Lighting network with autonomous commissioning
First Claim
Patent Images
1. A system, comprising:
- intelligent system elements, each respective intelligent system element comprising;
a communication interface configured to enable communication via a network link; and
a processor coupled to communicate via the communication interface and the network link intelligent system element and configured to control operations of the respective intelligent system element, wherein;
each of a plurality of the intelligent system elements includes a light source and is configured to operate as a lighting device,at least one of the intelligent system elements either includes a user interface element and is configured for lighting control or includes a detector and is configured as a sensor, andthe processor of the respective intelligent system element is configured to cause the respective intelligent system element to implement functions, including functions to;
automatically exchange communications with one or more others of the intelligent system elements to autonomously establish a logical network arrangement of the respective intelligent system element with the one or more others of the intelligent system elements; and
to automatically cooperate with the one or more others of the intelligent system elements to provide controlled lighting for a service area.
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Abstract
Networked intelligent lighting devices and other elements connected to the network of a lighting system are readily adaptable to desirable networking arrangements as well as logical functional groups, for example by each storing communication provisioning data and/or configuration data for logically associating system elements into one or more groupings or sub-networks. The exemplary systems and system elements may also enable such enhanced network arrangement via autonomous discovery and device commissioning.
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Citations
20 Claims
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1. A system, comprising:
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intelligent system elements, each respective intelligent system element comprising; a communication interface configured to enable communication via a network link; and a processor coupled to communicate via the communication interface and the network link intelligent system element and configured to control operations of the respective intelligent system element, wherein; each of a plurality of the intelligent system elements includes a light source and is configured to operate as a lighting device, at least one of the intelligent system elements either includes a user interface element and is configured for lighting control or includes a detector and is configured as a sensor, and the processor of the respective intelligent system element is configured to cause the respective intelligent system element to implement functions, including functions to; automatically exchange communications with one or more others of the intelligent system elements to autonomously establish a logical network arrangement of the respective intelligent system element with the one or more others of the intelligent system elements; and to automatically cooperate with the one or more others of the intelligent system elements to provide controlled lighting for a service area. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A lighting device comprising:
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a light source; a communication interface configured to enable communication via a network link; a memory; and a processor coupled to the light source and the communication interface, wherein the processor is configured to operate the device to implement functions including functions to; send a signal identifying the lighting device to each of one or more other elements of a lighting system; receive from each of the one or more others elements;
an identification of a respective one of the one or more other lighting system elements and information about operational capabilities of each respective one of the one or more other lighting system elements;prioritize a list of identifications of the one or more other lighting system elements, based on the received capability information about the capabilities of the one or more other lighting system elements; and store in the memory at least a portion of the prioritized list of identifications and information about capabilities of other lighting system elements corresponding to identifications included in the stored portion of the prioritized list, in such a manner as to establish a logical sub-network arrangement of the lighting device and other lighting system elements including at least some communication via the network link to automatically cooperate to provide controlled lighting for a service area.
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10. A lighting controller comprising:
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a user input device; a communication interface configured to enable communication via a network link; a memory; and a processor coupled to the user input device and the communication interface, wherein the processor is configured to operate the controller to implement functions including functions to; send a signal identifying the lighting controller to each of one or more lighting devices; receive from each of the one or more lighting devices;
an identification of a respective one of the one or more lighting devices and information about operational capabilities of each respective one of the lighting devices;prioritize a list of identifications of the one or more lighting devices, based on the received information about the capabilities of the one or more lighting devices; and store in the memory at least a portion of the prioritized list of identifications and information about capabilities of each of the lighting devices corresponding to an identification included in the stored portion of the prioritized list, in such a manner as to establish a logical sub-network arrangement of the lighting controller and one or more lighting devices including at least some communication via the network link to automatically cooperate to provide controlled lighting for a service area.
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11. A sensor device comprising:
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a detector; a detector interface circuit coupled to the detector; a communication interface configured to enable communication via a network link; a memory; and a processor coupled to the detector interface circuit and the communication interface, wherein the processor is configured to operate the sensor device to implement functions including functions to; send a signal identifying the sensor device to each of one or more lighting devices; receive from each of the one or more lighting devices;
an identification of a respective one of the one or more lighting devices and information about operational capabilities of each respective one of the lighting devices;prioritize a list of identifications of the one or more lighting devices, based on the received information about the capabilities of the one or more lighting devices; and store in the memory at least a portion of the prioritized list of identifications and information about capabilities of each of the lighting devices corresponding to an identification included in the stored portion of the prioritized list, in such a manner as to establish a logical sub-network arrangement of the sensor device and one or more lighting devices including at least some communication via the network link to automatically cooperate to provide controlled lighting for a service area.
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12. A system, comprising:
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first lighting devices, a first lighting controller and at least one first sensor, located for lighting service of a first area and coupled together for network communication with each other to form a first physical network; second lighting devices, a second lighting controller and at least one second sensor, located for lighting service of a second area separate from the first area and coupled together for network communication with each other to form a second physical network; each lighting device including a light source, a processor, a memory and a communication interface; each lighting controller including a processor, a memory and a communication interface; communication links coupling the first and second physical networks into a wider area network; provisioning data stored in the memories of the first lighting devices and the first lighting controller to enable physical communication among the first lighting devices and the first lighting controller and to enable physical communication of the first lighting devices and the first lighting controller via the wider area network; configuration data stored in the memories of the first lighting devices and the first lighting controller for logically associating the first lighting devices and the first lighting controller together to operate as a first area lighting system; provisioning data stored in the memories of the second lighting devices and the second lighting controller to enable physical communication among the second lighting devices and the second lighting controller and to enable physical communication of the second lighting devices and the second lighting controller via the wider area network; configuration data stored in the memories of the second lighting devices and the second lighting controller for logically associating the second lighting devices and the second lighting controller together to operate as a second area lighting system; and configuration data stored in the memories of at least one of the first lighting devices and the first lighting controller and stored in the memories of at least one of the second lighting devices and the second lighting controller logically associating the at least one of the first lighting deices and the first lighting controller and the at least one of the second lighting devices and the second lighting controller together to operate as a system for a predetermined function for both the first and second areas. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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Specification