Luminaire utilizing a transparent organic light emitting device display

What is claimed is: 1. A luminaire, comprising: a lighting device that emits general illumination light; and a transparent display device optically coupled to the lighting device and configured to output a display image and allow the general illumination light to pass through the display device, the transparent display device comprising: an array of display pixels configured on a same substrate, wherein the array has horizontal and vertical dimensions on the substrate and each respective display pixel of the array includes: (a) a plurality of separately controllable, organic light emitting devices (OLEDs) configured one upon another to form an OLED stack on the substrate; and (b) a transparent area on the substrate adjacent to the OLED stack of the respective display pixel, wherein the transparent area of the respective display pixel is configured horizontally and vertically on the substrate in-between the OLED stack of the respective display pixel and the OLED stack of at least another adjacent display pixel in the array, and is formed from a transparent material. 2. The luminaire of claim 1 , wherein, in each display pixel of the array of display pixels, the stacked OLEDs include: three separately controllable OLEDs each constructed to emit a different one of three colors. 3. The luminaire of claim 1 , wherein each display pixel of the array of display pixels comprises: a first of the plurality of OLEDs being stacked on a light emitting surface of a second of the OLEDs and the second of the plurality of OLEDS being stacked on a light emitting surface of a third of the plurality of OLEDs so that: light from the emitting surface of the third OLED passes through the second and first OLEDs, light from the emitting surface of the second OLED passes through the first OLED, and light emerging from an emitting surface of the first OLED includes light emitted by the first OLED as well as light emitted by the second and third OLEDs. 4. The luminaire of claim 3 , wherein the transparent material of the transparent area is located in-between the stacked OLEDs of a respective display pixel and stacked OLEDs of a display pixel adjacent to the respective display pixel. 5. The luminaire of claim 1 , further comprising: a controller coupled to the display device and configured to control the OLEDs of the display pixels of the array and to control the lighting device, wherein the controller provides control signals to the display device and the lighting device for display and general illumination settings. 6. The luminaire of claim 5 , wherein the controller is further: coupled to the controllable optics of a spatial modulator device; and configured to control spatial processing of the input general illumination light by supplying spatial modulation control signals to the controllable optics. 7. The luminaire of claim 1 , wherein each display pixel in the array of display pixels includes: a transistor circuit associated with each OLED in the stack of OLEDs to activate each of the OLEDs of the respective display pixel; and interconnections to the transistor circuits associated with each OLED in the stack of OLEDs to configure the array as an active matrix OLED array. 8. The luminaire of claim 7 , wherein the transistor circuits and interconnections of at least two of the OLEDs in the OLED stack are positioned over other transistor circuits and interconnections of another OLED in the OLED stack. 9. The luminaire of claim 7 , wherein the transistor circuits comprise two or more transistors and one or more capacitive circuits. 10. The luminaire of claim 1 , wherein the array of display pixels includes: a number electrodes interconnecting each OLED in the OLED stack of each respective display pixel in the array to form a passive matrix array. 11. The luminaire of claim 10 , wherein each OLED in the OLED stack in the respective display pixel in the passive matrix array includes: a first electrode coupled to a first side of the OLED; and a second electrode coupled to a second side of the OLED, wherein the OLED is activated by electrical current passing between the first electrode and the second electrode. 12. The luminaire of claim 10 , wherein the OLEDs in the OLED stack are coupled via a matrix of electrodes connected to opposing sides of each OLED in the OLED stack to facilitate activation of each respective OLED. 13. The luminaire of claim 12 , wherein each electrode in the matrix of electrodes has a width that is substantially equivalent to or less than a width of a light emitting region of each respective OLED. 14. The luminaire of claim 13 , wherein each electrode in the matrix of electrodes coupled to each respective OLED comprises a number of electrodes coupled to a side of a light emitting region of each respective OLED to facilitate even distribution of electrical current to the light emitting region of each respective OLED, wherein the width of each of the number of electrodes is less than a dimension of the side of the light emitting region of each respective OLED to which the number of electrodes is coupled. 15. The luminaire of claim 1 , wherein: a ratio of a percentage of display area occupied by the OLEDs to a percentage of the display area occupied by the transparent area is less than 80%:20%. 16. The luminaire of claim 1 , further comprising: a spatial modulator device comprising: an input that receives the general illumination light emitted by the lighting device; controllable optics that spatially process the input general illumination light; and an output that outputs the processed general illumination light, wherein the transparent display is configured to output the display image and allow the processed general illumination light to pass through the display device. 17. The luminaire of claim 1 , wherein the OLED stack in each display pixel is orthogonal to the vertical and horizontal directions of the transparent area.