EP3789976B1 - Document authenticity testing method, computer program product, test device and data processing system - Google Patents

Description

The present invention relates to a method for checking the authenticity of a document as well as a corresponding computer program product and a corresponding data processing system.

It is known from the prior art to optically capture identification documents in order to check the authenticity of the identification documents.

In particular, the detection of the machine readable zone (MRZ) specified by the International Civil Aviation Organization (ICAO) on machine-readable travel documents in the infrared (IR) range is known, as is the checking of fluorescent security features using UV radiation. In this regard, reference is made to US 7,046,346 B2 and US 2007/0260886 A1 .

The US 2006/078186 A1 describes a magnetic detection system for authenticating a banknote, which includes a first magnetic scanning head adapted to generate a first magnetic field for saturating the magnetization of a region of the banknotes. The magnetic detection system further includes a second magnetic scanning head with an electromagnet. The electromagnet is designed to generate a second magnetic field with adjustable intensity. The second magnetic field has the opposite polarity of the first magnetic field. The intensity of the second magnetic field is adjusted by changing the amount of current supplied to the electromagnet. The amount of current supplied to the electromagnet is based on a characteristic of the bill being authenticated.

The US 2004/222283 A1 describes a system, method and program product for providing real-time authentication and capture of a paper currency, ie a banknote, at a point of sale. A point of sale terminal for real-time authentication and recording of paper currency, a currency monitoring system for tracking the use of the paper currency and performing paper currency authentication with reference to a database of a currency issuing entity, and a reconciliation system for matching a terminal of a point of sale are provided.

The JP 2002 170142 A describes a payment machine with a safe for small bundles of banknotes independent of safes which are assigned denominations. Banknotes delivered from respective vaults by denomination are sealed with the associated denomination information provided. Small bundles of banknotes are managed and stored based on denomination information. A small bundle of banknotes of a described denomination is selected and paid out according to a payment order.

The DE 199 06 388 A1 describes a method and a device for personalizing and verifying identity and security documents as well as a security document that can be used with it. The identity or security document includes personal data affixed to and/or incorporated into the document in alphanumeric and/or graphic form. According to the invention, the personal data and/or data correlated with it are present in a second, machine-readable form on/in the document and can be read from the document together with the personal data using a corresponding testing device and checked for consistency.

The EP 1 883 053 A1 describes techniques for generating fingerprints of items and using the fingerprints for various applications. Scan-related parameter values, including the area of a scanned item, can be specified and varied from scan to scan to collect data points used to generate fingerprints of the items. Also described is a paper shredder that is configured so that before shredding a sheet of paper, it scans the paper sheet and creates a fingerprint of the paper sheet. Fingerprints can also be generated for media keys used to access media data. The fingerprint generated for a media key can be used to authenticate the media key. Access to media data corresponding to the media key can be made dependent on successful authentication of the media key.

The invention is based on the object of creating an improved method for checking the authenticity of a document as well as a computer program product, an electronic device for checking the authenticity of a document and a data processing system.

According to embodiments of the invention, a method for checking the authenticity of a document is created, wherein a first image of the document is recorded with first image recording parameters. At the first image capture parameters These can be standardized image capture parameters that are used regardless of the type of document.

Information is then automatically recognized in the first image using an optical character recognition (OCR) process. The information is a direct or indirect indication of the document type of the document from which the first image was captured. For example, the information includes information about the state that issued the document and the date of issue. If the documents to be checked are passports, this information determines the document type, since each state specifies the characteristics of the passport documents it issues. The information can be given in plain text in the partial area captured by the first image or in a coded form.

With the help of the information recognized from the first image, a database query is carried out in order to query second image capture parameters for capturing a second image of the document. For this purpose, type-specific second image recording parameters are stored in a database. The second image recording parameters assigned to a specific document type can therefore be retrieved from the database become. For this purpose, the information recognized from the first image is used as an access key.

A second image of the document is then captured using the second image capture parameters. This is preferably a full image of the document, which can include the entire front and/or back of the document.

According to one embodiment of the invention, the first image is recorded with predefined settings for the parameters of the image recording and image processing. These may be parameters stored at the factory in non-volatile memory of the device used to verify the authenticity of the document. For the document type recognition of the document, the first image can contain the so-called MRZ (machine readable zone, e.g. as specified by the ICAO). In the MRZ, for example, the document format or the type and/or country of manufacture is specified in machine-readable form.

The evaluation of this information captured from the MRZ by OCR is carried out via a corresponding query in a database that provides document-specific parameters for further image captures, in particular the capture of the second image, and that provides the possible inspection features of the document and other individualized information . The further testing routine of the device then runs with the specific parameters read from the database, which differ from the factory settings.

According to one embodiment of the invention, at least one of the security features of the document to be checked is fluorescent. In this embodiment, it is particularly advantageous that the first image can be recorded without significantly stimulating the fluorescence of the security feature. Second image recording parameters are then used to record the second image, so that the fluorescence of the security feature is excited in such a way that checking the security feature in the second image is easily or optimally possible.

Due to the type-specific second image recording parameters, it can be avoided in particular that the fluorescence is not excited enough, which would mean a low signal-to-noise ratio, or that the fluorescence is excited too much, so that the optical sensor would saturate.

According to one embodiment of the invention, the second image recording parameters include one or more parameters relating to the illumination of the document, in particular with regard to the intensity of the illumination and/or with regard to the exposure of an optical sensor with the aid of which the second image is recorded, in particular the exposure time and/or a gain factor. Alternatively or additionally, the radiation frequency of the illumination can be specified in the second image recording parameter.

According to the invention, in addition to the type-specific second image recording parameters, the database also contains type-specific information about the security features, with the type-specific information about the security features being queried during the database query in order to use it for checking based on the second image. The information on the security features includes information on the location and shape of the security features. These target features are then compared with the actual features present in the second image, with the authenticity of the document being assumed if the actual features match the target features sufficiently.

According to one embodiment of the invention, the document is a value or security document, such as an ID document, i.e. H. an identification document, such as an ID card, passport, driving license or company ID card, or a means of payment, such as a banknote, a credit card, or other proof of authorization, such as an admission ticket, a consignment note, a visa or the like.

In a further aspect, the invention relates to a computer program product with program instructions that can be executed by a testing device for carrying out a method according to the invention.

An electronic device for checking the authenticity of a document includes, for example, means for recording a first image of at least a partial area of the document with first image recording parameters and for recording a second image of the document with second image recording parameters, means for recognizing information in the first image, and means for Carrying out a database query using the information to query the second image recording parameters.

The initial image capture parameters are the same for all supported document types. The first image recording parameters can therefore be stored in a memory of the electronic device. The first image capture parameters can also be part of the firmware of the electronic device.

For example, the electronic device has one or more optical sensors for sensing different optical spectral ranges, as well as one or more radiation sources for illuminating the document in different spectral ranges.

For example, the electronic device also has a radio interface, in particular a so-called RFID interface, for wireless communication via electromagnetic waves with an electronic circuit integrated in the document, in particular a so-called RFID chip. The RFID chip can store digitized data of a facial image printed or displayed on the document and/or other data, such as biometric data, information about the person carrying the document and/or about the authority issuing the document.

At least some of the data stored in the chip can be cryptographically protected against unauthorized access, so that only authorized testing devices can access the data stored in the chip via their radio interface. For example, data captured from the second image can be compared with data, that are read from the chip are compared by the testing device. If the data captured from the second image sufficiently matches the data read from the chip, the document is assumed to be authentic.

In a further aspect, the invention relates to a data processing system for checking the authenticity of documents.

According to embodiments of the invention, the data processing system includes a plurality of disclosed test devices that can communicate with the database via communication connections, such as a network, in order to query the second image recording parameters from there.

Embodiments of the invention are particularly advantageous because different types of documents can be checked safely and efficiently using the same method or the same testing device. For example, the document types can differ greatly in terms of their reflection behavior. This is particularly true for paper-based documents compared to documents with a plastic surface and laminated documents. The different reflection behavior can lead to different contrast and response behavior of a fluorescent security feature under the same lighting. The invention provides a remedy here because the lighting is selected depending on the document type.

This is particularly advantageous for checking fluorescent security features. The response behavior of such a fluorescent security feature can vary greatly from document type to document type, depending on the color or ink used. With the same image recording parameters, fluorescent security features can be recorded in a strongly overcontrolled manner in one type of document, whereas in another type of document there is hardly any excitation of the fluorescence, so that the security feature is barely visible. The invention also provides a remedy here, since the second image recording parameters are selected specifically for the document type. This allows optimal image quality to be achieved for all supported document types.

Figur 1

ein Blockdiagramm einer ersten Ausführungsform eines Prüfgeräts,

Figur 2

ein Flussdiagramm einer Ausführungsform eines erfindungsgemäßen Verfahrens,

Figur 3

ein Blockdiagramm einer Ausführungsform eines erfindungsgemäßen Datenverarbeitungssystems.

Embodiments of the invention are explained in more detail with reference to the drawings. Show it:

Figure 1

a block diagram of a first embodiment of a testing device,

Figure 2

a flowchart of an embodiment of a method according to the invention,

Figure 3

a block diagram of an embodiment of a data processing system according to the invention.

Elements of the following figures that correspond to one another are identified with the same reference numerals.

The Figure 1 schematically shows a document 100, which can be an identification document, such as a passport. The document 100 carries a facial image 102. The facial image 102 may be printed on the document 100. Alternatively or additionally, the document 100 has an integrated display device on which the facial image 102 is displayed.

In addition to the facial image 102, the document 100 can contain further security features, in particular optical security features.

• Guillochen: Guillochen werden mit Hilfe von so genanntem Liniendruck auf das Dokument aufgedruckt. Sie bestehen im Allgemeinen aus in verschiedenen Farben übereinander gedruckten Wellen- und Schleifenmustern;
• Mikro-Schrift: Hierbei handelt es sich um aufgedruckte Schriftzüge in kleinster Schrift. Mit bloßem Auge lässt sich die Mikro-Schrift kaum erkennen. Beispielsweise ist Mikro-Schrift auf den Euro-Banknoten als Bildelemente in die Motive eingearbeitet. Mit Hilfe einer Lupe kann die Mikro-Schrift gelesen werden;
• Metamere Systeme: Aufgrund metamerer Farbgleichheit können unterschiedliche spektrale Zusammensetzungen des Lichts bei Menschen den gleichen Farbeindruck hervorrufen;
• Aufdrucke mit Fluoreszenz, Phosphoreszenz und/oder Up-Conversion-Farben;
• Aufdrucke mit Infrarot-Farbe: Die Farbe wird nur unter Infrarot-Strahlung für Lesegeräte mit entsprechenden Sensoren sichtbar. Beispielsweise sind Euro-Banknoten mit diesem optischen Sicherheitsmerkmal ausgestattet;
• Barcodes, insbesondere ein- oder zweidimensionale Barcodes;
• Optisch variable Farben (OVI - Optical Variable Ink): Bei einer optisch variablen Farbe ändert sich der Farbeindruck je nach Betrachtungswinkel, da das Licht an den Pigmenten gebrochen, gestreut oder reflektiert wird;
• Hologramme und Kinegramme (transparent oder reflektierend);
• Wasserzeichen, insbesondere digitale Wasserzeichen, die eine maschinell auslesbare Information tragen;
• Passerdruck: Verschiedene Muster oder Symbole werden so über- oder aneinander gedruckt, dass sie zusammen ein bestimmtes Bild ergeben. Kleinste Abweichungen im Stand, d.h. so genannte Passerungenauigkeiten, können leicht mit bloßem Auge erkannt werden. Wenn sich die Teilbilder auf verschiedenen Seiten des Dokuments, wie zum Beispiel einer Banknote, befinden, bezeichnet man dieses optische Sicherheitsmerkmal als Durchsichtspasser;
• Durchsichtsfenster: Ein Fenster aus einer transparenten Kunststofffolie ist in dem Dokument eingearbeitet;
• Melierfasern: Dem Papier des Dokuments werden Fasern beigemischt, die unter UV-Licht in verschiedenen Farben leuchten;
• Sicherheitsfaden;
• Mikroperforation.

The visual security features include, for example:

• Guilloches: Guilloches are printed on the document using so-called line printing. They generally consist of wave and loop patterns printed on top of each other in different colors;
• Micro-font: This is printed lettering in the smallest font. The micro-writing can hardly be seen with the naked eye. For example, micro-writing on the euro banknotes is incorporated into the motifs as image elements. The micro-writing can be read with the help of a magnifying glass;
• Metameric systems: Due to metameric color uniformity, different spectral compositions of light can produce the same color impression in people;
• Prints with fluorescence, phosphorescence and/or up-conversion colors;
• Prints with infrared color: The color is only visible under infrared radiation for readers with appropriate sensors. For example, euro banknotes are equipped with this optical security feature;
• Barcodes, in particular one- or two-dimensional barcodes;
• Optically variable colors (OVI - Optical Variable Ink): With an optically variable color, the color impression changes depending on the viewing angle because the light is refracted, scattered or reflected by the pigments;
• holograms and kinegrams (transparent or reflective);
• Watermarks, in particular digital watermarks that carry machine-readable information;
• Registration printing: Different patterns or symbols are printed over or next to each other so that together they form a specific image. The smallest deviations in the stand, ie so-called registration inaccuracies, can easily be detected with the naked eye. If the partial images are on different sides of the document, such as a banknote, this optical security feature is referred to as a see-through register;
• Transparent window: A window made of a transparent plastic film is incorporated into the document;
• Mottled fibers: Fibers are added to the paper of the document that glow in different colors under UV light;
• security thread;
• Microperforation.

For example, the document includes a security thread 104 and an imprint 106 with a fluorescent color that is only visible under ultraviolet (UV) illumination. The document 100 can contain more, in the Figure 1 have optical security features, not shown.

The document 100 also has a portion 108 that carries machine-readable information. The sub-area 108 can be, for example, the so-called Machine Readable Zone (MRZ), as specified by the ICAO. In particular, the location and size of the sub-area 108 as well as other parameters of the sub-area 108, such as the font size and font used, can be set globally uniformly for all supported document types.

The document 100 may further have an electronic chip 110 integrated into the document body. The chip 110 is preferably designed to establish a wireless communication connection with a test device 112. The chip 110 can be, for example, a so-called RFID chip.

The chip 110 has an electronic memory 114. The facial image 102 can be stored in digitalized form in the electronic memory 114 and/or further data regarding the owner of the document 100 and/or the office issuing the document. The data stored in the electronic memory 114 may be at least partially cryptographically protected to prevent unauthorized access to the data. The cryptographic protection of the data stored in the electronic memory 114 can be carried out, for example, by a so-called Basic Access Control and/or an Extended Access Control, as also specified by the ICAO.

The testing device 112 has at least one optical sensor 116 for optically detecting the document 100. Furthermore, the testing device 112 has a radiation source 118 for illuminating the document 100 with radiation in the infrared (IR) range and a radiation source 120 for illuminating the document 100 in the ultraviolet ( UV) range. A single radiation source covering a wide spectral range can also be used. Depending on the image recording parameter used, partial areas can be filtered out that are to be used for the respective recording.

In front of the optical sensor 116 is a shutter 122, i.e. H. a so-called shutter, arranged, which releases an opening during the exposure time through which radiation reflected from the document 100 and/or radiation transmitted through the document can impinge on the optical sensor 116.

The optical sensor 116 can be, for example, a camera, such as a CCD sensor. The optical sensor 116, the radiation sources 118 and 120 and the shutter 122 are controlled by a processor 124 of the test device 112.

The processor 124 is used to execute the program instructions of a program 126. The program 126 contains program instructions 128 for recording a first image of the partial area 108 based on first image recording parameters. The first image capture parameters can be included in the program instructions 128.

Furthermore, the program 126 includes program instructions 130 for optical character recognition (OCR) in the first image, ie in the MRZ. The program 126 also includes program instructions 132 for carrying out a database query based on information obtained from the MRZ using OCR, which directly or indirectly indicates the type of document 100.

The program 126 further includes program instructions 134 for recording the second image of the document 100 based on the type-specific second image recording parameters received from the database 136. The second image can be an overall image, i.e. H. a complete picture of the document, which is also known as full-page reading.

The program 126 further includes program instructions 138 for evaluating the second image to check one or more security features of the document. If, for example, the security features assigned to the document type of the document 100 in the database 136 are present in the second image, the document 100 is considered genuine.

The program 126 may further include program instructions 140 to provide a user interface. The user interface 140 can be formed by an optical and/or acoustic signal output. For example, a first signal is issued if the document has been recognized as authentic and a second signal if the document has not passed the authenticity check.

The user interface can also be designed as a graphical user interface. In this case, a screen 142 is connected to the test device 112; for example, the screen 142 may be used to display the second image of the document to visually inspect the second image.

For example, the testing device 112 should be usable for checking passports from different countries. The supported document types are the passports of the different countries, each of which is specified differently.

For example, a first document type is the passport of a country A. The second image is taken for this document type optimal with certain second image recording parameters. For lighting, this is the parameter I(A), which indicates, for example, the current strength or voltage for controlling the radiation source 120, and the parameter T(A), which indicates the exposure time, ie the opening time for the shutter 122. Alternatively or additionally, the lighting duration of the radiation source 120 can also be specified as an exposure parameter.

Furthermore, in the database 136 the first document type, i.e. H. the passport of country A, one or more security features may be assigned, which can be specified, for example, by their location in the document and their form. The same applies to another type of document, i.e. H. the passport of country B, for which other, second image recording parameters are specified in the database 136, namely the parameter I (B) for the illumination and the parameter T (B) for the exposure time as well as a specification of the security features of the passport of country B, for example in terms of their location and shape.

For example, each entry in the database 136 relates to a specific document type, i.e. H. here the passport of a specific country.

Optionally, the test device 112 can have an interface 144 for communication with the chip 110. For example, the interface 144 can be a so-called RFID interface. The interface 144 can also be controlled by the processor 124.

The program instructions 128, 130, 132, 134, 138 and 140 can be implemented entirely or partially as so-called firmware. The program instructions can then be updated via a so-called firmware update. In particular, the first image recording parameters for recording the first image can be updated in this way if they are part of the program instructions, in particular part of the program instructions 128.

To check document 100, proceed as follows:
The execution of the program instructions 128 is started so that the radiation source 118 is activated to irradiate the document 100 with IR radiation. Furthermore, the shutter 122 is controlled so that it opens during an opening time given by the first image capture parameters. The current intensity or the voltage for driving the radiation source 118 is also given by the first image recording parameters.

The optical sensor 116 therefore records the first image of the partial area 108 with the first image recording parameters.

After the first image has been captured, execution of the program instructions 130 is started to carry out the OCR. As a result of the OCR, information is recognized in the image, such as an indication of the country that issued the document 100. Furthermore, without limiting the generality, it is assumed that this is country A.

After the information has been recognized, the execution of the program instructions 132 is started. By executing the program instructions 132, a database query is generated which contains the information, i.e. H. contains the information “Country A” as the access key. The database 136 then responds to the database query by outputting the database entries associated with the document type for country A, i.e. H. the second image recording parameters I(A) and T(A) and the description of the security features that are assigned to this document type in the database 136.

After receiving the response from the database 136, execution of the program instructions 134 is started to capture the second image, ie an overall image, of the document 100 using the second image capture parameters. For this purpose, the radiation source 120 is controlled according to the parameter I(A) in order to ensure the optimal illumination in accordance with the specification of the second image recording parameters. Furthermore, the shutter 122 is controlled to expose the optical sensor 116 during the exposure time T(A).

After the entire image of the document 100 has been recorded by the optical sensor 116, the execution of the program instructions 138 for evaluating the second image is started. By executing the program instructions 138, it is checked, for example, whether the security features specified in the response from the database 136 are present in the second image.

If a sufficient match between the security features found in the second image and the security features specified in the response from the database is determined by executing the program instructions 138, a corresponding signal is output via the user interface by executing the program instructions 140 to notify a user of the result of the review of document 100.

Alternatively or additionally, such a signal indicating the result of checking the document can be output to another device which further processes this signal. This further device can be, for example, a turnstile or the like, which is released upon receipt of a signal indicating the authenticity of the document 100.

According to embodiments of the invention, the chip 110 can also be included in the checking of the document 100. For this purpose, the data stored in the electronic memory 114 of the chip 110 is read out by the interface 144 of the test device 112. This data can then be compared with data recognized from the first and/or second image. The correspondence of the data read from the electronic memory 114 and the data recognized from the first and/or second image may be a necessary prerequisite for passing the authenticity check of the document 100.

For example, the digitized data of the facial image 102 read from the electronic memory 114 is displayed next to the second image on the screen 142 so that the two images can be checked for consistency.

Furthermore, it is also possible that, for example, the fluorescent print 106 contains data that appears in the second image, since it was recorded with the help of the UV radiation source 120. This data can also be compared with data retrieved from the electronic memory, for example by outputting this data on the screen 142 or comparing it with one another automatically.

The Figure 2 shows a corresponding flowchart. In the image 200, a first image with first image capture parameters is recorded to check a document, the first image capture parameters being standardized. The first image capture parameters are therefore used in every case, regardless of the document type. Illumination in the IR range is preferably used to capture the first image, since in the IR range the reflection behavior is largely independent of the document type and, furthermore, fluorescent security features are not addressed by irradiation in the IR range. The first image for recording the MRZ can therefore be recorded with high quality for all document types on the basis of the standardized first image recording parameters, equally for document types with a paper surface and for document types with a plastic surface that is more reflective in the visible area.

In step 202, information is then recognized in the first image, for example using OCR. This is information that directly or indirectly indicates the type of document, such as the country that issued the document.

In step 204, a database query is carried out using the information recognized in step 202. The database responds to the database query with second image capture parameters that are specific to the document type of the document to be checked.

In step 206, a second image, preferably an overall image, of the document is then captured using the type-specific image capture parameters that the database output in step 204. In step 208 The optical security features of the document are then checked based on the second image captured in this way.

The Figure 3 shows an embodiment of a data processing system 146 according to the invention. The data processing system 146 contains several test devices 112, each of which is constructed in principle in the same way as the test device 112 in the embodiment of Figure 1 . In contrast to the embodiment of Figure 1 but include the testing devices 112 in the embodiment of Figure 3 not the database 136. Instead, the test devices 112 each contain a communication interface 148 for communication via a network 150.

The network 150 may be an Ethernet, a Virtual Private Network (VPN), or another communications network. In particular, an Internet protocol (IP) can be used for communication via the network 150.

In the embodiment considered here, a database 152 and a database 154 can be queried by the test devices 112 via the network 150. The database 152 contains the second image recording parameters assigned to the document types. In the embodiment considered here, the second image recording parameters contain, in addition to information about the illumination I and the exposure T, also information about the frequency F, which is to be used for the illumination to record the second image.

In contrast, the database includes 152 in the embodiment of Figure 3 no information about the security features, as is the case with the database 136 in the embodiment of Figure 1 the case is. This information is according to the embodiment of Figure 3 however, stored type-specifically in the separate database 154. In this embodiment, two database queries are generated by executing the program instructions 132, namely to query the databases 152 and 154.

Reference symbol list

100

document

102

Facial image

104

Safety colors

106

imprint

108

Sub-area

110

chip

112

Testing device

114

electronic storage

116

optical sensor

118

Radiation source

120

Radiation source

122

Clasp

124

processor

126

program

128

Program instructions

130

Program instructions

132

Program instructions

134

Program instructions

136

Database

138

Program instructions

140

Program instructions

142

Screen

144

interface

146

Data processing system

148

Communication interface

150

network

152

Database

154

Database

Claims (10)

1. A method for testing the authenticity of a document (100) comprising the following steps:

   - recording a first image of the document with first image recording parameters,

   - recognising a piece of information in the first image, wherein the recognition of the information in the first image is performed by optical character recognition, wherein the information specifies a document type or wherein a document type of the document can be derived from the information,

   - making a database query to a database (136; 152, 154) using the information to query second image recording parameters, wherein the database (136; 152) for each predefined document type contains type-specific second image recording parameters, wherein the type-specific second image recording parameters can be retrieved by using the information as a database key, - recording a second image of the document with the second image recording parameters, wherein the second image recording parameters contain type-specific parameters regarding the illumination of the document and/or regarding the exposure of an optical sensor, by means of which the second image is recorded,

   - checking one or more security features of the document against the second image,

   wherein the database (136; 154) contains type-specific details on the security features, wherein the type-specific details on the security features are also queried when performing the database query and are used for the verification, wherein the details on the security features contain information on the location and form of the security features, wherein these details are compared as target features with the actual features present in the second image, wherein if the actual features sufficiently match the target features the authenticity of the document is assumed.
2. The method according to claim 1, wherein the first image is recorded in a first frequency range and the second image is recorded in a second frequency range, wherein the first and second frequency ranges differ from one another.
3. The method according to claim 2, wherein the first frequency range is an IR frequency range and the second frequency range is a UV frequency range.
4. The method according to claim 1, 2 or 3, wherein the first image contains only a partial area (108) of the document, which is predefined with regard to its location in the document, wherein the first image recording parameters for recording the partial area are used independently of a type of document.
5. The method according to any one of the preceding claims, wherein the second image is a complete image of the document.
6. The method according to any one of the preceding claims, wherein at least one of the security features is fluorescent.
7. The method according to any one of the preceding claims, wherein the method further comprises:

   - reading data stored on a chip (110) of the document with an interface (144) for communicating with the chip,

   - comparing data captured from the second image with data read from the chip, wherein a match between the data captured from the second image and the data read from the chip is a necessary prerequisite for passing the authenticity test of the document.
8. A computer program product having program instructions which can be executed by a testing device for performing a method according to any one of the preceding claims.
9. A data processing system, which is configured for performing a method for testing the authenticity of documents according to any one of claims 1 to 7, comprising:

   - at least one electronic device, having:

   - means (116, 118, 120, 122, 128, 134) for recording a first image of at least a partial area (108) of the document with first image recording parameters and for recording a second image of the document with second image recording parameters,

   - means (130) for recognising a piece of information in the first image, wherein the recognition of the information in the first image is performed by optical character recognition,

   - means (132) for making a database query to a database (136; 152, 154) using the information to query the second image recording parameters,

   - means (138) for checking one or more security features of the document against the second image,

   - at least one database (136; 152), which contains type-specific second image recording parameters for each document type, wherein the type-specific second image recording parameters can be retrieved by using the information as a database key, wherein the database (136; 154) contains type-specific information on the security features which specify the location of the security features in the document and their form, wherein the type-specific information on the security features is also queried when performing the database query and is used for the verification, wherein the details on the security features include details on the location and form of the security features, wherein these details are compared as target features with actual features present in the second image, wherein if the actual features sufficiently match the target features it is assumed that the document is authentic,

   wherein the database is an internal database (136) of the at least one electronic device or wherein the database is an external database (152, 154), to which the at least one electronic device with a communication interface can be connected via a communication connection in order to perform the database query.
10. The data processing system according to claim 9, wherein the electronic device further comprises:

    - an interface (144) for communicating with a chip (110) of the document for reading data stored on the chip of the document,

    - means for comparing data which are captured from the second image with the data read from the chip, wherein a match between the data captured from the second image and the data read from the chip is a necessary prerequisite for passing the authenticity test of the document.

Images