EP3341882A1 - Transaction system - Google Patents

Abstract

The invention relates to a method in a system (100) which comprises at least one portable data carrier (40), an authentication server (10), and a plurality of service provider systems. The service provider systems each comprise reader devices (24) and a service provider unit (20), wherein said reader devices (24) are provided to read out an application identity of portable data carriers, and the service provider unit is provided to check an authorisation in the service provider system using an application identity that has been read out. The method comprises the following steps. Requesting (T1) an authentication information, comprising a security identity (48) of said data carrier (40), from the data carrier (40) via a reader device (24) of said service provider (20). Providing (T2) the authentication information, via the data carrier (40), to the reader device (24). Passing on (T3) the authentication information via the reader device (24) to the authentication server (10). Authenticating the data carrier (T4) using the authentication information, via the authentication server (10). Determining an application identity, associated with the data carrier (40) in the service provider system, via the authentication server (10) and on the basis of the security identity (48). Transmitting (T5) the determined application identity, associated with the data carrier, to the reader device (24) of the service provider system.

Description

 T r a n s a k t i o s s y s t em

The present invention relates to a method for managing a data carrier in a transaction system, to an authentication server of such a system, and to the transaction system.

It is known to equip portable data carriers, such as smart cards or labels, with contactlessly readable identifiers, preferably in the form of transponders, in order to enable a transaction to be carried out between the data carrier and a correspondingly configured reading device. One possible form of such a transaction is the regulation of an access authorization, e.g. to a building, a traffic route, or other resources. Alternative transactions are, for example, pure payment transactions for the acquisition of goods or

Services. For this purpose, the data carrier can be coupled with a background system via which the payment transaction is then actually processed. Another disadvantage of the method described is that the requirements for the data carrier, such as memory, processor performance and data management, increase with every use of a service provider. For example, an application that allows access to a car park of a first operator requires specific authentication software in the portable volume, which may be usable only in conjunction with the specific application of that service provider. Complex volumes for multiple independent applications or with multiple independent identities are known.

Likewise known are correspondingly simpler data carriers for only one application or with only one identity.

Object of the present invention is to provide a way to provide a resource-optimized flexible disk.

This object is achieved by a method, an authentication server and a system having the features of the independent claims. Advantageous embodiments and further developments are specified in the dependent claims.

As a first partial aspect of the solution could be considered that a simple as possible designed portable data carrier with an identity in different applications, preferably against different service providers, can be used.

A first preferred aspect of the present invention relates to a transaction method for performing a transaction between a portable data carrier having a security tag as described above and a reader of a service provider of the type described above. This method is basically independent of that described below with reference to a second aspect of the Solution described volume management method. Consequently, the transaction method will be described below without reference to a volume management tag on the volume and without reference to the above-described data. ententrägerverwaltungsschritten described. Following the description of the transaction procedure, it will be shown how the volume management method and the transaction method can be advantageously combined.

In a first step of the transaction procedure, the reading device of the service provider requests an authentication information comprising the security information of the data carrier from the data carrier. The data carrier then provides the requested authentication information to the reader, which forwards the authentication information to the authentication server.

The authentication server authenticates the volume based on the one in the authentication information and transmits a result of authenticating the volume to the reader.

In the case of a successful authentication of the data carrier, a transaction can be carried out between an application of the service provider and the data carrier.

The system includes at least one portable volume, an authentication server, and multiple service provider systems. The service provider systems each have readers and a service provider unit. The readers are arranged to read an application identity of portable data carriers, and the service provider unit is provided to check a permission in the service provider system by means of a read application identity. The method comprises the steps: Requesting authentication information from the volume comprising a security identity of the volume by a reader of the service provider;

 Providing the authentication information by the data carrier to the reader;

 Forwarding the authentication information by the reader to the authentication server;

 Authenticating the volume based on the authentication information by the authentication server;

 Determining, by the authentication server, an application identity associated with the volume in the service provider system based on the security identity; and

 Transmitting the determined application identity associated with the volume to the reader of the service provider system.

In particular, the solution increases the usability of the volume without having to provide special resources in the volume.

In the determining step, the application identity of the volume in the service provider system may be selected from a variety of application identities. The flexibility of the system is thus increased.

The determined application identity is dedicated to the volume for the service provider system in the authentication server. Multiple fixed associations in the authentication server form the basis for using the volume in the appropriate service provider systems. The determined application identity of the data carrier for the service provider system may be dynamically selected in the authentication server from a plurality of application identities available to the service provider system. Thus, it is possible to dynamically select different identities for a volume in the same application. Furthermore, it is advantageously not necessary to keep a separate identity for each data carrier. In particular, one can use a small number of application identities to dynamically allocate them to a larger number of volumes.

The plurality of application identities available to the service provider system to be dynamically selected may be assigned equal privileges in the service provider system. The dynamic selection of identity obscures the identity of the data carrier to the service provider system without losing the possibility of a conventional authorization check with the service provider.

The reading device preferably sends the transmitted application identity, in particular like an application identity read directly from data carriers, to the service provider unit of the service provider system. The service provider unit and possibly also large parts of the reader software can remain unchanged.

The portable data carrier can only be identified in the service provider system via the application identity, and thus requires no further identities stored in the (RFID) transponder.

Preferably, the portable data carrier comprises only the security identity as the identity of the data carrier for the authentication server and is by a plurality of application identities communicable by the authentication server and associated with the volume are usable in the plurality of service provider systems. The data carrier is set up to perform an authentication in accordance with ISO / IEC 29167-19. Preferably, the security identity is used as an identity.

In the following, individual steps of the transaction procedure will be described by way of example with reference to preferred embodiments and variants of FIG

Transaction method specified. The individual variants of the steps of the method, if not otherwise described, can be combined as desired. In the following, a security identity (in the authentication server), unique security information, or secret ID, is used as the security identity. The application identity refers to a public identity, public ID.

As a rule, the security identifier is designed as a cryptographically secured security identifier, for example in the form of a transponder, which is set up to transmit security information (SID, "secret ID") to the reader in encrypted form only, preferably an asymmetric key architecture The encryption of the security information in the security tag takes place by means of a public key, the decryption by the authentication server by means of a corresponding secret key.

The reader may provide such a cryptographically secured security identifier, for example, in the context of the establishment of a communication connection with the data carrier, ie the transponder, recognized as cryptographically secured. The structure of the communication connection can be understood here as a first substep of a step of requesting the authentication information.

The reading device then sends a corresponding command to the data carrier in order to enable a cryptographically secure transmission of the authentication information by the data carrier (for example according to ISO / IEC 29167-19). As a rule, the authentication of the data carrier takes place by means of a challenge-response method.

For this purpose, the reader can first request the corresponding command from the authentication server and then send a corresponding command received from the authentication server to the data carrier, i. forward the security label of the volume.

The data carrier can generate as authentication information a response command according to the protocol used, for example in the form of a cryptogram, which encompasses the encrypted security information. The cryptogram may include further information that allows the authentication server to decrypt the security information.

This further information, which relates in particular to the selection of a key required for decrypting, can also be requested separately from the reading device in the data carrier and transmitted by the data carrier separately from the cryptogram to the reading device. The authentication information then includes the cryptogram and the further information. The data carrier then transmits the authentication information to the reading device, which forwards the authentication information to the authentication server.

In the authenticating server, the security information contained in the cryptogram is decrypted and the volume is authenticated by the authentication server. As mentioned, the authentication method can be carried out, for example, as a challenge-response method in which the data carrier receives from the authentication server a "challenge", for example a random number, and "encrypts" it using the security information.

Optionally, the authentication server can associate the decrypted security information (SID) with a public identification relating to the data carrier, a so-called PID ("public ID") .This public identification is static and unambiguously assigned to the security information (SID) In general, for each application of a service provider for which the volume is unlocked, exactly one public identifier of the volume (on the part of the authentication server) is generated, which then in the step of enabling the volume for a selected application of a service provider In the database of the authentication server, therefore, in addition to the volume management information and the security information, one or more public keys uniquely assigned to the security information may be transmitted be saved. The authentication server then transmits the result of the authentication to the reader. This result may simply be that the authentication server tells the reader whether or not the volume has been successfully authenticated.

Optionally, the authentication server may transmit to the reader, in the case of a successful authentication of the volume, the corresponding public label of the volume corresponding to the application of the service provider currently envisaged to perform a transaction with the volume. Information about this application can send the reader to the authentication server at any point in the process, for example at the beginning when requesting a forwarding to the disk commands.

It should be noted that at the time when the data carrier establishes a communication with a reading device of a service provider, the specific application of the service provider, with which the data carrier can subsequently carry out a transaction, is already clearly established. In the event that multiple applications of the service provider are "reachable" via a reader, the user can be given the opportunity to select one of these applications.

Based on the result of the authentication, the reader can then decide whether the transaction should be performed between the application and the data carrier. A public identification of the data carrier transmitted to the reading device also enables the reading device to authenticate the data carrier unambiguously. As a second sub-aspect of the solution, it could be considered that a management of the associated identities independent of the service provider systems is provided. The second aspect is based on the idea of providing the portable data carrier with a further contactlessly readable identification which can be easily read and processed by means of a portable terminal of a user of the system. Information coded by means of the identification can then be transmitted by the terminal to an authentication server of the transaction system. The authentication server is arranged to manage the volume in the system based on the received information.

According to the second aspect, the solution also relates to a method in a system which comprises at least one portable data carrier, for example a chip card or a label, an authentication server and at least one reader of at least one service provider which can be coupled to the authentication server via a communication network, for example the Internet. The data carrier is set up to communicate with the reader in a contactless manner in order to carry out a transaction with an application of a service provider, possibly only after activation in the system. For this purpose, the data carrier comprises a security tag which can be read out contactlessly by the reader, by means of which the data carrier can be authenticated by the authentication server.

The method according to a preferred embodiment comprises the following steps: The volume is equipped with a volume management tag which encodes volume management information. In the authentication server, the volume management information is uniquely coupled with security information encoded by the security label of the data carrier in a manner to be described in more detail below. The volume management identifier of the data carrier is contactlessly readable by means of a portable terminal of a user of the system, for example by means of a conventional mobile radio terminal or a smartphone.

The volume management tag is read out contactlessly by means of a portable terminal of a user of the system, and the volume management information coded in the volume management tag is transmitted to the authentication server by means of the portable terminal.

The authentication server then manages the volume in the system using the volume management information. The management of the volume in the system may include a step of activating the volume in the system. In this case, the data carrier in the system is not activated, ie can not be used to perform a transaction with a service provider's application, unless the authentication server first receives the volume management information coded in the volume management identifier. In other words, a portable data carrier is registered in the system only after the volume management designation has been read out for the first time and the volume management information stored therein has been transmitted to the authentication server. The management of the volume in the system may further comprise a step of associating a user with the volume. This step is optional as it is conceivable to have applications where user assignment to the volume can be omitted. Other applications, such as those associated with a payment transaction, necessarily require a specific assignment of a user to the volume, for example, to also be able to associate account information of that user with the volume.

In the associating step, user registration data such as a user name, a password, user bank data and the like may be transmitted to the authentication server. The user registration data is stored there together with the volume management information and allocated by the authentication server to the volume management information. Upon completion of this step, the volume is deemed to be associated with the user identified by the received user registration data. The management of the volume in the system may further comprise a step of enabling an application of a service provider for the volume.

It should be noted that the system is constructed such that the authentication server can be connected to a plurality of service providers, each offering at least one application of the kind indicated above, for example access control, the sale of various goods or services, and the like , Each service provider comprises at least one reader via which the portable data carrier ger may come in communication with the service provider or with an application of the service provider. Now, if the disk is activated in the system and optionally assigned to a specific user, then different applications can be unlocked for the disk. Upon activation of the volume for a service provider application, the system is arranged to assist in performing a transaction between the service provider application and the volume. In other words, a user of the data carrier can usually only use an application of a service provider if this has been enabled for the specific data carrier.

The unlocking step can be carried out, for example, such that the authentication server displays to the user of the data carrier, for example via a suitable web interface, a list of potentially selectable applications of different service providers. The user of the data carrier can then select from this one or more applications, which are then released by the authenticating server for the specific data carrier. For some of these applications, it may be necessary for the user of the volume to specify other user registration data, such as account information or the like, to enable full and, in particular, automatic use of the application.

In general in connection with the present invention, the user of the data carrier can communicate with the authentication server via a suitable application ("app") which the user installs on his terminal, for example his smartphone, in a conventionally known manner then specifying its user registration data with the authentication server. Report. The first user registration can also be supported by means of such an application. Alternatively or additionally, the authentication server can provide a communication interface, for example the mentioned web interface, which can be used by any conventional browser for the user of the data carrier (after previous registration by means of the user registration data).

In all of the administration steps described above, the authentication server recognizes the data carrier on the basis of the volume management information which has been transmitted from the user's portable terminal to the authentication server. This volume management information is in the authentication server, coupled with the security information of the portable volume, e.g. stored in a suitable database of the authentication server. Together with the volume management information and security information and corresponding user registration data can then be stored and managed.

In this way, a user of the system can very easily activate a data carrier in the system, register as a user of the data carrier and activate the data carrier for different applications of different service providers. This allows a flexible and easy use of the data carrier in various application contexts. The step of unlocking an application of a service provider is usually performed by a user associated with the volume, as already explained. Alternatively, it is also possible for individual applications of specific service providers to be activated by the respective service provider itself for a user of the data carrier. For this purpose, the service provider in turn can contactlessly read the volume management designation of the data carrier by means of a suitable reader and transmit the volume management information encoded in the volume management designation to the authentication server. This usually refers to applications that are only accessible to a specific group of users, such as access to a car park of a residential complex, which should only be accessible to residents of the residential complex. The service provider is, for example, the operator of the condominium, which after an examination of whether a potential user is also a resident of the condominium, this can unlock for access to the parking garage in the specified manner.

In particular, an application of a service provider can be activated in such a way that a transaction between the data carrier and the application can subsequently be carried out automatically, that is to say without further user interaction or the need to enter further data or a transaction confirmation. This allows a particularly simple implementation of such transactions.

Alternatively or additionally, it is possible to unlock individual applications only in principle, while for the execution of the transaction in question, however, a user interaction, at least one transaction confirmation or the like, is still provided.

The volume management method according to the second aspect of the invention and the transaction method according to the first aspect of the invention. can advantageously be combined in such a way that the authentication server in addition to authenticating the disk can check whether the corresponding disk is already activated in the system. Furthermore, the authentication server can check whether an appropriate user has already been assigned to the data carrier and whether the application which offers the service provider currently connected to the data carrier via the reading device has already been activated for the specific data carrier. In the step of transmitting a result of the authentication, the authentication server can therefore inform the reader not only whether the volume has been successfully authenticated, but also whether the volume in the system has already been activated and whether the application in question for the volume has already been unlocked ,

On the other hand, if the authentication server detects, for example, that the application in question for the volume has not yet been successfully authenticated, the authentication server can request the user of the volume to activate the application.

A third aspect of the present invention relates to an authentication server for a transaction system. This system comprises at least one data carrier described above with reference to the first aspect of the invention, the authentication server itself and at least one reader of at least one service provider which can be coupled to the authentication server via a communication network. The authentication server is in particular configured to receive from the reader a security information encoded in the security identifier of the data carrier and to authenticate the data carrier on the basis of the security information. Furthermore, the authentication server is set up to receive a volume management information encoded in the volume management identifier from a portable terminal that can be coupled to the authentication server via a communication network and to administer the volume in the system in the manner described above using the volume management information.

Preferably, the authentication server is set up, to which at least one data carrier, for example in a suitable database or the like, the security information, see a cryptographic see see key for decrypting an encrypted security information received, together with the volume management information and possibly other, the data carrier management data, such as For example, user registry information of a user associated with the media, or information regarding service provider enabled applications unlocked and managed. In particular, the authentication server is set up to support a volume management method described above with reference to the first aspect of the invention, and preferably also a transaction method described above with reference to the second aspect of the invention.

A fourth aspect of the present invention relates to a corresponding transaction system, comprising at least one portable data carrier according to the first aspect of the invention, an authentication server. According to the third aspect of the invention as well as at least one reading device of at least one service provider of the type described above that can be coupled to the authentication server via a communication network.

The at least one data carrier of the system is preferably designed as a chip card or as a label (label, tag).

The security tag of the portable data carrier can preferably be formed by means of an RFID transponder, for example as an NFC transponder or as a UHF transponder.

According to a preferred variant, the transponder is set up to encrypt a security information stored in the transponder and to transmit it only encrypted to a reading device of a service provider.

The volume management identifier of the data carrier could also be designed in the form of a transponder, preferably as an NFC transponder. Preferably, the volume management identifier is designed as an optically readable identification, preferably as a bar code, particularly preferably as a CR code.

The present invention will be described by way of example with reference to the accompanying drawings. Show:

FIG. 1 shows components of a preferred embodiment of a system according to the invention; Steps of a preferred embodiment of a method for managing a data carrier in the system of Figure 1 and

FIG. 3 shows a preferred embodiment of a transaction method in the system according to FIG. 1.

A transaction system 100 shown by way of example and schematically in FIG. 1 comprises an authentication server 10, at least one portable data carrier 40, at least one reader 24 of a service provider 20 and at least one portable device 30 of a user of the system 100. As will become clear hereinafter, a such system 100 typically includes a plurality of data carriers 40 and a plurality of readers 24 of different service providers 20.

The authentication server 10 is set up to be coupled via a suitable communication network, for example the Internet, to the reader 24 or the service provider 20 to which the reader 24 is connected and to the terminal 30. The authentication server 10 comprises a suitable storage device 12, for example a database, for storing and managing various data described below in detail relating to the data carrier 40 and its management in the system 100. The function and operation of the authentication server 10 will be described below with reference to the methods of FIGS. 2 and 3.

The data carrier 40 includes a security tag 42. This is formed in the example shown as a transponder. Depending on the application, an NFC transponder, a UHF transponder or the like can be used for come. The transponder 42 comprises a transponder chip 46 and an antenna 44. A security information (SID) 48 and a public key KE for encrypting the security information 48 are stored in the transponder chip. The transponder chip 46 is set up to encrypt the security information 48 by means of the key KE and to transmit it only encrypted to a reader 24.

The data carrier 40 furthermore comprises a data carrier management identifier 49. The data carrier administration identifier 49 is set up to be read without contact by means of the portable terminal 30. In principle, the data carrier management designation 49 can also be designed as a transponder, for example as an NFC transponder. Preferably, however, the data carrier management identifier 49 is embodied, as shown in FIG. 1, as an optically readable identification, particularly preferably as a QR code. Reading out and evaluating such a label can be done in a simple manner by means of a conventional smartphone camera and a corresponding evaluation application.

The data carrier 40 is registered in the authentication server 10 of the system 100. For this purpose, the authentication server 10 stores the security information 48 of the data carrier 40 together with the volume management information coded in the volume management identifier 49. In this way, when the authentication server 10 receives one of these two pieces of information, ie the security information 48 or the volume management information, it can uniquely identify the volume 40 and make an association between the two pieces of information. As already mentioned, the portable terminal 30, as shown in Figure 1, be designed as a smartphone. The terminal 30 is set up to read out the volume management identifier 49 of the data carrier 40, in the illustrated example optically, by means of a camera 34 and a corresponding evaluation application 32. In the case that the volume management identifier 49 is designed as an NFC transponder, an NFC can be used as the terminal 30 enabled smartphone or the like. The terminal 30 may not be able to read the security label 42 of the data carrier 40.

The data carrier 40, i. specifically, the security tag 42 of the data carrier 40 may be connected via the reader 24 to an application 22 of the service provider 20 for performing a transaction, as described below with reference to FIG.

To enable the volume 40 in the system, assign it to a user, and unlock it for the application 22, a volume management method may be used, as described below with reference to FIG.

In a first step S1, the data carrier 40 is provided with a volume management designation 49, for example the QR code described above. In this case, the data medium management identifier 49 is placed on the data carrier 40 or inserted into the data carrier 40 in such a way that it can be read out contactlessly by the user's terminal 30.

The volume management tag 49 encodes volume management information, such as a string uniquely assigned to the volume. As already mentioned, the volume management system information of the data carrier 40 in the authentication server 10 is clearly coupled to the security information 48 of the data carrier 40.

In step S2, the volume management tag 49 is read out contactlessly by means of a portable terminal 30 of a user of the system 100. In the example shown, the user will read the QR code 49 by means of the smartphone 30 and the camera 34 and forward the data storage management information stored therein to the authentication server 10 in step S3. In the volume management identifier 49, in addition to the volume management information, for example, an Internet address of the authentication server 10 may be stored in order to automate the step S3 of the transmission means.

In step S4, the authentication server 10 now manages the volume 40 in the system 100 using the volume management information received in step S3.

The management of the data carrier 40 in the system 100 can relate to various aspects, which are indicated in the sub-steps S4.1, S4.2 and S4.3 in FIG.

In step S4.1, the data carrier 40 is activated in the system 100. Basically, a data carrier 40 is arranged to be used in the system 100 in the manner described with reference to FIG. As a rule, however, this requires a one-time activation of the data carrier 40. Such activation may be effected by the authentication server 10 receiving once from the terminal 30 the volume management information encoded in the volume management designation 49. From this point on, the authentication server 10, as a data carrier volume, record 40 is activated in the system 10. It is possible that the authentication server 10 also reverses such activation of the data carrier 40, for example, if there is an abuse of the data carrier 40 or at least suspected.

Another volume management step, indicated with reference to step S4.2, involves associating a user with the volume 40. Applications are conceivable in which such user assignment to the volume that does not a priori is not required. As a rule, however, an assignment of a user to the data carrier 40 will take place once. In this case, the user registers with the authentication server 10 as the user of the data carrier 40. If such a registration is completed, no other user can register more than users of the data carrier 40, that is to say the data carrier 40 is uniquely assigned to the user who is the first user registered. In principle, it can be provided that a once registered user is changed and a new user is entered. It may also be provided that per volume a limited number of users, i. more than one user, can be registered, preferably with the same password, to avoid abuse.

Also for assigning a user to the data carrier 40, in the manner described above, the data carrier management identifier 49 is read out by means of the terminal 30 and the data carrier management information coded therein is transmitted to the authentication server 10. Subsequently, if the authentication server 10 has identified the data carrier 40 on the basis of the volume management information, user registration data of the user can be sent to the authentication server 10. transmitted by means of the terminal 30. Such user registration data may in particular include a username and password of the user. In this way, the user can subsequently log on to the authentication server 10 for further administration of the data carrier 40 and for entering further data relating to the use of the data carrier 40 in the system, for example for entering or changing account information for enabling an automatic Carrying out a payment transaction by means of the data carrier 40 or the like. A further management step relates to the activation of an application of a service provider 20 for the data carrier 40, as indicated in step S4.3. Before a user can use an application 22 of a service provider 20, for example the application 22 shown in FIG. 1, by means of the data carrier 40, ie can carry out a transaction with application 22 by means of the data carrier 40, the relevant application 22 for the data carrier 40 must be unlocked , In order to enable such a disconnection, the user of the data carrier 40, again by reading the volume management identifier 49 by means of the terminal 30 and by transmitting the volume management information encoded in the volume management identifier 49 to the authentication server 10, can virtually log the volume 40 on to the authentication server 10. The authentication server 10 then offers the option of enabling individual applications 22, which are displayed to the user of the data carrier 10, for example in the form of a list. The user of the data carrier 40 can select individual applications from this list, which are then enabled by the authentication server 10 for use for the data carrier 40. In principle, applications can also be provided which are of one in the system activated disk 40 can be used without prior activation.

It is understood that after a single reading of the volume management designation 49 and transmission of the data carrier management information encoded therein, more or less within a "session", a plurality of steps S4.1, S4.2 or S4.3 can be performed without prior to If, however, the data communication between the terminal 30 and the authentication server 10 has been completed once, the renewed or first-time performance of, for example, the step S4.3 requires previously the steps S2 again and S3.

With reference to FIG. 3, a transaction method, ie a method for carrying out a transaction between the data carrier 40 and an application 22 of the service provider 20, will be described below by way of example. Such a method is fundamentally independent of a data carrier management method according to FIG. 2. In step T 1, a reader 24 of a service provider 20, when it detects a portable data carrier 40 in the response area of the reader 24, requests the data carrier 40 to provide authentication information. The reader 24 can be set up to detect whether the data carrier 40 is a secure data carrier in such a way that the security identifier 42 of the data carrier 40 can provide security information 48 of the data carrier 40, by means of which the authentication server 10 can authenticate the data carrier 40 , only in encrypted form. In this case, the reader 24 may request from the authentication server 10, for example, a corresponding command, which An authentication method using encrypted security information 48 is enabled. In the context of the present invention, for example, a protocol according to ISO / IEC 29167-19 can be used, in which a special challenge-response method for data carrier authentication is used. The security information 48 is defined in this case as an eight-byte long identifier.

In step T2, the data carrier 40 provides a corresponding authentication information to the reader 24. In particular, this authentication information comprises the security information 48, as mentioned above, preferably in encrypted form. For this purpose, the security identifier 42 comprises an encryption key KE for encrypting the security information 48. The key KE can be, for example, a public key of an asymmetrical key pair, wherein the authentication server 10 comprises a secret key K _D associated with the key pair (see FIG to be able to decrypt the encrypted security information 48 again. The data carrier 40 may generate the authentication information, for example, as a cryptogram in accordance with the standard described above. In particular, the authentication information also includes further information which allows the authentication server 10 to determine the secret key KD ZU required for decrypting the encrypted security information. This additional information can be part of the cryptogram. Alternatively, the reader 24 may request such additional information separately from the data carrier 40 and add it to the authentication information. An example of such further information is a specific group identity, which is a group defines which of the data carrier 40 is assigned. For each of these groups there then exists a uniform public key KE and a corresponding secret key KD. In step T3, the reader 24 forwards the authentication information received from the data carrier 40 to the authentication server 10.

In step T4, the latter authenticates the data carrier 40 on the basis of the security information 48 contained in the authentication information. For this purpose, the authentication server 10 uses the secret key KD to decrypt the encrypted security information 48 contained in the authentication information using a challenge-response method indicated above In this way, a clear authentication of the data carrier 40 can take place in a manner known per se.

Optionally, the authentication server 10 now, after successful authentication of the data carrier 40, the security information 48 of the data carrier 40 uniquely assign a public identification (PID) of the data carrier 40. It may be provided that the authentication server 10 for each application 22 of a service provider 20, which has been unlocked for the disk 40 generates a separate public identification of the disk 40, the security information 48 of the data carrier 40 assigned, and the respective application transmitted by the service provider. The application can then uniquely authenticate the data carrier 40 via the corresponding public identification.

The format of such a public identification is basically freely selectable per application 22 and can be adapted to the requirements of the application 22. On the basis of such public labeling can an application 22, if required, "recognizes" a user of the volume 40 during a transaction, such as a toll application with a plurality of toll booths. "The true identity of the user of the volume 40 typically associated with the service provider 20 In this case, the transfer of the public identification instead of the security identifier 48 from the authentication server 10 to the reader 24 furthermore offers the advantage that the reader 24 then does not have both plain text (security identifier) and cryptogram (encrypted security identifier ), and possibly draw conclusions about the encryption.

In step S5, the authentication server 10 transmits a result of the authentication to the reader 24, that is, in particular, the fact whether the data carrier 40 has been successfully authenticated and, if so, additionally a public identifier of the data carrier 40, that of the application 22 of a service provider 20 is associated with which the volume 40 now intends to carry out a transaction. As indicated above, the authentication server 10 is aware of the specific application 22.

In step T6, the reader 24 checks the results obtained, that is, it checks whether the data carrier 40 has been uniquely authenticated by the authentication server 10 and, if appropriate, whether the received public label of the data carrier 40 matches the public identification known for the application , If there are inconsistencies in the public labeling or authentication has generally failed, the procedure is aborted as indicated with reference to step T8. In the case of an overall successful authentication, a transaction between the data carrier 40 and the application 22 of the service provider 20 is performed in step T7.

In general, it can be stated that the authentication server 10 thus provides a number of advantageous functionalities. On the one hand, it can check the authenticity of the data carrier 40 for different applications 22 of different service providers 20, while the data carrier 40 can remain anonymous to the service providers. The authentication server 10 may also determine if the volume 40 for a specific application 22 has already been unlocked. Furthermore, since the user registration data corresponding to the data carrier 40 can be managed by the authentication server 10, the authentication server 10 can operate as a clearing instance and, for example, support billing of different applications for different service providers.

Providing the volume management tag 49 on the volume 40 allows a user of the volume 40 to easily manage the volume 40 in the system 100. To do so, no new technology is required, a conventional smartphone that the user uses in everyday life anyway completely sufficient to carry out the essential data carrier management steps, namely the activation of the data carrier 40 in system 100, the assignment of a user to the data carrier 40 and the activation of individual applications 22. In this way, it becomes possible for the first time to provide one and the same portable data carrier 40, which can interact contactlessly with different applications 22 of different service providers 20. It is understood that a user can use various portable data carriers 40, for example once in the form of a chip card, once in the form of a label. Of course, the authentication server 10 can also manage different data carriers 40 for one user.

Claims

Patent claims

A method in a system (100) comprising

at least one portable data carrier (40),

an authentication server (10) and

a plurality of service provider systems, each with readers (24) and a service provider unit (20),

wherein the readers (24) are provided to read an application identity of portable data carriers, and

wherein the service provider unit is provided to check an authorization in the service provider system by means of a read application identity,

the method comprising the steps:

 Requesting (T1) authentication information comprising a security identity (48) of the data carrier (40) from the data carrier (40) by a reading device (24) of the service provider (20);

 Providing (T2) the authentication information by the data carrier (40) to the reader (24);

 Forwarding (T3) the authentication information by the reading device (24) to the authentication server (10);

 Authenticating the data carrier (T4) based on the authentication information by the authentication server (10);

 Determining, by the authentication server (10), an application identity associated with the volume (40) in the service provider system based on the security identity (48); and

Transmitting (T5) the determined application identity assigned to the data carrier to the reading device (24) of the service provider system.

A method according to claim 1, characterized in that in the step of determining the application identity of the volume in the service provider system is selected from a plurality of application identities.

3. The method according to claim 1 or 2, characterized in that the determined application identity is permanently assigned to the data carrier for the service provider system in the authentication server (10).

A method according to any one of claims 1 to 3, characterized in that the determined application identity is dynamically selected from the data carrier for the service provider system in the authentication server (10) from a plurality of application identities available to the service provider system.

A method according to claim 4, characterized in that the plurality of application identities available to the service provider system are dynamically selected from those in which the service provider system is assigned equal privileges.

6. The method according to any one of claims 1 to 5, characterized in that the reading device transmits the transmitted application identity, in particular like an application identity read directly from data carriers, to the service provider unit of the service provider system.

7. The method according to any one of claims 1 to 6, characterized in that the portable data carrier in the service provider system is identifiable only on the application identity.

8. The method according to any one of claims 1 to 7, characterized in that the portable data carrier only comprises the security identity as identity of the data carrier for the authentication server (10) and by a plurality of from the authentication server (10) can be transmitted, the data carrier associated application identities in the Variety of service provider systems.

9. Method according to one of claims 1 to 8, characterized in that the data carrier (40) is equipped with a data carrier management identifier (49) which codes a data carrier management information and which can be stored by means of a portable terminal (30) of a user of the system (100 ) is contactlessly readable, wherein the data carrier (40) is managed in advance on the authentication server (10) with the following steps:

- contactless (S2) reading out the volume management tag (49) by means of a portable terminal (30) and transmitting (S3) the volume management information encoded in the volume management tag (49) to the authentication server (10);

 Managing (S4) the volume (40) in the system (100) using the volume management information.

10. The method according to any one of claims 1 to 8, characterized in that an administration of the data carrier (40) on the authentication server (10) comprises:

Associating at least one service provider system from the plurality of service provider systems with the volume.

An authentication server (10) for a system (100), comprising at least one portable data carrier (40), the authentication server (10) and a plurality of service provider systems, each comprising readers (24) and a service provider unit (20), the readers (24) being arranged to read an application identity of portable media, and wherein the service provider unit is provided to request authorization in the service provider system by means of a read application identity to consider,

wherein the authentication server (10) is set up,

 receiving from the reader (24) authentication information with a security identity (48) of the volume;

 Authenticating the data carrier (T4) based on the authentication information by the authentication server (10);

 Determining an application identity associated with the volume (40) in the service provider system based on the security identity by the authentication server (10); and

 Transmitting (T5) the determined application identity assigned to the data carrier to the reading device (24) of the service provider system.

The authentication server (10) according to claim 11, characterized in that the authentication server (10) is arranged to store and manage the security identity (48) together with volume management information to the at least one volume (40) and a method according to one of claims 1 to 10.

System (100) comprising

 at least one portable data carrier (40),

the authentication server (10) according to claim 11 or 12 as well as at least one reading device (24) of at least one service provider (20) which can be coupled to the authentication server (10) via a communication network, wherein the data carrier (40) is arranged to contactlessly communicate with the reading device (24) and includes a security tag (42) contactlessly readable by the reader (24) and a volume management tag (49) contactlessly readable by means of a portable terminal (30) ,

14. System (100) according to claim 11 or 12, characterized in that the security marking (42) of the data carrier (40) is designed as an RFID transponder, preferably as an NFC transponder or as a UHF transponder.

15. System (100) according to one of claims 11 to 14, characterized in that the data management identifier (49) is designed as an optically readable identification, preferably as a bar code, particularly preferably as a QR code.