Detector for optically detecting an orientation of at least one object

The invention claimed is: 1. A detector device for determining an orientation of at least one object, the detector device comprising at least two beacon devices, at least one of the beacon devices being adapted to be attached to the object, held by the object and integrated into the object, the beacon devices each being adapted to direct light beams towards a detector, the beacon devices having predetermined coordinates in a coordinate system of the object; at least one detector adapted to detect the light beams traveling from the beacon devices towards the detector, wherein the detector comprises at least one longitudinal optical sensor, wherein the longitudinal optical sensor has at least one sensor region, wherein the longitudinal optical sensor is designed to generate longitudinal sensor signals in a manner dependent on an illumination of the sensor region by the light beams, wherein the longitudinal sensor signals, given the same total power of the illumination, are dependent on a beam cross-section of the light beams in the sensor region, wherein the beacon devices are adapted such that the light beams traveling from the beacon devices towards the detector are mutually distinguishable, wherein the detector device is adapted to distinguish the light beams originating from the beacon devices and to assign each light beam to its respective beacon device; and at least one evaluation device, the evaluation device being adapted to determine longitudinal coordinates of each of the beacon devices in a coordinate system of the detector, the evaluation device being further adapted to determine an orientation of the object in the coordinate system of the detector by using the longitudinal coordinates of the beacon devices, wherein the evaluation device is designed to determine the longitudinal coordinates of the beacon devices by evaluating the longitudinal sensor signals. 2. The detector device according to claim 1 , wherein the evaluation device is further adapted to determine an absolute position of at least one point of the object in the coordinate system of the detector. 3. The detector device according to claim 1 , wherein the detector device comprises at least three beacon devices. 4. The detector device according to claim 1 , wherein the detector is further adapted to determine at least one transversal coordinate for at least one of the beacon devices, wherein the evaluation device is further adapted to determine the orientation of the object in the coordinate system by further using the at least one transversal coordinate. 5. The detector device according to claim 1 , wherein each of the beacon devices is independently selected from the group consisting of: a self-emissive beacon device having at least one illumination source adapted to emit light; and a passive beacon device having at least one reflector adapted to reflect light. 6. The detector device according to claim 1 , wherein the light beams are mutually distinguishable with regard to at least one property selected from the group consisting of a spectral property, a color, a modulation frequency, a modulation amplitude, a pulse width, a duty cycle, and a phase. 7. The detector device according to claim 1 , wherein the evaluation device is adapted to determine the orientation of the object by providing at least two orientation angles. 8. The detector device according to claim 7 , wherein the evaluation device is adapted to determine the orientation of the object by providing at least one angle combination selected from the group consisting of: a combination of a yaw angle (ψ) and a pitch angle (Θ); a combination of a yaw angle (Ψ), a pitch angle (Θ) and a roll angle (ϕ); and a combination of Euler angles. 9. The detector device according to claim 1 , wherein the longitudinal optical sensor is a transparent optical sensor. 10. The detector device according to claim 1 , wherein the longitudinal optical sensor comprises at least one dye-sensitized solar cell. 11. The detector device according to claim 1 , wherein the evaluation device is designed to determine the longitudinal coordinates of the beacon devices from at least one predefined relationship between geometry of the illumination and a relative positioning of the respective beacon device with respect to the detector. 12. The detector device according to claim 1 , wherein the detector has a plurality of the longitudinal optical sensors, wherein the longitudinal optical sensors are stacked. 13. The detector device according to claim 12 , wherein the longitudinal optical sensors are arranged such that a light beam traveling from at least one of the beacon devices to the detector illuminates all longitudinal optical sensors, wherein at least one longitudinal sensor signal is generated by each longitudinal optical sensor, wherein the evaluation device is adapted to normalize the longitudinal sensor signals and to generate the longitudinal coordinate of the respective beacon device independent from an intensity of the light beam. 14. The detector device according to claim 1 , wherein the evaluation device is adapted to determine the longitudinal coordinate of each beacon device by determining a diameter of the respective light beam from the at least one longitudinal sensor signal. 15. The detector device according to claim 1 , wherein the detector further comprises: at least one transversal optical sensor, the transversal optical sensor being adapted to determine a transversal position of the light beams, the transversal position being a position in at least one dimension perpendicular an optical axis of the detector, the transversal optical sensor being adapted to generate transversal sensor signals; wherein the evaluation device is designed to determine at least one transversal coordinate for at least one of the beacon devices by evaluating the transversal sensor signals. 16. A detector system, comprising at least one detector device according to claim 1 , and at least one object, wherein the beacon devices are one of attached to the object, held by the object and integrated into the object. 17. The detector system according to claim 16 , wherein the object is a rigid object. 18. The detector system according to claim 16 , wherein the object is selected from the group consisting of: an article of sports equipment; an article of clothing; a hat; a shoe; and a pointer. 19. A human-machine interface for exchanging at least one item of information between a user and a machine, the human-machine interface comprising: at least one detector device according to claim 1 , wherein at least one of the beacon devices is adapted to be directly or indirectly attached to the user and held by the user, wherein the human-machine interface is designed to determine an orientation of the user via the detector device, wherein the human-machine interface is designed to assign to the orientation at least one item of information. 20. An entertainment device for carrying out at least one entertainment function, the entertainment device comprising: at least one human-machine interface according to claim 19 , wherein the entertainment device is designed to enable at least one item of information to be input by a player via the human-machine interface, wherein the entertainment device is designed to vary the entertainment function in accordance with the information. 21. A tracking system for tracking an orientation of at least one movable object, the tracking system comprising: at least one detector device acco