Interactive user interface functionality for lighting devices or system

1 . A system, comprising: intelligent lighting devices, each respective intelligent lighting device comprising: a light source; a communication interface configured to enable communication via a network link; and a processor coupled to control the light source and coupled to communicate via the communication interface and the network link with one or more others of the intelligent lighting devices and configured to control operations of at least the respective intelligent lighting device, wherein at least one of the intelligent lighting devices includes a user input sensor configured to detect user activity related to user inputs without requiring physical contact of the user, when the user is in a vicinity of the user input sensor; and an output component configured to provide information output to the user when the user is in the vicinity of the user input sensor and a vicinity of the output component; wherein one or more of the processors of the intelligent lighting devices is further configured to process user inputs detected by the user input sensor, control illumination implemented by one or more of the lighting devices and control output to the user via the output component so as to implement an interactive user interface, including to selectively: control a lighting operation of one or more of the lighting devices as a function of a processed user input; and obtain information via a data network communication and provide the information as an output via the output component, in response to a processed user input. 2 . The system of claim 1 , further comprising a data communication network at a premises serviced for lighting by the system, the network interconnecting the links to provide data communications amongst the intelligent lighting devices, wherein: the data communication network is configured to further provide data communications for at least some of the intelligent lighting devices via a wide area network outside the premises, and the function to obtain the information comprises communicating with an information source outside the premises via the data communication network at the premises and the wide area network. 3 . The system of claim 1 , wherein one of the intelligent lighting devices includes both the user input sensor and the output component. 4 . The system of claim 1 , wherein: the user input sensor is configured to detect audio as the user activity; and the one or more of the processors configured to process user audio inputs detected by the user input sensor are configured to detect spoken words in the audio inputs. 5 . The system of claim 1 , wherein: the user input sensor is configured to detect an optical input; and the one or more of the processors are configured to process the detected optical input to identify a gesture of a user. 6 . The system of claim 5 , wherein the user input sensor comprises an image detector. 7 . The system of claim 5 , wherein the user input sensor comprises a device configured for detection of direction and intensity of received light. 8 . The system of claim 1 , wherein the output component is configured to provide the information output to the user in an audio and/or visual format. 9 . The system as in claim 1 , wherein the one or more processors configured to process user inputs comprises a plurality of the processors of intelligent lighting devices configured to perform the processing in a distributed processing manner. 10 . A system, comprising: intelligent lighting devices, each respective intelligent lighting device comprising: a light source; a communication interface configured to enable communication via a network link; and a processor coupled to control the light source and coupled to communicate via the communication interface and the network link with one or more others of the intelligent lighting devices and configured to control operations of at least the respective intelligent lighting device, wherein at least one of the intelligent lighting devices includes an output component configured to provide information output to a user, when the user is in a vicinity of the output component; and a user input sensor configured to detect user activity related to user inputs without requiring physical contact of the user when the user is within a vicinity of the user input sensor and the vicinity of the output component, wherein one or more of the processors of the intelligent lighting devices is further configured to process user inputs detected by the user input sensor, control illumination implemented by one or more of the lighting devices and to control output to the user via the output component so as to implement an interactive user interface, including to selectively: control a lighting operation of one or more of the lighting devices as a function of a processed user input; and obtain information via a data network communication and provide the information as an output via the output component, in response to a processed user input. 11 . The system of claim 10 , wherein one of the intelligent lighting devices includes both the user input sensor and the output component. 12 . The system of claim 10 , further comprising a data communication network at a premises serviced for lighting by the system, the network interconnecting the links to provide data communications amongst the intelligent lighting devices, wherein: the data communication network is configured to further provide data communications for at least some of the intelligent lighting devices via a wide area network outside the premises, and the function to obtain the information comprises communicating with an information source outside the premises via the data communication network at the premises and the wide area network. 13 . The system of claim 10 , wherein the one or more processors configured to process user inputs comprises a plurality of the processors of intelligent lighting devices configured to perform the processing in a distributed processing manner. 14 . The system of claim 10 , wherein: the user input sensor comprises an audio detector; and the processor of at least one of the intelligent lighting devices is configured to process input audio via the distributed processing procedure to recognize spoken user inputs. 15 . The system of claim 10 , wherein: the user input sensor comprises an optical detector; and the processor of at least one of the intelligent lighting devices is configured to process detected optical inputs via the distributed processing procedure to recognize gestural user inputs. 16 . The system of claim 15 , wherein the optical detector comprises a camera. 17 . The system of claim 15 , wherein the optical detector comprises a device configured for detection of direction and intensity of received light. 18 . The system of claim 10 , wherein the output component is configured to provide the information output to the user in an audio and/or visual format. 19 . A lighting system, comprising: intelligent system elements; each of a plurality of the intelligent system elements including a light source and being configured as a lighting device, and at least one of the intelligent system, elements being configured as a lighting controller or as a sensor; wherein each respective intelligent system element further includes: a communication interface configured to enable communication via a link of a data communication network available to the intelligent system elements; a processor coupled to communicate via