Lighting device for adjusting a light colour separately within severla zones

1 . Lighting device suitable for adjusting a light colour with respect to elements to be illuminated, said lighting device comprising: at least two, LED based light systems, each having a respective light detecting unit configured for detecting light limitedly within a respective spectral detection range and a light emitting unit for operating either as a light detector capable of measuring a light intensity corresponding to a respective spectral detection range effective for said light system or as a light source capable of producing light in accordance with a respective spectral source feature effective for said light system; a scanning system, suitable for scanning an output field of the lighting device and comprising a digital mirror device; an optical system arranged for coupling, optically the output field to each one of the light systems, in a manner identical when said light system operates as light detector compared to said light system operating as light source, the optical system being adapted for forming an image of the elements contained in the output field focussed onto an active surface of the digital mirror device, and a processing unit, adapted to control execution, by the light systems and the scanning system, of the following steps successively: a detection step, where each light system operating as light detector, together with the scanning system, collects a distribution of measured intensities over the output field, for external light originating from the elements contained in the output field, the intensities measured by each light system corresponding to a part of the external light which pertains to the spectral detection range effective for said light system; a processing step, where the processing unit identifies zones within the output field based on the distributions of measured intensities collected in the detecting step, so that at least two of said zones are associated with separate respective colour ranges, and the processing unit assigns to each one of the colour ranges at least two target intensities to be produced respectively by the light systems in accordance with the spectral source features; and a lighting step, where the light systems are operating as light sources, and controlled each for producing light according to the target intensities, and the scanning system is controlled simultaneously so that light which is produced in accordance with the target intensities assigned in the processing step to one of the colour ranges, is directed limitedly within the zone which is associated to said colour range, and the target intensities being different for at least two of the zones. 2 . Lighting device according to claim 1 , wherein the processing unit is further adapted to control an automatic execution of detecting, processing and lighting steps. 3 . Lighting device according to claim 2 , adapted for automatically repeating detecting, processing and lighting steps, so as to update the intensities measured, outlines of the zones identified within the output field, the colour ranges and the target intensities. 4 . Lighting device according to claim 1 , wherein the spectral source feature of at least one of the light systems corresponds to white light. 5 . Lighting device according to claim 4 , wherein the spectral detection range of at least one of the light systems corresponds to white light. 6 . Lighting device according to claim 1 , wherein the spectral source features of at least three of the light systems correspond respectively to blue light, green light and red light, and the respective spectral detection ranges of said three light systems correspond to blue light, green light and red light. 7 . Lighting device according to claim 1 , wherein each light system is based on a LED connected to a power source so that said LED operates either as light detector or as light source. 8 . Lighting device according to claim 7 , wherein the processing unit is adapted for controlling the LEDs and the scanning system during lighting step, and for implementing intensity time-modulation with at least one of the light systems, simultaneous lighting of different ones of the zones by at least two of the light systems, or a combination of both said time-modulation and simultaneous lighting, when directing light within the zones in accordance with the target intensities. 9 - 10 . (canceled) 11 . Lighting device according to claim 1 , wherein the processing unit is further adapted for determining the target intensities in processing step so that a mean colour saturation value for at least one of the elements as illuminated during lighting step is higher than a mean colour saturation value derived from the intensities measured in detecting step for said element. 12 . Lighting device according to claim 11 , wherein the processing unit is further adapted for determining the target intensities in processing step so that a mean hue value for at least one of the elements as illuminated during step /3/ is equal to a mean hue value derived from the intensities measured lighting step for said element.