Lighting device and a method of distributing light radiation sources

The invention claimed is: 1. A lighting device comprising: a planar array of light radiation sources partitioned in a plurality of sets of light radiation sources, wherein a same set of the light radiation sources emit light radiation of a same color, and wherein different sets of light radiation sources in the plurality of sets of light radiation sources emit light radiation of different colors, wherein: the array comprises a total number of light radiation sources with each set of light radiation sources in the plurality of sets of light radiation sources comprising a respective fraction of the total number of light radiation sources in the array, the light radiation sources in said planar array have respective planar coordinates with respect to a common center of the array, with the different sets of light radiation sources in the plurality of sets of light radiation sources having respective center located at the common center of the array, the array comprises at least two complementary sub-arrays of light radiation sources, the sub-arrays mutually opposed with respect to said common center, wherein the different sets of light radiation sources in the plurality of sets of light radiation sources are present in said sub-arrays with respective partial fractions of the number of light radiation sources included in the sub-array, for each different set of light radiation sources in the plurality of sets of light radiation sources said respective partial fractions in the sub-arrays mirror the respective fraction of the total number of light radiation sources in the array, and wherein each sub-array of the at least two complementary sub-arrays comprises a different number of light radiation sources from each further sub-array of the at least two complementary sub-arrays. 2. The lighting device of claim 1 , wherein the light radiation sources included in said at least two sub-arrays are distributed asymmetrically with respect to the common center of the array; wherein the light radiation sources distributed in said at least two sub-arrays are asymmetric in that one or more forms of symmetry is lacking from the following group comprising specular symmetry, rotational symmetry, or translational symmetry with respect to the common center of the array. 3. The lighting device of claim 1 , wherein said different sets of light radiation sources in the plurality of sets of light radiation sources emit light radiation with colors selected from red, blue, or white. 4. The lighting device of claim 3 , further comprising a control device configured to selectively de-activate the sets of light radiation sources emitting blue and red color radiation while maintaining activated light radiation sources in the set emitting white light radiation. 5. The lighting device of claim 1 , wherein the light radiation sources comprise LED sources. 6. An installation comprising: a lighting space between a lighted plane and a lighting plane parallel to the lighted plane, and a lighting device according to claim 1 arranged at the lighting plane centrally of the lighted plane and projecting light radiation towards the lighted plane in the direction of a radiation emission axis extending from the lighting plane towards the lighted plane. 7. The lighting device of claim 1 , wherein each sub-array of the at least two complementary sub-arrays is arranged as a row or column side-by-side with each further sub-array of the at least two complementary sub-arrays. 8. The lighting device of claim 1 , wherein each set of the plurality of sets of light radiation sources emits light radiation at a temperature ranging from 5600K to 6500K. 9. The lighting device of claim 1 , wherein at least two sets of the plurality of sets of light radiation sources comprise a different number of light radiation sources to emit light of a same color. 10. The lighting device of claim 1 , wherein each sub-array of the at least two complementary sub-arrays is arranged as a row or column side-by-side with each further sub-array of the at least two complementary sub-arrays. 11. A method of distributing in a planar array electrically-powered light radiation sources partitioned in a plurality of sets of light radiation sources, wherein: the light radiation sources in a same set emit light radiation of a same color and different sets of light radiation sources in the plurality of sets of light radiation sources emit light radiation of different colors, wherein: the array comprises a total number of light radiation sources with each one of the different sets of light radiation sources in the plurality of sets of light radiation sources comprising a respective fraction of the total number of light radiation sources in the array, the light radiation sources in said planar array have respective planar coordinates with respect to a common center of the array, and each sub-array of the at least two complementary sub-arrays comprises a different number of light radiation sources from each further sub-array of the at least two complementary sub-arrays, wherein the method comprises: distributing the light radiation sources in the different sets of light radiation sources in the plurality of sets of light radiation sources with respective centers located at the common center of the array, partitioning the array into at least two complementary sub-arrays of light radiation sources, wherein the sub-arrays are mutually opposed with respect to said common center, wherein the different sets of light radiation sources in the plurality of sets of light radiation sources are present in said sub-arrays with a respective partial fraction of the number of light radiation sources included in the sub-array, partitioning the light radiation sources for each one of the different sets of light radiation sources in the plurality of sets of light radiation sources with said respective partial fractions in the sub-arrays mirroring the respective fraction of the total number of light radiation sources in the array. 12. The method of claim 11 , further comprising distributing the light radiation sources in said at least two sub-arrays asymmetrically with respect to the common center of the array; wherein the light radiation sources distributed in said at least two sub-arrays are asymmetric in that one or more forms of symmetry is lacking from the following group comprising specular symmetry, rotational symmetry, or translational symmetry with respect to the common center of the array. 13. The lighting device of claim 11 , wherein each set of the plurality of sets of light radiation sources emits light radiation at a temperature ranging from 5600K to 6500K. 14. The lighting device of claim 11 , wherein at least two sets of the plurality of sets of light radiation sources comprises a different number of light radiation sources to emit light of a same color. 15. The method of claim 11 , wherein at least two of the different sets of light radiation sources in the plurality of sets of light radiation sources are present in said sub-arrays with different respective partial fractions of the number of light radiation sources included in the sub-array. 16. A lighting device comprising: a planar array of light radiation sources partitioned in a plurality of sets of light radiation sources, wherein a same set of the light radiation sources emit light radiation of a same color, and wherein different sets of light radiation sources in the plurality of sets of light radiation sources emit light radiation of different colors, wherein: the array comprises a total number of light radiation sources w