Method and system for detecting an unoccupied region within a parking facility

What is claimed is: 1. A method for detecting an unoccupied region within a parking facility using at least one environment sensor disposed in a stationary manner within the parking facility, the method comprising: sensing measured data of at least one segment of the parking facility by at least one environment sensor; comparing the measured data with reference measured data to recognize a change in the segment of the parking facility; and detecting the segment as an unoccupied or non-unoccupied region as a function of the recognition of a change, wherein at least two environment sensors are used, and for each of the environment sensors: measured data of the segment of the parking facility are sensed by the environment sensor; the respective measured data are compared with reference measured data associated with the respective environment sensor, a change being recognized for each environment sensor; and a value, in particular between 0 and 1, characterizing the change is associated with each of the environment sensors as a function of the comparison; and a probability is calculated as a function of the characterizing value, and the segment is detected as an unoccupied region as a function of the calculated probability. 2. The method of claim 1 , wherein at least two environment sensors are used, a segment of the parking facility being sensed by at least two of the environment sensors which are configured differently from one another and/or which implement measurement principles that are different from one another. 3. The method of claim 1 , wherein at least two environment sensors are used, for each of the environment sensors: measured data of the segment of the parking facility being sensed by the environment sensor; the respective measured data are compared with reference measured data associated with the respective environment sensor, a change is recognized for each environment sensor; and the segment is detected as an unoccupied region as a function of whether no change is recognized for a specific number of the environment sensors. 4. The method of claim 3 , wherein the segment is detected as an unoccupied region if no change is recognized for at least one environment sensor. 5. The method of claim 3 , wherein the segment is detected as an unoccupied region if no change is recognized for more than a specific proportion of the environment sensors being used, in particular more than 50% of the environment sensors being used. 6. The method of claim 3 , wherein the segment is detected as an unoccupied region if no change is recognized for all the environment sensors being used. 7. The method of claim 1 , wherein at least two environment sensors are used, for each of the environment sensors measured data of the segment of the parking facility being sensed by way of the environment sensor, the measured data of the environment sensors being combined to yield a collective measured data set, and the collective data set being compared with an associated reference measured data set in order to recognize a change in the segment of the parking facility. 8. The method of claim 1 , wherein upon recognition of a change in a segment, an object recognition is carried out for that segment by way of at least one of the environment sensors. 9. The method of claim 8 , wherein the object recognition encompasses a sensing of characterizing properties of the object, in particular a sensing of the size and/or speed and/or object type. 10. The method of claim 1 , wherein reference measured data are sensed for each environment sensor under defined conditions and stored, in particular ensuring that a reference measured value exists for every measurement point within the at least one segment which is capable of being sensed by way of the environment sensor. 11. The method of claim 1 , wherein at least the tasks of sensing measured data of at least one segment of the parking facility by way of at least one environment sensor, and of comparing the measured data with reference measured data in order to recognize a change in the segment of the parking facility, are executed several times in chronological succession, detection of the segment as an unoccupied or non-unoccupied region being accomplished as a function of the frequency with which a change is recognized. 12. The method of claim 1 , wherein reference measured data are selected as a function of the current situation, in particular the season and/or time of day and/or weather conditions and/or lighting conditions. 13. The method of claim 1 , wherein the comparison of the measured data with reference measured data encompasses calculation of a difference. 14. The method of claim 1 , wherein a change is recognized when, in particular in the context of a predefined minimum number of measurement points, the comparison of the measured data with the reference measured data results in a discrepancy that is greater than a predetermined tolerance value. 15. A system for detecting an unoccupied region within a parking facility, comprising: at least one environment sensor, disposed in a stationary manner within the parking facility, which is embodied to sense measured data of at least one segment of the parking facility; and a processor for detecting the unoccupied region within the parking facility using the at least one environment sensor disposed in the stationary manner within the parking facility, by performing the following: sensing measured data of at least one segment of the parking facility by at least one environment sensor; comparing the measured data with reference measured data to recognize a change in the segment of the parking facility; and detecting the segment as an unoccupied or non-unoccupied region as a function of the recognition of a change, wherein at least two environment sensors are used, and for each of the environment sensors: measured data of the segment of the parking facility are sensed by the environment sensor; the respective measured data are compared with reference measured data associated with the respective environment sensor, a change being recognized for each environment sensor; and a value, in particular between 0 and 1, characterizing the change is associated with each of the environment sensors as a function of the comparison; and a probability is calculated as a function of the characterizing value, and the segment is detected as an unoccupied region as a function of the calculated probability. 16. The system of claim 15 , wherein at least one environment sensor is embodied to sense distance values to objects in the region, the environment sensor being embodied in particular as an ultrasonic sensor or LIDAR sensor or radar sensor or laser scanner. 17. The system of claim 15 , wherein at least one environment sensor includes an image-producing sensor, in particular as a camera. 18. The system of claim 15 , wherein the reference measured values are stored in a memory unit provided therefor. 19. The system of claim 15 , wherein the processor is configured to combine measured data of several, in particular differently embodied, environment sensors to yield a collective measured data set, and to compare the collective measured data set with an associated reference measured data set. 20. A parking facility, comprising: a system for detecting an unoccupied region within the parking facility, including: at least one environment sensor, disposed in a stationary manner within the parking facility, which is embodied to sense measured data of at lea