DE102005000698A1 - Examination of value documents - Google Patents

Abstract

In the authenticity check of a value document (3), measured values (M) of security features (4) are impaired by a distance component (K) that is dependent on the distance (D1) of the detector (6) from the respective measuring point (5) on the value document (3). Therefore, a sound sensor (2) determines for each measuring point (5) of the value document (3) a distance value (D2) which represents the distance from the measuring point (5) to the sound sensor (2). Since the distance values (D2) depend on the corresponding distances (D1), the distance component (K) of the measured values (M) can be compensated.

Description

The The invention relates to a method and a device for testing sheetlike Value documents, such as banknotes, shares, identity documents or other documents.

value documents generally have different security features, on the one hand to document their value and their counterfeiting to complicate. For leaf-shaped Documents are, for example, watermarks, special print patterns, elaborate color designs or optically variable elements such as holograms, Kinegrams and the like. A special forgery security offer such Security elements, on the one hand, not directly perceptible and their safety properties on the other hand only under considerable technical effort to imitate. Such security features are, for example, in the document of value integrated magnetic stripe or Fluorescent areas of the value document in certain spectral ranges.

The The authenticity of such a document of value is guaranteed by special testing devices verified that a detector assembly and a transport device include, which passes the value document to the detector assembly. The Detector arrangement raises at any number of measuring points on the surface of the value document, which has certain properties of its value Represent security features, for example the magnetic field strength a magnetic strip or the signal amplitude of a fluorescent Graphic. The measured values will then become the exam the authenticity of the document is compared with reference values.

The desired, preferably exact reproducibility of the test results of a However, the value document (single-copy reproducibility) is thereby impaired that in the individual measured values not only the signal intensity or amplitude to be measured as absolute measure, but also a measurement-related distance component, the distance of the detector to the relevant measuring point at the time of measurement represents and falsifies the measured value. This distance changes often even while the test procedure one and the same value document as it is transported past at the detector so that in each single reading a different Distance component is received. Usually this relationship is such that with increasing distance between Detector and measuring point decreases the signal intensity / amplitude and the Response signal is affected accordingly stronger.

Caused is this varying distance, for example, by kinks and Undulations of the document, especially for used banknotes, or by a typical fluttering of the value documents during rapid passage through the tester.

Around fail tests It is at the exam to avoid it of magnetic or optical or fluorescent properties desirable, the dependence the measurement results of the distance between value document and detector array as far as possible to minimize. Especially with magnetic measurements, this makes distance dependence particularly noticeable.

From the DE 102 56 235 A1 It is therefore known to stabilize a document of value during transport through the test apparatus, for example by roller-belt systems or pressure and suction systems or the like, so as to minimize the variation of the distance. However, this results in obvious disadvantages due to high wear and / or the constructively highly complex and correspondingly repair-prone system components.

As a result, It is the object of the present invention, a constructive simple and robust solution to propose results in the authenticity check of value documents to achieve that of its changeable Distance to the detector more independent are.

These The object is achieved by a Method and apparatus solved with the features of the independent claims. In dependent claims are indicated advantageous embodiments and refinements of the invention.

Thus, according to the invention for testing a leaf-shaped Value document, in particular for testing magnetic properties of the value document, a distance of the value document to a detector arrangement, in particular to a magnetic sensor, determined and the detector arrangement due the determined distance value for the consideration of the distance dependence of the measured value.

These Control can be done so that the evaluation the measured values in dependence from the determined distance value. Additionally or alternatively also a reinforcement the detector assembly and / or e.g. an illuminance of an optical Detector arrangement as a function of the distance value be managed.

to Determination of the distance is preferably a sound sensor arrangement used. Alternatively, however, an optical measurement for distance measurement can be used, e.g. an interferometer or the like. Also, e.g. used a laser triangulation method for distance measurement become.

The Tester preferably comprises a sound sensor arrangement suitable for each of Measuring points of the value document determines a distance value, the Distance from the measuring point to the sound sensor arrangement represents. The distance values do not necessarily give the exact distance the measuring point to the detector array again, they represented however, at least one incoming to the respective in the measured values Distance component proportional size, with which the distance component the measured values can be compensated so that they have no or only one negligible has little influence on the result of the test.

So can the determined distance values (between measuring point and sound sensor) compared to the distance between the measuring point and the detector For example, identify a pre-factor or in any other analytical way - for example also inversely proportional - of this dependent be. With a constant signal strength over all measuring points of the value document could the distance component thus, for example, a low-frequency modulation represent the measured amplitude values.

There in the aforementioned embodiment for every Measuring point determined a distance value with the above properties it will be possible the distance component of each measured value by means of an evaluation device to compensate, for example, by normalizing the measured values on a predetermined distance value. However, the concrete one is Form of distance-dependent Change in the signal strength to consider the signal to be measured, since these are dependent can be designed differently depending on the type of radiation for example, as exponential or polynomial attenuation, or also as reinforcement at close range.

The solution according to the invention is suitable especially for Magnetic measurements, i. For a detector arrangement with a magnetic detector for measuring magnetic properties of the sheet material.

The Distance values are taken from the sound sensor arrangement by means of sonar echo method determined, in which the duration of a sound sensor formed in the and reflected by the value document ultrasonic wavefront measured becomes. From this term can be clearly on the distance from that Location of the value document that has reflected the wavefront, be closed to the emitting sound sensor.

Of the Sound sensor is in the tester to arrange so that the transport arrangement the value document for Distance measurement leads past her. For every Measuring point, a distance value associated with the measured value is determined. In this case, the sound sensor and the detector arrangement are preferably opposite each other in the tester arranged, wherein the value document when it is checked by the transport device passed between them becomes. However, it is also possible that the sound sor- and the detector array on the same Side of the transport path of the value document are arranged and the Sound sensor arrangement e.g. at an oblique sound and the distance can determine the same measuring point, which also from the detector array is measured. Alternatively, the sound sensor assembly also the distance to determine a neighboring location of the value document to get out of this a compensation of the measurement of the detector arrangement on the adjacent Carry out the measuring point to be able to.

at a preferred embodiment The invention relates to the distance values on the back of the document determined by the detector array measured measuring points. Get in this way one between the distance components entering the measured values and the distance values measured by the sound sensor one in reverse proportional relation, because the greater the distance between the Measuring point and the detector array is, the lower is the Distance to the sound sensor arrangement. Here, the corresponding Measurement and distance values collected simultaneously and the evaluation transmitted for compensation and evaluation become.

As well good is it possible the detector assembly and the sound sensor assembly on the same Side of the value document so that they can be acquired in parallel the measured and distance values are both at the same measuring point of the value document focus.

alternative it is also possible Measured values and the respective corresponding distance values temporally independently determine from each other, for example by the fact that for a measuring point first one or more measurements are taken, and then, at Further transport of the value document, the. Distance value. It is however, the closest match the measured by the detector and the sound sensor assembly Ensure measuring points.

In a further preferred embodiment the detector arrangement comprises a detector for measuring the strength of the Magnetic field of a present in the value document magnetic strip. Likewise, the detector arrangement, both additionally and alternatively to the magnetic detector, a fluorescence detector, as well as any other optical detectors for amplitude measurement of reflected or emitted radiation in certain frequency or color ranges include. Preferably, the detector arrangement comprises a plurality of detectors for the simultaneous measurement of different signals or for testing various Security elements of the value document. The incoming, sometimes different Distance components of various measured values of the same Measuring point are each compensated by the same distance value.

Next the above-described techniques for eliminating the distance component can additionally constructive measures be taken to the varying distances in the test of To minimize value documents from the outset. Suitable for this purpose in particular suction devices or pressure brushes. This means for lateral Fixing the value documents during of transport are so in the tester designed such that the distance of a measuring point to the detector as possible is kept constant.

Further Features of the invention will become apparent from the following description various inventive embodiments and design alternatives. It is referred to the single figure, the arrangement of a Magnetic sensor and a sound sensor with respect to the value document to be tested, as well as two diagrams of the values determined during the examination of a value document Distance and measured values shows.

The tester 1 is set up to check the authenticity of a value document 3 based on its security elements. The illustrated value document 3 has as security elements arranged in parallel, transversely to the transport direction of the document of value 3 running stripes 4 , For example in the form of embedded metal filaments, metallic coatings or imprints of metal-containing paint, which are preferably magnetic This specific embodiment of the value document 3 is of course intended only as an example. In principle, the invention limits the type of value documents to be tested 3 and the use and deviating arrangement of other security elements in any way.

The device 1 further includes a sound sensor assembly 2 and a detector arrangement 6 , which is set up, the magnetic field strengths of the magnetic strip 4 to eat. During a measuring process, a transport device transports the testing device 1 the value document 3 along a transport path (arrow direction) between the sound sensor arrangement 2 and the detector assembly 6 therethrough. The two arrangements 2 and 6 So are on different sides of the transport route and during the respective measurements in so far on opposite sides of the value document 3 ,

The arrangement and orientation of the sound sensor assembly 2 and the detector assembly 6 also in other ways than in the device 1 take place as long as it is ensured that the two arrangements 2 . 6 Corresponding measuring and distance values M, D2 at the same measuring points 5 rise.

A magnetic sensor of the detector arrangement 6 measures the magnetic field strengths of the magnetic elements 4 while the value document 3 is passed past the magnetic sensor. The measured values M obtained in this case are shown schematically in the upper of the two diagrams in the form of a bar chart. In general, measured curves of these measured values M have a sinusoidal shape in a real application.

The illustrated value document 3 owns a variety of magnetic stripes 6 parallel to the transport direction of the document 3 are oriented. In the measurement process, the strength of the individual magnetic fields at special measuring points 5 through the detector arrangement 6 determined so that each of the magnetic stripes 4 in a (sinusoidal) trace a peak M is formed. The magnetic stripes 4 of the exemplary document 3 each have equally strong magnetic fields, so that of a detector array 6 Measured values M are almost the same for an ideal, undisturbed measurement process without distance variations.

Thereby the size and shape of the measuring point becomes 5 in principle by the detector arrangement 6 certainly. Their diameter is preferably about 3 mm, but they can be of any size and shape in principle. However, it should be noted that smaller measuring points lead to higher resolutions and are therefore preferred.

Similar to many other security features, the signal strength of the magnetic stripe also weakens 4 - The magnetic field strength - with increasing distance from the magnetic strip 4 from. In the same way this is the case for such security features that emit or reflect signals whose amplitudes are measured, so for example in optical elements, in particular flu oreszierenden and luminescent security elements.

As a result, due to curls and wrinkles in the value document 3 the distance of the measuring point 5 from the detector assembly 6 may vary during the exam. In the figure, the curl of the value document 3 in its central part near the current measuring point 5 illustrated. The on the value document 3 indicated measuring point 5 therefore has a slightly greater distance D1 to the detector array 6 , as other measuring points of the value document 3 , In this way, although the magnetic fields of all magnetic stripes arise 6 are equally strong, varying measured values M as a function of the distance D1.

in principle are different forms of dependencies the measured values M of the distance D1 conceivable, which in general by the nature of the measured signals or their Abklingverhalten are determined. For example, as the distance D1 increases, as in the case of the example used magnetic field strength, give an expotential weakening, while the Amplitudes other security features over the distance polynomial fall off. Likewise, there are distance components K which are partially amplifying in the measured values M are received, for example in the case of fluorescence signals.

In the upper of the two diagrams, the measured values M and reference values R are qualitatively plotted, which represent those values with which the determined measured values M are compared in order to verify the authenticity of the value document 3 determine.

Ideally, the measured values M and the reference values R coincide with an authentic value document 3 match. However, due to the dependency of the measured values M on the distance D1 described above, the measured values M of a true value document may be 3 have significant deviations from the reference values R, as shown for example in the upper diagram. This deviation is the distance component K of the measured values M, which is determined by means of the evaluation device 7 is compensated such that a subsequent comparison between the compensated measured values M and the reference values R the authenticity of the value document 3 feststellet.

The in the measured values M incoming distance component K, represents so the error is actually measured values M opposite the actual magnetic field strengths, which in the present example coincide with the reference values R.

In the present case of the magnetic field measurement, the distance component K emerges from the distance D1 by an exponential relationship, in the sense that increasing distances D1 between the measuring point 5 and the detector assembly 6 lead to exponentially increasing deviations K of the corresponding measured value M from the ideal measured value R. In the case of the measurement shown in the figure, the distance component K multiplicatively enters the measurement and falsifies the actual magnetic field strengths to the measured values M. For other security elements, for example, the distance component K could also be cubic (or polynomial) dependent on the distance D1.

at However, optical sensors, in particular fluorescence sensors can be distance-dependent increase the signal amplitude occur, as well as a signal attenuation means the measured distance values D2 from the measured values M, for example by means of a normalization to a mean distance D1, eliminated can be. Furthermore you can by the method according to the invention also distance dependencies e.g. in electrical measurements, as compensated for conductivity measurements become.

The falsification of the measured values M by the varying distance D1, which is due both to the design and dimensioning of the device and to the state of the security, is determined by the evaluation device 7 compensated by the distance values D2. For this purpose, the sound sensor arrangement determines 2 simultaneously with the measuring process of the detector arrangement 6 by means of sonar echo method, the distance D2 between that of the detector array 6 measured measuring point 5 and the sound sensor assembly 2 , Both the measured value M and the distance value D2, then the evaluation 7 supplied to compensate the received into the measured values M distance component K (which is dependent on the distance D1) to compensate ren, and to compare the compensated measured value M with the reference value R.

In the sonar echo method is in the sound sensor 2 an ultrasonic wave front generated in the direction of the value document 3 is emitted. Certain portions of this wavefront are from the surface of the value document 3 the measuring point 5 back to the sound sensor 2 reflected and detected by this. From the length of the time interval between emitting the wavefront and detecting its reflected fraction, the distance value D2 can be determined to the desired accuracy. Of course, the sound emitter and the sound detector do not necessarily have to be in a coherent sound sensor arrangement 2 rather, they may be arranged separately from each other and in different positions with respect to the value document such that the wavefronts generated by the emitter are different from the one of the emitter Sound Detector can be received.

Since the distance value D2 in the embodiment shown with respect to the determination of the measured value M on the opposite side of the measuring point 5 is determined, the distance value D2 is inversely proportional to the distance D1 and the distance component K. To compensate for the distance component K is thus determined from the distance value D1 first by means of a suitable mathematical operation of the distance value D2, from which then to be eliminated from the measured value M. Distance component K is calculated.

During the relationship between the values D1 and D2 alone from the arrangement of the sound sensor assembly 2 and the detector assembly 6 in the device 1 is determined, the relationship between the distance D1 and the distance component K is determined by the signal to be measured concretely and its distance-dependent change or attenuation properties. This information has the evaluation device 7 in the form of given mathematical operations. This compensation can be done, for example, by normalizing the measured values M to a constant distance. After the distance component K has been eliminated from the measured values M in this or a similar way, the measured values M are of a genuine value document 3 largely similar to the reference values R, and that in 1 shown value document 3 would be classified as genuine.

Notwithstanding the embodiment shown here, there are numerous modifications, extensions and modifications within the scope of the present invention. For example, the signal sensor arrangement 2 and the measuring arrangement 6 in principle arbitrary in the test device 1 be arranged, as long as it is possible that measured values M in a sufficient quality and resolution and distance values D2, which are suitable to eliminate the distance component K from the measured values M, are determined. So can the two measuring arrangements 2 . 6 also on the same page of the value document 3 be arranged in such a way that they either corresponding data M, D2 for the measuring point 5 at the same time or in such a way that they collect these data sequentially. In the latter case, however, it must be ensured that the sound sensor arrangement 2 a distance value 2 at exactly the same measuring point 5 determined on the document on which also the corresponding measured value M is determined.

It is also possible that the detector arrangement 6 for each measuring point 5 a plurality of measured values M, for example a magnetic field strength, the amplitude of a fluorescence signal and the intensity of a specific color component of reflected light. Each of these different measured values M is then sent by the evaluation device 7 individually relieved of the corresponding distance component K whose exact effect, as I said, depends on the specific signal type.

When performing the value document 3 through the test device 1 become measuring points in the present exemplary embodiment 5 measured along a measuring track. In principle, several such measuring tracks on the value document 3 be measured either by correspondingly variable sound sensor 2 and detector assemblies 6 which are coordinated and controlled accordingly, or by several sound sensor 2 and detector assemblies 6 ,

For the simultaneous measurement of different measured values M, it is also possible that the detector arrangement 6 across the entire width of a value document 3 is arranged perpendicular to the transport direction, so that a plurality of measured values M at measuring points 5 Different measuring tracks can be collected by several detectors in parallel. The sound sensor arrangement 6 would then expediently also over the entire width of the value document 3 be arranged and for each of the parallel measuring tracks determine their own distance values D2, eg by several sound sensors.

Often results in the varying distance between the detector array 6 and the measuring point 5 from the fact that value documents 3 passing through a testing device at a certain speed 1 be transported, experienced a characteristic high-frequency deflection in the form of a flutter. These and other sources of variable spacing D1 can be minimized prematurely by special design measures in the test apparatus 1 , So it is possible, for example, to provide special suction devices, the value document 3 during its transport near the detector assembly 6 stabilize by forming a negative pressure. Similar effects are exhibited by belt roller systems or pressure brushes, which are the value document 3 against the detector arrangement 6 press and stabilize it.

In particular, the case has been described above that a measured value is modified as a function of the measured distance in order to compensate the distance dependence of the measurement. Additionally or alternatively, however, it is also conceivable to carry out an active regulation of the measuring signals, for example by coupling the amplification of the measuring sensor, for example for magnetism or conductivity, with the distance signal of the distance sensor. Additionally or alternatively, however, is also conceivable, an active control of the illuminance during Fluorescence sensor and / or other optical sensors perform.

Claims (29)

Method for checking a sheet-shaped value document ( 3 ), in particular for testing the magnetic properties of the value document ( 3 ), characterized by the following steps: - passing a measuring point ( 5 ) of the value document ( 3 ) on a detector arrangement ( 6 ); Determining a measured value (M) for the measuring point ( 5 ) by means of the detector arrangement ( 6 ), - determining a distance value (D2) which depends on the distance (D1) of the detector arrangement ( 6 ) to the measuring point ( 5 ) depends; - rules of the detector arrangement ( 6 ) based on the determined distance value (D2) for taking into account the distance dependence of the measured value (M). Method according to claim 1, characterized in that the regulation of the detector arrangement ( 6 ) is performed by the measured value (M) is evaluated in dependence on the distance value (D2). Method according to claim 1 or 2, characterized in that the regulation of the detector arrangement ( 6 ) is performed by amplifying the detector array ( 6 ) is regulated as a function of the distance value (D2). Method according to at least one of the preceding claims, characterized in that the regulation of the detector arrangement ( 6 ) is performed by illuminance of an optical detector array ( 6 ) is regulated as a function of the distance value (D2). Method according to at least one of the preceding claims, characterized in that the distance (D1) of the detector arrangement ( 6 ) to the measuring point ( 5 ) is received as distance component (K) in the measured value (M) and the distance component (K) of the measured value (M) is compensated by means of the distance value (D2). Method according to at least one of the preceding claims, characterized in that the distance value (D2) determines the distance of the value document ( 3 ), in particular the measuring point ( 5 ) to a distance measuring arrangement ( 2 ) describes. Method according to at least one of the preceding claims, characterized in that the distance value (D2) by means of a sound sensor arrangement ( 2 ), in particular according to a Sonarechoverfahren is determined. Method according to at least one of the preceding claims, characterized characterized in that the determination of the distance value (D2) is such takes place that the measured distance value (D2) is proportional to the distance component (K) is. Method according to at least one of the preceding claims, characterized characterized in that the compensation of the distance component (K) by normalizing the measured value (M) to a selected distance value (D2) takes place. Method according to at least one of the preceding claims, characterized characterized in that the determination of the measured value (M) and the distance value (D2) take place simultaneously. Method according to at least one of the preceding claims, characterized in that a plurality of measured values (M) for different properties of the value document ( 3 ), and compensating the respective distance components (K) for these properties is adjusted differently. Method according to at least one of the preceding claims, characterized in that, when determining the measured value (M), magnetic and / or optical properties of the value document ( 3 ) are measured. Method according to at least one of the preceding claims, characterized in that the value document ( 3 ) is stabilized when passing. Contraption ( 1 ) for testing a sheet-shaped value document, in particular for testing the magnetic properties of the value document ( 3 ), comprising: - a transport device for transporting the value document ( 3 ) along a transport route; A detector arrangement ( 6 ), which is arranged on the transport route, to a measuring point ( 5 ) of the value document ( 3 ) to detect at least one measured value (M), characterized in that the device ( 1 ) further comprises: - a sensor arrangement ( 2 ), which is set up to determine a distance value (D2) which depends on the distance (D1) of the detector arrangement ( 6 ) to the measuring point ( 5 ) and - a control device ( 7 ), which is set up, the detector arrangement ( 6 ) due to the determined distance value (D2) to take into account the distance dependence of the measured value (M). Contraption ( 1 ) according to claim 14, characterized in that the control device ( 7 ) an evaluation device ( 7 ), which controls the regulation of the detector arrangement ( 6 ) is carried out by evaluating the measured value (M) as a function of the distance value (D2). Contraption ( 1 ) according to claim 14 or 15, characterized in that the control device ( 7 ) the rules of the detector arrangement ( 6 ) by amplifying the detector array ( 6 ) is regulated as a function of the distance value (D2). Contraption ( 1 ) according to at least one of claims 14 to 16, characterized in that the control device ( 7 ) the rules of the detector arrangement ( 6 ) is performed by illuminance of an optical detector array ( 6 ) is regulated as a function of the distance value (D2). Contraption ( 1 ) according to at least one of claims 14 to 17, characterized in that the distance (D1) of the detector arrangement ( 6 ) to the measuring point ( 5 ) is received as distance component (K) in the measured value (M) and the distance component (K) of the measured value (M) is compensated by means of the distance value (D2). Contraption ( 1 ) according to at least one of claims 14 to 18, characterized in that the sensor arrangement comprises a distance measuring arrangement ( 2 ) and the distance value (D2) the distance of the value document ( 3 ), in particular the distance of the measuring point ( 5 ) to the distance measuring arrangement ( 2 ) describes. Contraption ( 1 ) according to at least one of claims 14 to 19, characterized in that the distance measuring arrangement comprises a sound sensor arrangement ( 2 ), in particular a sonar echo sensor arrangement ( 2 ) to determine the distance value (D2) by means of the sonar echo method. Contraption ( 1 ) according to at least one of claims 14 to 20, characterized in that the sound sensor arrangement ( 2 ) is arranged to determine the distance value (D2) such that it is proportional to the distance (D1). Contraption ( 1 ) according to at least one of claims 14 to 21, characterized in that the evaluation device ( 7 ) is arranged to compensate the distance component (K) by normalizing the measured value (M) to an excellent distance value (D2). Contraption ( 1 ) according to at least one of claims 14 to 22, characterized in that the sound sensor arrangement ( 2 ) for determining the distance value (D2) and the detector arrangement ( 6 ) for determining the measured value (M) the measuring point ( 5 ) with an area of preferably 3 mm ² erfas sen. Contraption ( 1 ) according to at least one of claims 14 to 23, characterized in that the sound sensor arrangement ( 2 ) and the detector arrangement ( 6 ) are arranged so that the determination of the measured value (M) and the distance value (D2) takes place simultaneously. Contraption ( 1 ) according to at least one of claims 14 to 24, characterized in that the sound sensor arrangement ( 2 ) and the detector arrangement ( 6 ) are arranged on opposite sides of the transport path. Contraption ( 1 ) according to at least one of claims 14 to 25, characterized in that the detector arrangement ( 6 ) comprises a magnetic field detector and / or an optical detector, preferably a fluorescence detector. Contraption ( 1 ) according to at least one of claims 14 to 26, characterized in that the evaluation device ( 7 ), the compensation of the respective distance component (K) from a plurality of measured values (M) of different properties of the value document ( 3 ) to adapt differently to these properties. Contraption ( 1 ) according to at least one of claims 14 to 27, characterized in that the transport device comprises a stabilization device which is set up, a guided value document ( 3 ) to stabilize during transport. Contraption ( 1 ) according to claim 28, characterized in that the stabilizing device is a roller-belt system, a suction device or a pressure brush.