the at least one artificial light source with the allocated area of influence.

A standardized protocol defines that, when an initiator node is not already joined to a wireless network, and initiates a linking operation between the initiator node a second node, then this will create a new wireless network. According to the disclosure, a field of one of the standardized messages is adapted, and the adapted message is sent from the initiator node to the second node, in order to indicate that the adapted message is in fact a request for the initiator node to join an existing wireless network, to which the second node is already joined. The field in question is a field which the standardized protocol allows to be varied for application specific purposes. In response to the adapted message, the initiator receives back an invitation message inviting the initiator node to join the existing network; and in response to the invitation message, the initiator joins the existing network.

Method for the operation and the expansion of a network of lights, each light in the network including a control module which is assigned to a group, each control module being in communication with a group controller as well as control modules in the same group. The network can be expanded by installing (19) new lights with their associated control modules, and each new control module scans (20) its environment and transmits environmental information to a central server where the environmental information is analysed and the new control modules are allocated (21) into groups. After allocation to a group in which control modules may be moved from one group to another or a new group is formed, the new control modules are available for normal operation. This process is repeated for each new light and associated control module.