Patent ID: 7587071

Claim:
Method for the recognition of natural skin ( 5 ) from a living being during touchless biometric identification of a person, wherein characteristic line patterns at a sample area of a finger or a palm of the hand are touchlessly determined using a papillary line sensor and the skin surface ( 4 ) is illuminated at an irradiation point ( 1 ) assigned to a finger or the palm of the hand, with light from the visible spectrum or the adjacent spectrum, using a light source ( 10 ) that serves to illuminate said irradiation point ( 1 ) with said light ( 2 ), wherein a fraction of a part ( 3 ) of said light ( 2 ) entering at said irradiation point ( 1 ) through the skin surface into the skin ( 5 ), scattered by skin tissue inside of the skin ( 5 ) and exiting from the skin ( 5 ) through the skin surface ( 4 ) as scattered light ( 7 ), having an intensity is detected at a detection point ( 9 ), using the papillary line sensor as a detector ( 20 ) distant from the skin surface ( 4 ), and wherein the signal determined by the detector ( 20 ) is passed to a data processing unit and compared with stored data, and wherein several light sources ( 10 , 11 ) having limited spectrum ranges of different wavelengths serve to illuminate said irradiation point ( 1 ) simultaneously with said light ( 2 ) in a manner precluding at least a part of said sample area from being illuminated, wherein a check is performed as to whether a sample from said sample area agrees with natural skin with regard to scattering characteristics of the sample as evidenced by dependence of the intensity of the scattered light ( 7 ), detected with said detector ( 20 ) at said detection point ( 9 ), said detection point ( 9 ) being at a location different from said irradiation point ( 1 ) and assigned to said part of the sample area precluded from being illuminated, on wavelength of said irradiated light ( 2 ) served by said light sources ( 10 , 11 ), and wherein the determination of characteristic line patterns and the check as to whether the sample agrees with natural skin with regard to scattering characteristics of the sample take place at essentially the same time with close spatial coupling of respective measurement regions.