Seat illuminating system

The invention claimed is: 1. A seat illuminating system for illuminating a target region by optically imitating natural sunlight illumination, the seat illuminating system comprising: a seat arrangement having a seat surface and a target region defined for a person sitting on the seat surface; a mounting structure spatially fixed with respect to the seat arrangement; a reflector unit mounted at the mounting structure and comprising a reflective surface and a luminous layer configured to diffuse at least some impinging light components to thereby homogenously emit diffuse light at a first color, wherein the luminous layer extends in front of the reflective surface and comprises a front area section of the reflector unit through which the diffuse light is emitted, wherein the front area section faces the target region and extends up to a first boundary; and a light projector mounted at the mounting structure, wherein the light projector is configured to generate a light beam that illuminates the entire front area section such that at least a portion of the light beam passes through the luminous layer before and after being reflected by the reflective surface, thereby forming an illuminating light beam at a second color directed onto the target region, the second color being associated with a direct light correlated color temperature, wherein the first color is associated with a diffuse light correlated color temperature that is larger than the direct light correlated color temperature of the illuminating light beam. 2. The seat illuminating system of claim 1 , wherein the first color and the second color are separated in u′v′-color space by at least 0.008 or at least 0.02. 3. The seat illuminating system of claim 2 , wherein the direct light correlated color temperature is close to the Planckian locus in the range from 800 K to 6,500 K. 4. The seat illuminating system of claim 1 , wherein the seat arrangement comprises a seat and the target region covers at least partially a seat surface of the seat. 5. The seat illuminating system of claim 1 , wherein the mounting structure comprises a section for mounting the reflector unit that extends on top of the seat arrangement such that the reflector unit is mounted at least partially above the seat arrangement. 6. The seat illuminating system of claim 1 , wherein the seat arrangement comprises a seat frame that forms a section of the mounting structure to which at least one of the light projector and the reflector unit is mounted. 7. The seat illuminating system of claim 1 , further comprising a frame element positioned in a frame area to form a frame area section of the reflector unit that extends outside of the front area section and at least partly along the first boundary, wherein the frame area is next to and surrounding the front area section, wherein the frame element is configured to essentially avoid contribution of the light portion of the light beam incident onto the frame area section to the illuminating light beam such that light of the light beam incident onto the frame area section is removed from the illumination system such that a light emission from the frame area is independent from the light beam of the light projector. 8. The seat illuminating system of claim 1 , wherein the light projector comprises an optical system configured to adapt a size of the light beam thereby forming a second boundary which at least partly follows the first boundary. 9. The seat illuminating system of claim 8 , wherein the mounting structure comprises a high precision mount configured to mount and align the light projector and/or the reflector unit; wherein the high precision mount is further configured to fix the relative position between the reflector unit and the light projector in dependence of the size of the light beam and the orientation and the position of the reflector unit; and wherein the seat illuminating system further comprises a control unit configured to control the high precision mount and/or the optical system to at least partly adapt the second boundary to the first boundary. 10. The seat illuminating system of claim 9 , wherein the reflector unit comprises light detectors close to the first boundary for providing position information on the second boundary with respect to the first boundary, and the control unit is configured to control the precision mount and/or the optical system in response to the position information, thereby ensuring proper alignment of the light beam with the front area section. 11. The seat illuminating system of claim 1 , wherein the luminous layer is configured to provide diffuse light at a diffuse light correlated color temperature in directions not contained in the illuminating light beam that is at least 1.2 times larger than the direct light correlated color temperature of the light of the illuminating light beam. 12. The seat illuminating system of claim 1 , wherein the luminous layer comprises a Rayleigh diffuser panel. 13. The seat illuminating system of claim 1 , wherein the light projector is configured to provide a light beam with a flat top intensity profile extending up to a second boundary. 14. The seat illuminating system of claim 1 , further comprising a light screen positioned to at least partly surround the light beam upstream the reflector unit. 15. The seat illuminating system of claim 14 , wherein the light screen comprises a curved screen or a shell to hide the light projector. 16. The seat illuminating system of claim 1 , further comprising a volumetric-motion sensor configured to detect an intrusion of people inside a volume surrounding the light beam upstream the reflector unit, and a control unit configured to receive a respective signal from the volumetric-motion sensor, and to dim or to switch off any light emission from the light projector in case of an intrusion detection. 17. A passenger cabin of a transportation unit, the passenger cabin comprising: a floor structure, a sidewall structure, and a ceiling structure; and a seat illuminating system of claim 1 . 18. The passenger cabin of claim 17 , wherein a structural configuration of the ceiling structure is configured at least partly as a frame element to absorb at least 60% of a light portion of the light beam incident onto the frame area section. 19. The passenger cabin of claim 17 , further comprising a wall configuration comprising: a background wall section in front of which the reflector unit is positioned; and a light subjected wall section onto which light of the light beam passing by the reflector unit is incident, and wherein at least one of the background wall section and the light subjected wall section is provided with at least one of a light absorbing color, coarse grain structures, large structures, decorations, and patchy finishing. 20. A transportation unit comprising: a passenger cabin of claim 17 , wherein the passenger cabin comprises a pair of seats, a roof structure, and at least one rear seat as the seat arrangement defining the target region, the reflector unit is mounted to the roof structure in between the pair of seats, the light projector is mounted at the roof structure or at the backrest of the rear seat and the light projector is further configured to project a light beam in forward direction onto the reflector unit, and the reflector unit is configured to reflect the light beam onto the target region. 21. The seat illuminating system of claim 1 , wherein t