Electric light and daylight control system with a dual-mode light sensor

The invention claimed is: 1. A method of controlling light luminosity in a space including an installed light source and an external light source, comprising: measuring, using a first controller, individual light intensity components from the installed light source at a location within the space; measuring, using a second controller, individual light intensity components from the external light source at the location within the space; controlling automatically an intensity level of the installed light source and an amount of light from the external light source entering the space by using the first controller and the second controller, respectively, wherein the controlling of the intensity level is based on the measured light intensity components; and tuning automatically the intensity level of the installed light source and the amount of external light entering the space simultaneously by using the first controller and the second controller, respectively, in order to optimize a combined light intensity measured from said light sources as close to a pre-defined target luminance level at said location and minimize an amount of energy consumed by the installed light source, the first controller and the second controller being configured to execute independently and in parallel; wherein the tuning is performed by iteratively adjusting the intensity of the installed light source by a first adaptation step size and the amount of external light entering the space by a second adaptation step size, wherein the first and second adaptation step sizes depend on a difference between the pre-defined target luminance level and the combined light intensity measured, and on an energy consumption. 2. The method according to claim 1 , wherein the measuring comprises: identifying individual light intensity components based on known spectral characteristics of said light sources. 3. The method according to claim 1 , wherein the measuring comprises: transmitting coded information overlaid on general lighting of the installed light source, and extracting a strength of a coded light signal. 4. The method according to claim 1 , wherein the measuring comprises: measuring individual light intensities from a direction of the installed light source and the external light source by using the first controller and the second controller, respectively. 5. The method according to claim 1 , wherein the measuring comprises: measuring, using the second controller, an amount of external light available for entering the space; and estimating, using the second controller, an external light component at the location based on transmission characteristics of a window through which light from the external light source enters and an amount of available external light. 6. The method according to claim 1 , wherein optimizing the combined light intensity measured from said light sources as close to a pre-defined target luminance level at said location takes priority over minimizing the amount of energy consumed by the installed light source. 7. The method according to claim 6 , wherein the tuning is performed by iteratively adjusting, using the first controller, the intensity of the installed light source by a first adaptation step size and an amount of external light entering the space by a second adaptation step size, wherein the first adaptation step size depends on a difference between the pre-defined target luminance level and the combined light intensity measured, and the second adaptation step size depends on a difference between the pre-defined target luminance level and the combined light intensity measured, and on an energy consumption. 8. A system for controlling light luminosity in a space including an installed light source and an external light source, comprising: a sensor for measuring individual light intensity components from the installed light source and the external light source, respectively, at a location within the space, a first controller for automatically controlling an intensity level of the installed light source and a second controller for automatically controlling an amount of light from the external light source entering the space based on the measured light intensities, wherein the first controller and the second controller are each adapted to automatically tune the intensity level of the installed light source and the amount of external light entering the space simultaneously to optimize a combined light intensity measured from said light sources as close to a pre-defined target luminance level at said location and minimize an amount of energy consumed by the installed light source, the first controller and the second controller being configured to concurrently execute independently and in parallel; wherein the first controller is adapted to iteratively adjust the intensity of the installed light source by a first adaptation step size and the second controller is adapted to adjust the amount of external light entering the space by a second adaptation step size, wherein the first and second adaptation step sizes depend on a difference between the pre-defined target luminance level and the combined light intensity measured, and on an energy consumption. 9. The system according to claim 8 , wherein the sensor is a spectral sensor adapted to identify individual light intensity components based on known spectral characteristics of said light sources. 10. The system according to claim 8 , wherein the installed light source is adapted to transmit coded information overlaid on general lighting of the installed light source, and the sensor is adapted to extract a strength of a coded light signal. 11. The system according to claim 8 , wherein the sensor comprises dual photo sensors, one looking into an installed light source direction and another looking into an external light source direction. 12. The system according to claim 8 , further comprising a sensor for measuring the amount of external light available for entering the space, and wherein the external light component at the location is estimated based on transmission characteristics of a window through which light from the external light source enters and an amount of available external light. 13. A non-transitory computer readable medium having stored thereon instructions for causing a first processor and a second processor to perform a process of controlling light luminosity in a space including an installed light source and an external light source, the process comprising: measuring, using a first processor, individual light intensity components from the installed light source and the external light source, respectively, at a location within the space; measuring, using a second controller, individual light intensity components from the external light source; controlling automatically an intensity level of the installed light source and an amount of light from the external light source entering the space by using the first processor and the second processor, respectively, based on the measured light intensities; and tuning automatically the intensity level of the installed light source and the amount of external light entering the space simultaneously by using the first processor and the second processor, respectively, to optimize a combined light intensity measured from said light sources as close to a pre-defined target luminance level at said location and minimize an amount of energy consumed by the installed light source, the first controller and the second controller being configured to execute independently and in parallel; wherein the tuning is performed by iteratively adjusting the intensity of the ins