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A tile lighting system is provided in which an interior space of a tile is lit by LEDs, such as in a grid or edge-lit formation, and a light diffusing panel is disposed over the interior space. The tile lighting system can be combined with others to tile any surface, such as a floor, ceiling, wall,

A tile lighting system is provided in which an interior space of a tile is lit by LEDs, such as in a grid or edge-lit formation, and a light diffusing panel is disposed over the interior space. The tile lighting system can be combined with others to tile any surface, such as a floor, ceiling, wall, or building exterior. Lighting control signals can be supplied to generate a wide range of effects on the tile lighting units, including effects coordinated among different tile lighting units. Two-and three-dimensional embodiments are contemplated.

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The invention claimed is: 1. A tile lighting system, comprising: a plurality of addressable lighting units configured in a flexible string and arranged in a grid; a controller for controlling illumination generated by the addressable lighting units; and at least one substantially translucent cover

The invention claimed is: 1. A tile lighting system, comprising: a plurality of addressable lighting units configured in a flexible string and arranged in a grid; a controller for controlling illumination generated by the addressable lighting units; and at least one substantially translucent cover disposed over the grid for receiving and diffusing the illumination from the addressable lighting units. 2. The tile lighting system of claim 1, wherein the at least one substantially translucent cover comprises a phosphorescent material. 3. The tile lighting system of claim 1, wherein the illumination generated by the addressable lighting units, when controlled by the controller, includes a plurality of lighting effects. 4. A tile lighting arrangement, comprising two or more systems of claim 3, wherein the plurality of lighting effects includes at least one lighting effect that is coordinated between the two or more systems. 5. The tile lighting system of claim 1, wherein the at least one substantially translucent cover has a geometric shape. 6. The tile lighting system of claim 1, wherein the at least one substantially translucent cover has an irregular shape. 7. A tile lighting arrangement, comprising at least two systems of claim 1 comprising complementary-shaped substantially translucent covers and disposed in close proximity to each other. 8. The tile lighting system of claim 1, wherein the lighting units are controlled using a string light protocol. 9. A tile lighting system, comprising: a plurality of addressable LED lighting units disposed on a circuit board in an array, wherein the addressable LED lighting units respond to control signals provided using a serial addressing protocol to produce mixed light of varying colors, wherein at least one of the addressable lighting units receives data intended for at least two lighting units of the plurality of addressable lighting units and selectively responds to data addressed to it; and a diffuser for receiving light from the plurality of addressable lighting units. 10. The tile lighting system of claim 9, wherein the diffuser includes a phosphorescent material. 11. The tile lighting system of claim 9, wherein the diffuser is substantially translucent. 12. The tile lighting system of claim 9, wherein the diffuser has a geometric shape. 13. The tile lighting system of claim 9, wherein the diffuser has an irregular shape. 14. The tile lighting system of claim 9, wherein the mixed light of varying colors produced by the addressable LED lighting units in response to the control signals comprises a plurality of lighting effects, the system further comprising an authoring system for creating a graphical representation of at least one lighting effect of the plurality of lighting effects and converting the graphical representation of the at least one lighting effect into the control signals for the addressable LED lighting units. 15. The tile lighting system of claim 14, wherein the at least one lighting effect produced by the addressable LED lighting units corresponds to a video signal received at the authoring system. 16. The tile lighting system of claim 14, wherein the authoring system is an object-oriented authoring facility. 17. A tile light, comprising: a plurality of LED lighting units disposed only about a perimeter of a substantially rectangular housing; and a substantially translucent diffuser disposed over the housing for receiving and diffusing light from the lighting units. 18. The tile light of claim 17, wherein the diffuser includes a phosphorescent material. 19. A tile light comprising: a plurality of LED lighting units disposed about a perimeter of a substantially rectangular housing; a diffuser for diffusing light from the lighting units; and a reflector interior to the housing for providing a consistent level of light output to different portions of the diffuser. 20. The tile light of claim 17, wherein the housing is divided into a plurality of cells. 21. The tile light of claim 20, wherein the cells are substantially rectangular. 22. A tile light comprising: a plurality of LED lighting units disposed about a perimeter of a substantially rectangular housing; a diffuser for diffusing light from the lighting units; and wherein the housing is divided into a plurality of cells, and wherein the cells are triangular. 23. The tile light of claim 17, wherein the tile light is disposed in an architectural environment. 24. The tile light of claim 17, wherein the tile light is disposed on a building exterior. 25. A lighting system, comprising: a series of LED-based addressable lighting units for producing mixed light of varying colors, wherein each lighting unit is configured to respond to data addressed to it in a serial addressing protocol, wherein the series of lighting units is configured in a flexible string; and a fastening facility for holding the flexible string in a predetermined configuration. 26. The lighting system of claim 25, wherein the fastening facility comprises at least one substantially linear channel for holding at least a portion of the flexible string. 27. A lighting system comprising: a series of LED-based lighting units configured in a flexible string, wherein each lighting unit is configured to respond to data addressed to it in a serial addressing protocol; and a fastening facility for holding the flexible string in a predetermined configuration, wherein the fastening facility holds the flexible string in an array. 28. The lighting system of claim 25, wherein the mixed light of varying colors produced by the addressable LED lighting units comprises a plurality of lighting effects, the system further comprising an authoring system for creating graphical representations of the lighting effects and converting the graphical representations of the lighting effects into the data addressed to the addressable LED lighting units. 29. The lighting system of claim 28, wherein the authoring system is an object-oriented authoring facility. 30. The lighting system of claim 28, wherein a lighting effect produced by the addressable LED lighting units corresponds to a video signal received at the authoring system. 31. The lighting system of claim 27, wherein the array is disposed in an architectural environment. 32. The lighting system of claim 27, wherein the array is disposed on a building exterior. 33. The lighting system of claim 25, wherein the fastening facility comprises a push-though assembly mechanism. 34. A modular component for a lighting system, comprising: a plurality of addressable LED-based lighting units disposed in an array on a circuit board, wherein each addressable lighting unit of the plurality of addressable lighting units is configured to respond to data addressed to it in a serial addressing protocol, by receiving data intended for at least two lighting units of the plurality of addressable lighting units and selectively responding to data addressed to it. 35. The component of claim 34, wherein the circuit board is flexible. 36. The component of claim 34, wherein the circuit board is a printed circuit board. 37. A lighting system, comprising: a plurality of modular components, wherein each modular component includes a plurality of addressable LED-based lighting units disposed in an array on a circuit board, wherein each addressable lighting unit is configured to respond to data addressed to it in a serial addressing protocol, by receiving data intended for at least two lighting units of the plurality of addressable lighting units and selectively responding to data addressed to it. 38. The system of claim 37, comprising at least two modular components of the plurality of modular components disposed adjacent to each other. 39. The system of claim 37, wherein the addressable LED-based lighting units are configured to produce mixed light of varying colors comprising a plurality of lighting effects, the system further comprising an authoring system for creating a graphical representation of at least one lighting effect of the plurality of lighting effects and converting the graphical representation of the at least one lighting effect into the data addressed to the addressable LED lighting units. 40. The system of claim 39, wherein the addressable LED lighting units of at least two modular components of the plurality of modular components are configured to generate at least one lighting effect of the plurality of lighting effects that is coordinated between the at least two modular components. 41. The system of claim 39, wherein the authoring system is an object-oriented authoring facility. 42. The system of claim 39, wherein the at least one lighting effect produced by the addressable LED lighting units corresponds to a video signal received at the authoring system. 43. The system of claim 39, wherein the array is disposed in an architectural environment. 44. The system of claim 39, wherein the array is disposed on a building exterior. 45. A method of providing illumination, comprising: arranging a flexible string of addressable LED lighting units in a grid; controlling illumination generated by the addressable lighting units; and covering the grid with a light diffusing cover. 46. The method of claim 45, wherein the light diffusing cover comprises a phosphorescent material. 47. The method of claim 45, wherein the light diffusing cover is substantially translucent. 48. The method of claim 45, wherein the light diffusing cover has a geometric shape. 49. The method of claim 45, wherein the light diffusing cover has an irregular shape. 50. The method of claim 45, wherein the lighting units are controlled using a string light protocol. 51. The method of claim 45, wherein the addressable LED-based lighting units are configured to produce mixed light of varying colors comprising a plurality of lighting effects, the method further comprising: creating a graphical representation of at least one lighting effect; and converting the graphical representation of the at least one lighting effect into control signals for controlling the addressable LED lighting units. 52. A method of providing a tile lighting system, comprising: providing a plurality of addressable LED lighting units disposed on a circuit board in an array, wherein the addressable LED lighting units respond to control signals provided using a serial addressing protocol to produce mixed light of varying colors, wherein at least one of the addressable lighting units receives data intended for at least two lighting units of the plurality of addressable lighting units and selectively responds to data addressed to it; and providing a diffuser for receiving light from the plurality of addressable lighting units. 53. The method of claim 52, wherein the diffuser comprises a phosphorescent material. 54. The method of claim 52, wherein the diffuser is substantially translucent. 55. The method of claim 52, wherein the diffuser has a geometric shape. 56. The method of claim 52, wherein the diffuser has an irregular shape. 57. The method of claim 52, wherein the addressable LED-based lighting units are configured to produce mixed light of varying colors comprising a plurality of lighting effects, the method further comprising: creating a graphical representation of at least one lighting effect; and converting the graphical representation of the at least one lighting effect into the control signals for controlling the addressable LED lighting units. 58. The method of claim 57, wherein the at least one lighting effect produced by the addressable LED lighting units corresponds to a video signal. 59. A method of providing a tile light, comprising: providing a plurality of LED lighting units disposed only about a perimeter of a substantially rectangular housing; and providing a substantially translucent diffuser for diffusing light from the lighting units. 60. The method of claim 59, wherein the diffuser comprises a phosphorescent material. 61. The method of claim 59, wherein the diffuser has a geometric shape. 62. The method of claim 59, wherein the diffuser has an irregular shape. 63. A method of providing a tile light, comprising: providing a plurality of LED lighting units disposed about a perimeter of a substantially rectangular housing; providing a diffuser for diffusing light from the lighting units; and providing a reflector interior to the housing for providing a consistent level of light output to different portions of the diffuser. 64. The method of claim 59, wherein the housing is divided into a plurality of cells. 65. The method of claim 64, wherein the cells are rectangular. 66. A method of providing a tile light comprising: providing a plurality of LED lighting units disposed about a perimeter of a substantially rectangular housing; providing a diffuser for diffusing light from the lighting units; and wherein the housing is divided into a plurality of cells, and wherein the cells are triangular. 67. A method of providing lighting, comprising: arranging a series of LED-based lighting units in a flexible string, wherein each lighting unit is configured to respond to data addressed to it in a serial addressing protocol; and fastening the flexible string in a predetermined configuration. 68. The method of claim 67, wherein the flexible string is held in a channel shaped in the predetermined configuration. 69. A method of providing lighting, comprising: providing a series of LED-based lighting units, wherein each lighting unit is configured to respond to data addressed to it in a serial addressing protocol, wherein the series of lighting units is configured in a flexible string; providing a fastening facility for holding the flexible string in a predetermined configuration; and wherein the fastening facility holds the flexible string in an array. 70. A method of providing a modular component for a lighting system, comprising: disposing a plurality of addressable LED-based lighting units in an array on a circuit board, wherein each addressable lighting unit of the plurality of addressable lighting units is configured to respond to data addressed to it in a serial addressing protocol, by receiving data intended for at least two lighting units of the plurality of addressable lighting units and selectively responding to data addressed to it. 71. The method of claim 70, wherein the circuit board is flexible. 72. The method of claim 70, wherein the circuit board is a printed circuit board. 73. A method of providing a lighting system, comprising: providing a plurality of modular components, wherein each modular component includes a plurality of addressable LED-based lighting units disposed in an array on a circuit board, wherein each addressable lighting unit is configured to respond to data addressed to it in a serial addressing protocol, by receiving data intended for at least two lighting units of the plurality of addressable lighting units and selectively responding to data addressed to it. 74. The method of claim 73, wherein the modular components are disposed adjacent to each other to form a large array of modular components. 75. The method of claim 73, further comprising an authoring system for authoring effects for the lighting system. 76. The method of claim 73, wherein the array is disposed on a building exterior. 77. The method of claim 75, wherein the authoring system is an object-oriented authoring facility. 78. The method of claim 75, wherein an effect displayed on the large array corresponds to a graphical representation of the authoring facility. 79. The method of claim 75, wherein an effect displayed on the array corresponds to an incoming video signal. 80. The method of claim 75, wherein the array is disposed in an architectural environment. 81. A method for providing illumination, comprising: arranging a first flexible string of addressable lighting units in a first grid; covering the first grid with a first light diffusing cover; arranging a second flexible string of addressable lighting units in a second grid; covering the second grid with a second light diffusing cover, wherein the first and second light diffusing covers are complementary shaped; disposing the first grid in close proximity to the second grid such that the first light diffusing cover is adjacent to the second light diffusing cover; and controlling the illumination from the first and second strings of addressable lighting units.