Completeness check of a value document

The invention claimed is: 1. A method for checking the completeness and/or authenticity of value documents, wherein at least one value document comprises at least one machine-readable feature substance at at least two locations of the value document, the method comprising: applying an excitation energy to at least a local portion of the at least one value document; capturing a location-resolved feature intensity with respect to the at least one machine-readable feature substance at several different locations of the at least one value document; performing location-based classification of the captured location resolved feature intensities for each of the several different locations of the at least one value document using a threshold value; determining location-based limits of a location distribution to be expected of the at least one machine-readable feature substance relative to the at least one value document, said location-based limits being established from a location-based distribution of the classified feature intensities or from including further measurement values; and assessing a location-based distribution of the classified feature intensities with respect to a relative position of pixels classified as below-threshold relative to the location-based limits of the location distribution to be expected of the machine-readable feature substance; wherein the location-based limits represent a longitudinal extension and/or a width extension of the at least one value document. 2. The method according to claim 1 , wherein the classification of the location-based feature intensities is effected with the help of location-dependent threshold values. 3. The method according to claim 1 , further comprising capturing location-resolved remission values at several different locations of the at least one value document. 4. The method according to claim 3 , wherein the threshold value is configured as a location-dependent threshold value which is determined from a characteristic curve dependent on the remission value determined at the respective location. 5. The method according to claim 3 , wherein the measuring locations of the remission values overlap with the measuring locations of the feature intensities. 6. The method according to claim 3 , the method further comprising checking a two-dimensional distribution of the classified feature intensities relative to a convex envelope of measuring locations with above-threshold feature intensity or, provided that remission values were captured, relative to a two-dimensional distribution of the measurement values of the remission measurement. 7. The method according to claim 1 , the method further comprising computing a track completeness by a comparison of a number of measuring locations having above-threshold feature intensity with a number of captured measuring locations within a convex envelope of the measuring locations having above-threshold feature intensity or, where applicable, within a convex envelope of the measuring locations having above-threshold remission value. 8. The method according to claim 1 , wherein the feature intensities are captured along at least one measuring track on the value document. 9. The method according to claim 1 , wherein the location-resolved capturing of the feature intensities with respect to the machine-readable feature substance comprises the measurement of a spectral luminescence intensity of a luminescent substance and/or the spectral measurement of a Raman band of a Raman-active substance and/or a substance detectable by surface-enhanced Raman spectroscopy and/or the spectral measurement of an absorption band of a substance absorbing in the infrared spectral region and/or the measurement of the magnetic properties of a ferromagnetic substance. 10. The method according to claim 1 , wherein a local authenticity of the at least one value document is checked using at least one feature value. 11. The method according to claim 1 , wherein a number and a spatial distribution by measuring locations classified as below-threshold is compared with reference values. 12. The method according to claim 1 , wherein the value document is moved during the measurement at a speed of 1-13 m/s. 13. The method according to claim 1 , wherein the location-resolved capturing of the feature intensities of the machine-readable feature substance and/or, where applicable, the remission values on front side and back side of the value document, is effected in particular at same, opposing locations of the front side and back side. 14. The method according to claim 13 , wherein the location-dependent threshold values are determined by a characteristic curve which is dependent on the feature intensity determined at the side opposing at the respective location of the value document. 15. The method according to claim 1 , wherein location-resolved transmission values of the value document are captured. 16. The method according to claim 15 , wherein the transmission measurement is effected through a time-shifted illumination within the framework of remission measurements on front side and back side and/or through a time-shifted illumination within the framework of the measurement of feature values on front side and back side. 17. The method according to claim 1 , wherein at several measuring locations respectively a combined classification is performed with consideration of data tuple associated with the measuring locations, wherein the data tuple comprise at least one feature intensity as well as at the least one of the following components: a further feature intensity, a remission value, and/or a transmission value. 18. A system configured for checking the completeness and/or authenticity of value documents, wherein at least one value document comprises at least one machine-readable feature substance at at least two locations of the value document, the system comprising: a light source configured to apply an excitation energy to at least a local portion of the at least one value document; a detector device configured to capture a location-resolved feature intensity with respect to the at least one machine-readable feature substance at several different locations of the at least one value document; and a processing machine configured to: perform location-based classification of the captured location resolved feature intensities for each of the several different locations of the at least one value document using a threshold value; determine location-based limits of a location distribution to be expected of the at least one machine-readable feature substance relative to the at least one value document, said location-based limits being established from a location-based distribution of the classified feature intensities or from including further measurement values; and assess a location-based distribution of the classified feature intensities with respect to a relative position of pixels classified as below-threshold relative to the location-based limits of the location distribution to be expected of the machine-readable feature substance; wherein the location-based limits represent a longitudinal extension and/or a width extension of the at least one value document.