Patent Grant
11610449
The invention relates to an apparatus and a method for classifying value documents as well as to a value-document processing system having such an apparatus.
Upon the machine processing of value documents, for example bank notes, cheques, coupons or vouchers, these are often classified, for instance with regard to denomination, authenticity and/or state, and depending on the result of the classification they are further processed, for example sorted. For this purpose, properties of the value documents are captured by means of sensors. The sensors have respectively assigned thereto a processor unit in which the raw data generated by the respective sensor are subjected to a pre-evaluation. With the aid of the results of the pre-evaluations in the different processor units, a classification of the respective value document is performed in a central instance and the value document is sorted accordingly.
It is the object of the present invention to make the classification of value documents more reliable and more efficient.
This object is achieved by the apparatus and the method for classifying value documents according to the independent claims as well as by the value-document processing system having such an apparatus.
The apparatus for classifying value documents, in particular bank notes, according to the invention, has at least two sensor devices which are arranged to capture waves, in particular electromagnetic waves, reflected on a front side and on a back side of a value document and to generate corresponding sensor data or to capture properties of the value document in at least two different regions of the value document by means of different measuring principles and to generate corresponding sensor data. At least one evaluation device is arranged to classify the value document with the aid of the sensor data generated by the at least two sensor devices, which sensor data relate to the waves reflected on the front side and back side of the value document or to the properties of the value document captured in the at least two different regions of the value document by means of different measuring principles.
The value-document processing system according to the invention has: an apparatus for classifying value documents according to the invention and a sorting apparatus which has different sorting pockets and is arranged to output the value documents into the different sorting pockets in dependence on the classification effected with the aid of the sensor data.
The method for classifying value documents according to the invention has the following steps: capturing waves, in particular electromagnetic waves, reflected on a front side and on a back side of a value document and generating corresponding sensor data or capturing properties of the value document in at least two different regions of the value document by means of different measuring principles and generating suitable sensor data; classifying the value document with the aid of the generated sensor data which relate to the waves reflected on the front side and back side of the value document or to the properties of the value document captured in the at least two different regions of the value document by means of different measuring principles.
One aspect of the invention is based on the approach of merging sensor data from several sensor devices in one evaluation device, evaluating the merged sensor data in the evaluation device, and classifying the value document according to the result of the evaluation of the merged sensor data. The merged sensor data are raw data which are generated by the sensor devices when these capture waves, in particular electromagnetic waves, reflected on the front side and on the back side of the value document. Alternatively, the merged sensor data are raw data which are generated by the sensor devices when these capture properties of the value document in at least two different regions of the value document by means of different measuring principles. By the merging in the evaluation device, the raw data generated by the different sensor devices can be directly linked with each other, for example correlated, upon the classification of the value document, which allows an especially reliable classification. Additionally, dependencies of the sensor data can be recognized and thus redundant evaluations, such as in separate processor units, can be avoided. On account of the merging of the sensor data of different sensor devices in one evaluation device one can also speak of a fusion or fusing the different sensor data or raw data. Since the sensor data of the several sensor devices required for a classification of a value document are present in the respective evaluation device, one can further do without a copying of sensor data or forwarding of results of a pre-evaluation of the sensor data into or to further evaluation devices. This allows a particularly efficient classification.
Altogether, the invention thus allows a reliable and efficient classification of value documents.
Sensor data or raw data within the context of the invention relate to the signals generated by a sensor device which are generated upon capturing a property of a value document. Sensor data thus represent e.g. the reflection behaviour and/or transmission behaviour of the value document with regard to electromagnetic waves or ultrasonic waves, the electric conductivity, dielectric or magnetic properties of the value document or of at least certain regions of the value document.
In a preferred embodiment the at least one evaluation device has a memory unit for data storage. Additionally, a control device is provided which is arranged to write the sensor data generated by the at least two sensor devices into the memory unit of the at least one evaluation device. This allows the at least one evaluation device to access the sensor data of all sensor devices at any time and to link the sensor data accordingly, so that the classification of the value document based thereon is especially reliable. In particular, in the memory unit there are thus always present current sensor data of the at least two sensor devices, so that the at least one evaluation device can classify the value document simply with the aid of the current sensor data.
The control device is preferably arranged to write the sensor data of the at least two sensor devices independently of each other into the memory unit, so that the sensor data can be processed more efficiently. If the sensor devices generate the sensor data for example with different clock rates, in particular because the capture of the properties of the value document is based on different measuring principles and/or the size of the different regions in which the properties are captured varies, the sensor data of a sensor device having a higher clock rate are written more often, in particular with the higher clock rate, into the memory device than the sensor data of another sensor device with a lower clock rate.
In a further preferred embodiment, at least two evaluation devices are provided which each have a memory unit. Additionally, the control device is arranged to write the sensor data generated by the at least two sensor devices into each memory unit of the at least two evaluation devices. This ensures that each evaluation device, preferably at any time, has access to current sensor data of all sensor devices and these sensor data can be linked, so that the classification based thereon becomes especially precise, i.e. reliable.
In a further preferred embodiment, each of the at least two sensor devices has assigned thereto an evaluation device. This is advantageous for example when each of the evaluation devices is arranged to carry out a classification with regard to a respectively specified class, in particular with the aid of a respectively specified algorithm, the classification with regard to the respectively specified class advantageously being based on sensor data of the sensor device to which the respective evaluation device is assigned. A class within the context of the invention relates to a feature of value documents, such as for example denomination, authenticity or state. For example, a value document can be classified especially reliably with regard to its denomination through sensor data of a sensor device which captures optical properties of the value document, while a value document can be classified especially reliably with regard to its authenticity through sensor data of a sensor device which captures magnetic and/or electric properties of the value document. Due to the fact that each sensor device has assigned thereto an evaluation device, the value documents can be classified with regard to different classes with the aid of the respectively advantageous sensor data. As, in so doing, the evaluation devices have also access to other sensor data of other sensor devices, however, the respectively advantageous sensor data can additionally be linked with other sensor data. This makes the classification still more reliable.
The evaluation devices are preferably arranged to perform a classification of a value document with regard to several classes by means of corresponding algorithms. This allows an evaluation device to carry out, e.g. after a classification of the value document with regard to one class for example on the basis of sensor data of the sensor device assigned to this evaluation device, a further classification with regard to a further class. This is possible, because each evaluation device has available the sensor data of other, in particular of all the other sensor devices. This avoids that the evaluation devices, which have carried out a classification especially fast, transition into an idle state. This makes classifications of value documents especially efficient.
In a further preferred embodiment, the sensor devices configured for capturing the electromagnetic waves reflected from the front side and back side of the value document have a first image sensor and a second image sensor. The first image sensor is preferably arranged to capture a remission image of the front side of the value document and to generate corresponding first image sensor data. The second image sensor is preferably arranged to capture a remission image of the back side of the value document and to generate corresponding second image sensor data. The evaluation device is arranged to classify the value document with the aid of the first image sensor data and the second image sensor data. This is especially advantageous when a classification of value documents is to be performed with regard to their denomination, because this can be ascertained especially reliably with the aid of remission image data of the front side and back side, for example by an analysis of the captured printed image or regions of the printed image, such as printed numbers. This embodiment is therefore advantageous in particular in connection with a denomination separation or sorting according to denomination. The evaluation device is thus preferably arranged to ascertain the denomination of the value document with the aid of the first image sensor data and the second image sensor data.
Preferably, the first image sensor and the second image sensor are configured as photodiode sensor array, CCD sensor array or CMOS sensor array.
In a further preferred embodiment, the sensor devices, which are configured for capturing properties of the value document in at least two different regions of the value document by means of different measuring principles, have at least two different sensor types of the following sensor types:
The evaluation device is here configured to classify the value document with the aid of the sensor data generated by the at least two different sensor types, which sensor data relate to properties of the value document captured in the at least two different regions of the value document. By linking the sensor data of different sensor types obtained for the different regions of the value document, this can be classified with regard to certain classes, such as for example authenticity, especially reliably.
In a further preferred embodiment, the evaluation device is arranged to check the authenticity of the value document with the aid of the sensor data generated by the at least two different sensor types, which relate to properties of the value document captured in the at least two different regions of the value document, and/or to classify the value document accordingly. This is especially advantageous when different regions of the value document have different security features which can be captured by the respective sensor type especially reliably. In particular, in a region of the value document having an optical security feature, for example a specified pattern, reflected and or transmitted electromagnetic waves can be captured by an optical sensor, for example an image sensor. In a further region of the value document, which has a security feature to be captured by means of ultrasound, for example a watermark, the thickness of the value document can be captured with the aid of a locally resolving ultrasonic sensor. In a different region of the value document, however, which has a magnetic security feature, for example a lettering printed with magnetic ink, the magnetic field strength can be captured with the aid of a magnetic sensor, for example a Hall probe. In a further region of the value document, which has a capacitive or dielectric security feature, for example a metallic security strip, a dielectric constant or a conductivity can be ascertained with the aid of a dielectric sensor, for example of a capacitor.
Further advantages, features and application possibilities of the present invention will result from the subsequent description in connection with the Figures. There are shown:
The first sensor device 2 and the second sensor device 3 are arranged to capture properties of a value document, for example the transmission and/or reflectivity of the value document with regard to electromagnetic waves or ultrasonic waves, magnetic or dielectric properties of the value document, and to convert these into corresponding sensor data 8, so-called raw data. The sensor devices 2, 3 are configured accordingly, e.g., as optical sensors, in particular image sensors, piezoelectric ultrasonic sensors, Hall probes or capacitors.
Preferably, the first and/or second sensor device 2, 3 can capture the properties of the value document in locally resolved fashion. For this, the sensor devices 2, 3 or at least a part of the sensor devices 2, 3 preferably have respectively a one- or two-dimensional array of sensors, for example semiconductor detectors for capturing electromagnetic waves or piezoelectric elements for capturing ultrasound. Alternatively or additionally, the sensor devices 2, 3 can be arranged to scan the value document or at least a region of the value document, while the value document and the respective sensor device 2, 3 are moved relative to each other.
The sensor data 8 respectively generated by the sensor devices 2, 3 are written into a first memory device 9 of the first evaluation device 4 and into a second memory device 10 of the second evaluation device 5 by the control device 6, which is indicated by the arrows.
Preferably, the control device 6 here controls the data flow in such a way that the sensor data 8 of the two sensor devices 2, 3 are written into each of the memory units 9, 10 of the evaluation devices 4, 5, so that each of the evaluation devices 4, 5 has direct access to the sensor data 8 generated by the two sensor devices 2, 3. This allows that each of the evaluation devices 4, 5 has the possibility to classify a value document not only with the aid of the raw data generated by only one sensor device 2 or 3, but to take into account here also the raw data generated by the other sensor device 3 or 2, respectively, e.g. by a suitable linkage of the raw data.
The results 11 of the classification made in the evaluation devices 4, 5, which results preferably relate to different classes, are transferred to a central instance 7. For example, the first evaluation device 4 can be arranged to classify the value document with regard to its denomination, while the second evaluation device 5 can be arranged to classify the value document with regard to its authenticity.
The central instance 7 is preferably arranged to control a further processing, in particular sorting of the value document according to the results 11 of the classification. For example, all the value documents of a first denomination which were classified as authentic are output into the first container, while all the value documents of a second denomination which were classified as authentic are output into the second container, etc.
If the central instance 7 needs only one result 11 with regard to a class, for example because value documents are to be sorted only with respect to their denomination regardless of their authenticity or their quality, it is also possible to do without some evaluation devices, for example the second evaluation device 5.
The first and second sensor device 2, 3 (see
The position and/or size of the first, second and/or third region 15-17 is preferably chosen such that there the value document has reflection properties which are characteristic for the denomination of the value document 14. For example, in the regions 15-17 the printed image of the value document 14 has certain features 15′-17′, in particular in the form of a numeral and/or a pattern, with the aid of which the denomination of the value document 14 can be ascertained, for example whether it is a 5-euro bank note or 10-euro bank note.
The first and second sensor data, in the described example, are image sensor data which—as already explained in more detail in connection with
Due to the fact that in the first evaluation device the value document 14 can be classified with the aid of merged image sensor data, only one result of the classification, i.e. the denomination of the value document 14, must be transferred to the central instance 7. Further, in this case, the second evaluation device 5 for the classification of the value document 14 with regard to its denomination can be saved or be used for a classification with regard to a different class, as for example soiling.
The preceding explanations regarding the example shown in
The different sensor types capture properties of the value document 14 with different measuring principles. For example, in the present example, this can be an image sensor, for example a camera, a dielectric or capacitive sensor, for example a capacitor, as well as an ultrasonic sensor, for example an array of piezoelectric elements. The sensors are preferably arranged to capture the respective properties of the value document 14 in locally resolved fashion, so that the accordingly generated sensor data respectively correspond to an optical, capacitive or ultrasonic image of the three different regions 15-17.
In the first region 15, the image sensor preferably captures an optical security feature 15″ of the value document 14, for example a specified pattern. In the second region 16, the dielectric or capacitive sensor captures a dielectric security feature 16″ of the value document 14, for example, a dielectric number of a security strip. In the third region 17, the ultrasonic sensor captures a security feature 17″ of the value document 14 which is only capturable with the aid of ultrasonic waves, for example a varying thickness of the value document 14. Accordingly, these sensor data characterize the authenticity of the value document 14.
The sensor signals generated by the three different sensor types are written e.g. into the first memory device 9 of the first evaluation device 4 (see
For example, the first evaluation device 4 can be configured to evaluate the image points of the images corresponding to the three different regions 15-17 with regard to one or several, in particular three, threshold values.
Due to the fact that in the first evaluation device 4 the value document 14 is classified with the aid of merged sensor data, only one result of the classification, in the present example with regard to authenticity, of the value document 14 must be transferred to the central instance 7. The instance 7 itself does not need to perform a classification, but only controls the further processing, in particular sorting of the value document depending on the ascertained class. Thus, a second evaluation device 5 or any further evaluation devices (not represented in
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2016 013 515.8 | Nov 2016 | DE | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2017/001302 | 11/8/2017 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2018/086738 | 5/17/2018 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 6311819 | Stromme | Nov 2001 | B1 |
| 7440604 | Tsuji et al. | Oct 2008 | B2 |
| 8331643 | Yacoubian | Dec 2012 | B2 |
| 9141876 | Jones | Sep 2015 | B1 |
| 9666007 | Hecht et al. | May 2017 | B2 |
| 10573113 | Derks | Feb 2020 | B2 |
| 20040240721 | Tsuji et al. | Dec 2004 | A1 |
| 20160321851 | Hecht et al. | Nov 2016 | A1 |
| Number | Date | Country |
|---|---|---|
| 1573823 | Feb 2005 | CN |
| 105830128 | Aug 2016 | CN |
| 102009057348 | Jun 2010 | DE |
| 2004355261 | Dec 2004 | JP |
| 9840839 | Sep 1998 | WO |
| Entry |
|---|
| Office Action from corresponding Chinese Application No. 201780068459.7, dated Sep. 1, 2020. |
| International Search Report and Written Opinion from PCT Application No. PCT/EP2017/001302, dated Mar. 5, 2018. |
| Number | Date | Country | |
|---|---|---|---|
| 20190266826 A1 | Aug 2019 | US |
