DE4239562A1 - Verification of document identification data from listing - has number of terminals each with processor and reader to compare read data with that transmitted from central station - Google Patents

Abstract

A verification system for documents such as credit cards, cheques, etc., that carry identification numbers has the document (23) entered into a reading station to transfer identification data to a central monitoring station (12). A number of reading stations (T1-Tn) can be connected to the central station. Each reading station terminal is microprocessor controlled with a high frequency selector that receives various document signal types. The numbers are stored in memory and are compared with the data read from the document to control authorisation. ADVANTAGE - Provides high security without needing telephone check.

Description

The present invention has a device for verification ren the identification information of documents with respect to a list of identification information of documents to be monitored for Item with some peculiarities.

There are already a large number of documents that he possible to either get money or a certain number of out to contest, or to receive certain benefits. Under these documents can be called bank checks and analog documents, Bank cards with magnetic strips and bank cards or credit cards, or also chip cards with electronic circuits.

The advances in technology for manufacturing the These documents have been obtained provide fairly good protection against the physical forgery of these documents or the use of unclear documents.

One can refer to the security printing techniques for checks sen, on the use of magnetic stripes of high storage density in the case of magnetic memory cards and on the electronic cards, the Protection is achieved through the integrated character of the memory and the circuitry of the card, as well as related techniques with card readers that offer protection against counterfeit cards.

However, these advances do not fully protect against that improper use of such documents.

This is particularly evident in the case where these documents  have been stolen from their legitimate owners and fraudulent Intent to be used. This is also the case when the issuer organization (e.g. a bank) the legitimate owner of the document withdraws the right to use them. This is furthermore, if the issuing organization (e.g. a Bank) the attention of the service provider (e.g. one Dealer) would like to point to a specific document, but without the Be prohibit the use of this document itself. We know that this un different documents each include identification information sen that are legible on the document in the case of checks and in coded Form in the case of magnetic cards or electronic cards is attached. This identification information is mostly used as an owner code or Ge designated home code.

To guard against the consequences of such abuses, there are the beneficiary made a statement against the subsequent one Oppose use of the document in question. From these explanations gen ab creates the organization that will apply such documents monitored, lists of documents to be monitored or blacklists. The black list is therefore a complete list of all numbers of cards or checks to be monitored. Total security when using documents accordingly requires that before or during verifying the application of each of these documents, it is verified that the Identification number of the document is not on the watchlist seems. With the decentralization of the application sites of the different Documents will be the verification of the owner code regarding the monitoring Checklists increasingly difficult.

At many points of sale there is no simple and / or eco Nominal means of verifying that the bank cards are not blocked are. The points of sale are either manual or automatic Cash registers equipped with a verification of the identification number by phone call, or you can find "off line" terminals where you can has a reduced blacklist of several thousand numbers. In this case, the complementary verification can be carried out by automatic Telephone calls are made from the terminal to a central office  tion, which comprises the entirety of the monitoring lists. In the case from trading houses with "on line" terminals or with a systematic call At the central control station, verification can be carried out in the Watch lists do something for the price of transaction communication It takes time and is expensive.

A solution has been proposed to overcome this disadvantage conditions, which makes it possible to significantly reduce the need for telephoto reduce phone calls to the central station. This procedure, the referred to as the "gray list" consists of the cards (Identifi cation information with 19 digits) by means of a decoding and com To renumber the compacting algorithm such that, for example, for each identification information a shorter number with 6, 8 or 10 digits is generated remotely.

It can be seen that in this way each short number of a be assigned number of card identification numbers. If in this system at least one complete identification number monitor, the assigned short number is also considered to be too considered guards or, more specifically, dubious. The totality The dubious short numbers are stored at every terminal. If A card is presented to the terminal, which compares it on site and Place the card's identification information or, more specifically, the short number assigned to this number with the list of doubtful ones Short numbers. If the short number does not appear there, the card is with Security valid. However, if the short number appears, there is there is a doubt, and this doubt must be resolved by looking at the central station calls, which is actually all of the monitoring numbers. One recognizes that this need in to perform additional verification in certain cases, the system very burdened. Furthermore, it is understood that it is not possible to the distance constantly at every terminal the list of dubious Update short numbers. This necessarily results in a specific one Delay between the declaration of loss or the thief steel, which is handed over to the company organization, and the Berück Viewing this statement in the list of Langs to be monitored  numbers, and accordingly in the list of doubtful short numbers sent to the different terminals is stored.

An object of the present invention is to create a device to verify the identification information of documents create that has a very high level of security without being necessary the ability to make additional phone calls, and which also enables to perform this verification by comparison with a watch list lead, which is updated at very short intervals.

To achieve this goal, according to the invention comprises Device for verifying the identification information of documents elements regarding a list of identification information a central station in which this list is saved is. A plurality of terminals in which the documents can be inserted for the purpose of verifying their identification information and means for Transfer of information in numerical form between the central station and the terminals, which facility is characterized is that the central station comprises means for the cyclical transmission of Information related to the list of identification information monitoring documents simultaneously to each terminal, and that each Terminal means for storing the identification information of the document to be verified, means for processing the in each Transmission cycle received information, means of permanent Compare the stored information with the total of ver worked, information received cyclically during at least one Cycle, and means for determining, depending on the results the comparison with a probability that is at least equal to one predetermined value is whether the stored identification information to the list of identification information to be monitored Documents is.

It can be seen that in this way each terminal has no need has to have a large capacity memory because the comparison between the different receiving information and the identification information of the card or the one to be checked Document is done "on line". Furthermore, since the entirety of information  corresponding to the entirety of the list of numbers to be monitored cyclically, starting from a central station, it is possible practically in real time this list during its cyclical transmission to update. The cycle can be very long, "infinite Lich ", in certain applications, as will be explained later.

According to preferred embodiments, which will be explained later the transmitted information will result from the Identification information of documents to be monitored from the Application of coding and compacting algorithms to the complete List of possible identification information of documents. Man this greatly reduces the duration of each transmission cycle of information and accordingly the duration of the verification operation on Terminal thanks to the fact that the total number of In formations is significantly reduced.

Further features and advantages of the invention emerge clearly Licher from the following description of embodiments of the Er invention, which is only to be used as examples, but not as a limitation are standing.

The invention relates to the accompanying drawings guren in which

The Figure 1 is a simplified diagram of the entirety of the verification means -;. and

- represents the 2 is a diagram of the circuits of a terminal of the device..

Before describing the invention in detail, it is important to remind of certain elements regarding the structure of over watch lists or black lists in different countries.

In France, for example, the black list of bank cards contains 1.5 million card numbers. A bank card number can have 19 digits ben. Blacklisted by major countries such as the United States from America, can reach up to 10 to 20 million numbers. The most of the European countries issue black lists between 100,000 and 2 million numbers.

As already stated above, the principle of setup exists  tion in being a central station, which is the complete blacklist numbers to be monitored, with each company terminal from ent to connect speaking documents via information transmission means in numerical form. Each terminal is free of mass storage. Everyone Terminal, as explained later, includes processing circuitry that it enable that successively in every information transfer cycle decode the transmitted information in the access. Otherwise, the Terminal is able to temporarily verify the identification number of the verifi reading and saving the decorative document. The comparison between the identification number to be verified and the various ones The information and data carried is accordingly accessed. If the Identification number of the card under the transmitted information has not been found, this card is considered valid with a probability that depends on the nature of the actually transmitted information and taken into account for comparison, how explained below.

Referring first to FIG. 1, the entirety of the device will be described. It comprises a central station 10 , consisting of a transmitter 12 , an information system for storing the black list 14 and processing means 16 . The system 14 comprises the complete monitoring list with the information for identifying the documents (hereinafter referred to as the document number), arranged in ascending order. It can be seen that in this way it is possible to enter new numbers to be monitored in real time in this list or, conversely, to remove those which are no longer, depending on the information provided by the title holder of the documents. The information processing circuit 16 has the task of applying one or more coding and compacting algorithms to the complete list of the numbers to be monitored, in order to obtain the entirety of the information which is actually emitted by the transmitter 12 in a cyclical form. The transmitter 12 is connected to various terminals for processing the documents, designated T1, T2, TN, via information transmission paths L1, etc. to LN, in numerical form. Each terminal T comprises a section for processing the received information, designated 20 , a section 22 for receiving the document 23 to be identified and for extracting its identification number, and a section 24 for comparing the identification number of the document to be verified and the information cyclically received by the circuit 20 .

The transmission links Li for the information available in numerical form are preferably television channels which have a throughput of 6 M bits per second. If one takes the case of a black list with 1,500,000 numbers and uses a compaction effect of two, corresponding to 32 bits per number of the black list, this leads to the list being repeated and transmitted cyclically, namely with approximately 50 s Bit in 10 seconds. The transmitter 12 modulates, for example, one of the video signals in numerical form for the effective transmission of this information. The processing unit 20 of each terminal decodes the information as it is received and compares it in the circuit 24 with the identification information of the document to be verified. At any point in time, the number to be verified is either smaller, equal to or larger than this number. If the comparator moves from the larger state to the smaller state without hitting the equal sign, the device considers the number to be valid. If a transmitted information is noisy, the order relation is disturbed, which can be seen. In this case, a second information transfer cycle is used to carry out the verification.

A solution for reducing the number of numerical There is basic information (number of bits) to be transmitted not to directly transfer the sequence of the numbers to be monitored but the smallest number to be monitored at the beginning of each cycle to transfer and the difference between this first number and the immediately to transmit the following number, which should also be monitored is. It is understood that the difference is a smaller number can be pressed as the value of the number to be transmitted, which accordingly the Number of bits decreased for the transmission of this information  required are.

To further extend the transmission time of the entirety of Infor mations in connection with the numbers to be monitored for each term nal to reduce, you can use a coding and compacting algorithm Bring commitment that makes it possible from the complete possible 19-digit numbers of the documents to get a short number from for example 8 digits. It is understood in this way that everyone full number of the document a single short number from the 10⁸ Short numbers correspond and that a short number corresponds to a certain number of full numbers, depending on the function of the used compacting. These functions can be of a lot of different nature. They prefer to associate them full numbers with the short numbers in an aleatory manner such that you get an essentially equal probability of that a short number is "doubtful". If one under the whole the complete number, assigned to a short number , the short number itself is considered doubtful. In this Embodiment cyclically receives each terminal information which the Provide a list of dubious short numbers.

From the concrete point of view, the transmission of this information consists in the serial transmission of a sequence of binary values 1 and 0, the "1" corresponding to a "doubtful" number, for example, and the "0" a valid number. If the algorithm for compacting the complete numbers assigns the 10 ⁸ short numbers, the transmitted information for this algorithm consists of a sequence of 10 ⁸ binary values. The transmitted information accordingly comprises 10 ⁸ bits. The rank of each binary information represents the state of the short number that is equal to that rank. This binary value is 1 if the short number is "doubtful" and 0 if the short number is "valid".

By using the appropriate algorithm, the Number of the card to be verified replaced by the assigned one Short number and you make the corresponding comparison. If the binary information whose rank is equal to the short number of the verifi  card is "0", the card is definitely valid because none full card number assigned to this short number monitor is. However, if its binary state is "1", there is one Doubt. If you look at the special case where the number of too monitoring card numbers is 1,500,000 and if the Coding and compacting algorithm the 19-digit numbers to short numbers of 8 If numbers are converted, there are accordingly 1.5% doubtful cases. You got that according to 1.5% of the cases that are doubtful, d. H. of cases where one cannot say whether the card or document is valid or too monitor is. The transmission time of a complete cycle ent still speaks 50 M bits in 10 seconds.

In order to resolve the uncertainty associated with the dubious cases, the invention proposes to apply several compacting and coding laws that are not correlated with each other, each formula making it possible to combine the whole of the long numbers or whole numbers into one Number of short numbers of 10 ⁸ to transfer.

Each short number that corresponds to at least one long number to be monitored is "doubtful" (binary value 1), and every short number assigned to long numbers, none of which is to be monitored, is "valid" (binary value 0). If ª denotes the statistical percentage of doubtful short numbers among all the short numbers, the probability that a document number will be regarded as doubtful in the comparison process is equal to a / 100. A second coding and compacting algorithm A2 is defined, which is not correlated with the first and in which the statistical percentage of the doubtful short numbers is also equal to ª. If one consecutively compares the number to be verified with the list of the doubtful short numbers obtained from the first algorithm A1 and then with the list of the doubtful short numbers obtained from the second algorithm A2, the following are obtained Results. If the number to be verified does not belong to any of the dubious short numbers or only to one of these two lists, the number is valid. Only in the case where the number to be verified is found in both lists at the same time, does its validity remain two. The probability that this case arises is accordingly equal to a ² 10 ^-4 .

In general, it can be seen that if one defines N compaction algorithms that are not correlated, each of which gives a percentage ª of cases of doubt, using N comparisons between the number to be verified and the N lists only gives a probability of to leave doubtful cases equal to ^N 10 ^-2N .

It can be seen that by sufficiently large dimensioning of N one can make this probability very small. This shows that under These conditions include the fact that the number to be verified increases heard all lists of dubious numbers, can be assimilated with the fact that the number to be verified is to be monitored with an error risk that is extremely low.

You can also see that it is important to compromise close as far as possible between the value of ª and the value of N ongoing reduction in the number of transmissions to be transmitted in each cycle Bits while maintaining a greatly reduced Probability of error.

It can be seen that in an information transmission cycle one a number of sub-cycles is equal to the number N of compacting and coding algorithms that are applied. Each sub cycle includes accordingly information that is representative of the list of possible Short numbers that are doubtful or valid come from using one of the algorithms. At the reception, d. H. at every terminal, one compares the short assigned to the document to be verified number with the corresponding short numbers in each subcycle. If the Short number to be verified does not appear in at least one of the lists appears, the document is valid. If, on the other hand, the one to be verified Number of each of the lists transferred in the sub-cycles remains the document is doubtful and it will eventually be considered invalid be.

When considered specifically, each subcycle consists of a sequence of, for example, 10 ⁸ bits, the rank of which corresponds to the possible short numbers. Each bit has a binary value of 1 or 0, depending on whether the corresponding short number is doubtful or valid. The terminal reads in a complete number of a document to be verified and determines the N corresponding short numbers by using the N uncorrelated compacting algorithms. For each subcycle, the terminal circuit reads the binary state of the bit, the rank of which is the short number of the document, obtained by using the compacting algorithm associated with the subcycle in question. In the sequence of these N readings, the document is declared invalid if the N binary states that are read are all equal to 1 and are therefore questionable. Conversely, if at least one of the N binary states that are read is 0 (valid), the document is declared valid.

If the sequence of bits transmitted is a very high pro percentage of these bits has the same binary state (1 or 0), for example, if 99% of the bits are zero, it is more economical than Information in each sub-cycle the length of the intervals between to transmit two consecutive zero bits coded.

In the preceding explanation it was assumed that the entirety of the information on a single transmission channel were transferred numerically. In the case of television cables in particular, or in the case where a central station and the terminals in one car nomen network are installed, you can over several, at least partially free channels. To reduce the transmission cycle time of the Accordingly, information can be found in the entirety of the full numbers of documents decompose into several groups, the compacting Function is applied to each group to achieve just as much Groups of possible short numbers, and you can use any of the channels transmit a group of short numbers. It is natural in this case required that the terminal can recognize which channel it is on Verification information has to look for. This problem can be solved by Define an algorithm that makes it possible for each identifier tion information of a document that is currently in operation  Specify channel.

It is also possible that the terminal is able to Verification of documents of different types for example checks, magnetic cards or chip cards. In this case it is possible to specialize the transmission channels for the output information related to each type of document.

It also goes without saying that, as already explained tert, the direct access comparison is made between the number of the verifying document and all of the from the terminal em information, so that it is possible to veri fication of several documents to pass, the identification information tion of each document is temporarily saved.

By reference now is made to Fig 2., To more into the indi vidual extent of the part of the terminal will be described, which is provided for the verification operations of the identification information. This section 20 , 24 initially comprises a high-frequency signal selector 40 which receives the information transmitted via line L1, which line can comprise several parallel channels. The information received by the selector 40 is transmitted to a modulator circuit 42 , which processes the numerical information in binary form, contained in the transmission. The entirety of the processing circuitry of the terminal is controlled by a microprocessor 44 which, via its output ª, controls the selection of the channels in the case where the line comprises several of them. The microprocessor receives at its input b "on line" the numerical information extracted from the modem 42 . This information is likewise applied to the input of a comparator circuit 46 . The terminal, or more precisely the entirety of the circuits 20 , 24 , is connected to a reader for cards with electronic memory 50 , to a magnetic card reader 52 and to a check reader 54 . Each of these readers is able to temporarily save the identification information of the corresponding document. This information is transmitted to the microprocessor 44 , which converts this information using the compacting and coding algorithm or algorithms that were used in the transmission of the information transmitted by the central station 10 . This coded information is likewise applied to the input of the comparator 46 . As stated above, if the number of the document to be verified does not appear in the list of the transmitted information or only in certain of the lists transmitted in one and the same cycle in the case of the use of several coding and compacting algorithms, the document becomes valid viewed, and the microprocessor 44 transmits an instruction to the operating point 56 of the terminal for authorizing the further processing. However, if the number appears on the list or on all lists, this operation is prohibited.

As indicated above, the terminal, or more precisely, the circuits 20 , 24 must have the compacting and coding algorithms used in the central station.

Several solutions are possible to make the algorithms available to the terminal. The algorithm can be transmitted cyclically to the terminal via one of the channels of the transmission lines. Another solution was to store all of these algorithms in permanent storage. In order to secure this information storage, it is possible to store this algorithm in a microprocessor monochip which is integrated in, for example, an electronic memory card. This card 58 is movable relative to a specialized card reader 60 which is connected to the microprocessor 44 . An interim solution is to store in the microprocessor of the card 58 all the algorithms for coding and compacting with the exception of certain parameters. These parameters are transmitted periodically over the transmission line L by periodically changing the value of these parameters. Of course, this variation occurs synchronously with the corresponding changes in the processing circuits 16 of the central station 10 . In this embodiment he is known to have dynamic coding algorithms which make fraud at the terminal particularly difficult.

In the case of the application of one device, several are not Using correlated compaction algorithms, it is understood that the Recording the transmission cycles is no longer significant. What  what is important is that the N compacting algorithms are appropriate the probability required to be used for the verifi adorn the validity of the document. In other words, the Veri exploitation of a document using successive cycles under the Prerequisite that N consecutive sub-cycles are taken into account Find.

It is equally possible to provide that each "cycle" N Sub-cycles, corresponding to N uncorrelated algorithms, includes and that the comparison only N 'successive tables of N' on each other which has the following sub-cycles, and this is sufficient to achieve a desired one Probability to achieve. In this case, the processing includes circuit of the terminal has a counter for the number of sub cycles, and the verification operation ends as soon as the Counter reached the value N '.

Finally, each terminal can include billing means Ren of the verification operations of the document using the term nals. For this purpose, each terminal can include a counter that is incremented for each verification operation, for example for the transmission of any validity information or invalidation information tion of the document to be verified. It is also possible to use the counter to preload with a predetermined value corresponding to an advance number which has been brought about by the person authorized to dispose of the terminal is, the counter is decremented by one unit after each Verification.

Claims (19)

1. A device for verifying the identification information of a document with regard to a list of identification information of this document ( 23 ), which it identifies as to be monitored, comprising a central station ( 10 ) in which this list is stored ( 14 ), a plurality of terminals (T1 to Tn), in which these documents can be introduced to check their identification information, and information transmission means in numerical form between the central station and the terminals, characterized in that the central station ( 10 ) comprises means ( 12 ) for cyclical transmission of information regarding the list of identification information for documents to be monitored simultaneously to each terminal (T1 to Tn) and that each terminal comprises means ( 22 , 50 ) for storing the identification information of the document to be verified, means ( 24 ) for processing the information received in each transmission cycle onen, means for permanently comparing ( 46 ) the stored information with the entirety of the processed, cyclically received information during at least one cycle, and means for determining, depending on the results, the comparison with a probability that is at least equal to a predetermined value is whether the stored identification information is on the list of identification information of documents to be monitored. 2. Device according to claim 1, characterized in that the transmission means (L1, Ln) are selected from television cables networks, shortwave networks and radio networks. 3. Device according to one of claims 1 and 2, characterized characterized in that the identification information numerical information mations are that the information transmitted in a cycle is too monitoring identification information include the smallest Value, and information, each showing the difference between one monitoring identification information and the IDs to be monitored  identification information with the immediately following value, and that the processing means of each terminal are able to outgoing from the information received, the full list of identifi Restore cation information under surveillance. 4. Device according to one of claims 1 to 3, characterized in that the central station ( 10 ) comprises means ( 16 ) for assigning to each of the identification information to be monitored, a single coded information, expressed with an elementary information number that is less than that of the elementary information which serves to write the identification information to be monitored by means of a compacting algorithm, that the cyclically transmitted information to the terminals comprise this coded information and that each terminal comprises means for applying, to the identification information to be verified, said compacting algorithm, and that the comparison means ( 46 ) compares the coded received information with the coded identification information to be verified during at least one cycle. 5. Device according to one of claims 1 to 3, characterized in that the central station ( 10 ) comprises means ( 16 ) for the application of N uncorrelated compacting algorithms, each compact animal algorithm assigning a single coded information to a piece of identification information to be monitored, expressed with an elementary information number smaller than that of the elementary information which serves to write identification information to be monitored, that the information transmitted to the terminals in each cycle comprises N successive information sub-cycles, each sub-cycle comprising the encoded information the application of one of the compacting algorithms, and that each terminal (T1, Tn) comprises means ( 44 ) for applying to the identification information of the said N compacting algorithms to be verified, that the comparison means ( 46 ) converts the coded information into and d compare the same sub-cycle with the encoded information to be verified with the corresponding compacting algorithm, and that the determination means emit a verification signal as a function of N 'comparisons carried out with the encoded received information in N' consecutive sub-cycles of the N sub-cycles, where N 'is less than N. 6. Device according to claim 5, characterized in that the document to be verified is declared invalid if the N ′ Comparisons show that the encoded information to be verified in the information of each of the N ′ sub-cycles of information appears. 7. Device according to one of claims 5 and 6, characterized ge indicates that the number N 'of comparisons actually carried out is determined depending on the predetermined probability. 8. Device according to one of claims 5 to 8, characterized ge indicates that those transmitted in one and the same subcycle Information the coded identification information with the smallest Value as well as information, each the difference between a coded identification information and the coded Identifi Representation information with the immediately next higher value animals, and that the processing means of each terminal are capable are complete based on the information received Restore list of this encoded identification information. 9. Device according to claim 5, characterized in that the information transmitted in a sequence in each subcycle binary values exist that are transmitted serially, with each bit has a rank, according to the encoded value obtained by Apply the compacting algorithm that corresponds to the sub-cycle in question is assigned to all of the identification information Documents, and wherein each bit has a first binary value (1) if encoded at least one piece of identification information corresponding to this Information is to be monitored, and a second binary value (0) in the opposite case and that the comparison is the binary Value of the transmitted coded information with a rank equal to that encoded information obtained by applying the compacting algo rhythm, according to the identification information of the verification document, to determine which document to be verified as is only declared invalid if the N ′ binary values contained in the N ′  successive sub-cycles were recorded, all the same as the ge called first binary value (1). 10. Device according to one of claims 4 to 9, characterized ge indicates that each terminal includes a monochip microprocessor, of the information required for using the compactor algorithm or the compacting algorithms, can receive and / or can save. 11. The device according to claim 10, characterized in that the monochip microprocessor is programmed with all of the Information required to use the algorithm or algorithms with the exception of certain parameters, and that the values of those mentioned Parameters are periodically transmitted to the microprocessor using the Transmission means from said central station. 12. Device according to one of claims 10 and 11, characterized in that the monochip microprocessor is mounted on a movable carrier ( 58 ) and that the terminal (Ti) comprises means ( 60 ) for electrically connecting the microprocessor to the rest of the circuit circles of the terminal. 13. Device according to one of claims 1 to 12, characterized in that the transmission means (L1 to Ln) for information infor mation in numerical form between the central station ( 10 ) and each terminal (T1 to Tn) comprise n parallel transmission channels, and that the entirety of the information to be transmitted is divided into k groups, each information group being transmitted via one of the channels mentioned. 14. Device according to claim 13, characterized in that each terminal (T1 to Tn) comprises means ( 40 , 44 ) for determining, starting from the identification information of the document to be verified, that of the n channels on which the information relating to that are transmitted by k groups to which the identification information to be verified belongs. 15. The device according to claim 14, characterized in that the documents to be verified belong to k types of different documents and that the number of n transmission channels is equal to the number k of document types. 16. Device according to one of claims 1 to 15, characterized characterized in that each terminal further includes means for counting down the Number of verifications carried out for billing purposes Verifications. 17. Device according to one of claims 1 to 15, characterized characterized in that each terminal further comprises means for counting the Number of verifications performed and means to interrupt the Connection between the central station and the terminal as soon as the An number of verifications reaches a predetermined value. 18. Device according to one of claims 1 to 17, characterized in that each terminal (T1 to Tn) comprises a high-frequency channel selector ( 40 ) and means for numerical decoding for obtaining the numerical information transmitted by the transmission means, comparison means for successive Comparing the received information and the identification information read in the document to be verified ( 23 ) and at least one means for processing the document to be verified. 19. The device according to claim 18, characterized in that the means for processing the document comprise at least the following means: reader for electronic memory cards ( 50 ), reader for magnetic track cards ( 52 ), reader for bank checks ( 54 ).