Combined light modulation device for tracking users

We claim: 1. A light modulator device for a holographic or an autostereoscopic display for the representation of three-dimensional image information, the light modulator device comprising: at least one real or virtual light source; a first and a second light-affecting means; an eye position detection system; and a system controller; wherein encoded image information of an image to be represented to at least one observer eye of at least one observer is written to at least one light modulator; wherein the first and the second light-affecting means is adapted to change the optical path of the light which is emitted by the light source; wherein the eye position detection system is adapted to find and to follow at least one eye position of the at least one observer of the image information and the system controller is adapted to track at least one visibility region of the image information based on eye position information provided by the eye position detection system using the first and second light-affecting means; wherein the first light-affecting means tracks the visibility region to the eyes of the observer only in large steps within an observer range and the second light-affecting means tracks the visibility region to the eyes of the observer finely graduated or continuously at least within one such large step of the first light-affecting means; and wherein the first and/or the second light-affecting means is adapted to change the direction of the light beam and/or the position of the light source, where the position of the light source is adjustable in one, two or three dimensions and where the direction of the light beam is adjustable in the horizontal and/or vertical direction. 2. The light modulator device according to claim 1 , wherein the second light-affecting means is disposed in front of or behind the first light-affecting means in the direction of light propagation and that the first and/or second light-affecting means are disposed in front of or behind the light modulator. 3. The light modulator device according to claim 1 , wherein the first light-affecting means is adapted to accomplish the finely graduated or continuous tracking of the visibility region to the eyes of the observer with the help of at least one electrically controllable diffraction grating. 4. The light modulator device according to claim 1 , wherein the first and/or the second light-affecting means are composed of multiple light-affecting elements with which the beam direction and/or the position of the light source are changeable independent of each other. 5. The light modulator device according to claim 1 , wherein the extent of the position change of the light source and/or the extent of the beam direction change in the first and/or second light-affecting means is variable depending on the point of incidence of the light on the surface area of the light-affecting means, so that—in addition to the tracking function—the function of a field lens with static or variable focal length is realisable or that the function of such a field lens is supported. 6. The light modulator device according to claim 1 , wherein the position change of at least one light source is realisable in the first light-affecting means by mechanically moving the at least one light source and/or by modulating the intensity of multiple light sources at different positions. 7. The light modulator device according to claim 1 , wherein at least one first light-affecting means is provided which affects light diffractively and/or refractively. 8. The light modulator device according to claim 1 , wherein at least one first light-affecting means comprises one or multiple consecutive switchable diffractive gratings with a static or locally variable grating period. 9. The light modulator device according to claim 1 , wherein the first light-affecting means includes a device for changing the positions of the light sources and/or their emission directions and that the first light-affecting means comprises at least one volume hologram to which at least two angle-selective diffraction angles and/or field lens functions are written, which are selectable by changing the direction of light incidence. 10. The light modulator device according to claim 9 , wherein at least one horizontal and/or vertical displacing unit and/or a tilting unit are disposed between at least one light source and at least one volume hologram, said units controllably affecting the light which is emitted by the light source such that the angle of incidence and/or the point of incidence on the volume hologram are changeable. 11. The light modulator device according to claim 1 , wherein at least one real or virtual light source is provided which illuminates the first light-affecting means switchably with at least two narrow-band wavelength ranges which are close to each other and that the first light-affecting means further comprises at least one volume hologram to which at least two wavelength-selective diffraction angles and/or field lens functions are written which are associated with those two wavelength ranges and which are selectable by changing the wavelengths of the light sources. 12. The light modulator device according to claim 9 , wherein the first light-affecting means includes at least one volume hologram to which at least two angle-selective and at least two wavelength-selective diffraction angles and/or field lens functions are written. 13. The light modulator device according to claim 9 , wherein at least one of the volume holograms of the first light-affecting means comprises at least two volume holograms arranged one after another which are matched to different angles of incidence and/or wavelength ranges in order to deflect light in different directions and/or to focus it on different positions. 14. The light modulator device according to claim 1 , wherein the first light-affecting means comprises at least one switchable retardation plate and at least one birefringent lens in order to change the direction of the light beam. 15. The light modulator device according to claim 14 , wherein at least one birefringent lens is a liquid crystal lens. 16. The light modulator device according to claim 14 , wherein at least one birefringent polarisation grating is provided which has a grating period that is static or that varies across the surface of the polarisation grating in order to change the direction of the light beam. 17. The light modulator device according to claim 1 , wherein the first light-affecting means includes at least one birefringent polarisation grating which has a switchable grating period that is static or that varies across the surface of the polarisation grating in order to change the direction of the light beam. 18. The light modulator device according to claim 17 , wherein at least one birefringent switchable polarisation grating is provided which is optimised for light incidence at an angle and/or which has achromatic properties and which is optimised for at least two wavelengths. 19. The light modulator device according to claim 1 , wherein the second light-affecting means includes at least one variable diffractive grating with which the beam direction changes are settable by way of controllably continuously or locally variably changing a grating period of the diffractive grating. 20. The light modulator device according to claim 19 , wherein at least one of the variable diffractive gratings comprises a liquid crystal layer whose locally static or variable grating period is changed by