The present invention relates to a method for making available a security key, wherein a smart card adapted according to the invention is employed for the production thereof. In this case, an expedient method sequence is proposed which makes it possible for the smart card to make available, for example, a so-called one-time password or a dynamic check number in interaction with a token server. The present invention further relates to a correspondingly adapted computing arrangement and to a computer program product with control commands which implement the method and/or operate the computing arrangement.

A system of electronic communication is disclosed. The system may: create a Pre-Authentication Transaction Number (Pre-ATN) by combining a number with a Special Encode Value (SEV), wherein the SEV is a single digit integer value; encrypt the Pre-ATN using a Format Preserving Encryption (FPE) to generate an encrypted Authentication Transaction Number (ATN); and send the encrypted ATN to an access control server (ACS) to use the encrypted ATN to generate a cardholder Authentication Verification Value (CAVV) or an Accountholder Authentication Value (AAV).

Example embodiments of systems and methods for data transmission between a contactless card, a client device, and one or more servers are provided. The contactless card may include one or more processors and memory. The memory may include one or more applets. The client device may include one or more processors and memory. The client device may be in data communication with the contactless card. One or more servers may be in data communication with the client device. A first set of information may be transmitted from the contactless card to the client device. The first set of information may include one or more links to activate the contactless card. The client device may be configured to receive the first set of information from the contactless card. Upon validation of the first set of information, the contactless card may be activated.

Systems and methods of authenticating online purchases by detecting a presence of an authorized smart card at a personal computing device of a customer are disclosed. An issuer computing system maintains a customer database of personal information and financial information for a plurality of customers with issued smart cards. An authentication logic receives an authentication request sent from a local merchant circuit at the personal computing device over a network. The authentication request comprises an authentication code provided to the local merchant circuit by a contactless chip of a smart card. The authentication logic authenticates the authentication request by comparing the authentication code with stored information in the customer database and transmits an authentication approval to the personal computing device, wherein the authentication approval enables an online purchase transaction request corresponding to the authentication request.

Authenticating a secure element payment card includes transmitting a cold reset signal to the payment card and receiving an answer-to-reset message therefrom. The answer-to-reset message includes governing rules for performing a transaction, including a rule indicating that a secure data element is to be used to authenticate the payment card. The process also includes receiving payment account details for a payment account associated with the payment card. A payment authorization request message is transmitted to an interchange network and a card authentication request message is then received from the interchange network. The card authentication request message includes an encrypted instruction, which is transmitted to the secure element payment card. The secure data element is received from the payment card and a card authentication request response message is then transmitted to the interchange network. A payment authorization request response message is then received from the interchange network.

Embodiments of the inventive concept described herein relate to a virtual card number-based financial transaction apparatus, a virtual card number-based financial transaction providing method, and a virtual card number-based financial transaction providing program, and more particularly, relate to an apparatus, method, and program that may provide a user with an electronic wallet service in an environment where an infrastructure of a financial transaction service is not established.

In various embodiments, a system and method for providing simplified checkout are provided. In example embodiments, an identifier that corresponds to a payment account of a user is received at a payment provider system. Account information from the payment account of the user is retrieved from a payment data storage of the payment provider system. The account information is used in a payment transaction involving a merchant system. A payment interface having transaction fields populated with the account information retrieved from the payment account of the user is presented to the user while the user maintains a presence on a webpage of a merchant system.

Disclosed herein is a computer implemented method for providing authentication for secure transactions in a multi-server system, the method comprising; receiving, at an authentication server from a requestor server, a request for a cryptogram, the request being associated with a transaction and including a requestor identifier; in response to receiving the request, generating a cryptogram; sending, from the authentication server, the cryptogram to the requestor server; receiving, at the authentication server from a merchant server, the cryptogram, a payment token, and a unique merchant identifier, and a merchant secret; validating, at the authentication server, the cryptogram; comparing, at the authentication server, the unique merchant identifier and the merchant secret with a unique merchant identifier and a merchant secret pair stored in a database; and authorizing, at the authentication server, the transaction when there is a match.

Application-based point of sale systems in mobile operating systems. A first application may generate a first URL directed to a second application, a parameter of the first URL comprising an identifier of the first application. A mobile operating system (OS) may access the first URL to open the second application. The second application may receive, from a server, a virtual account number (VAN). The second application may initiate a server on a port and generate a second URL directed to the first application, a parameter of the second URL comprising the port. The OS may access the second URL to open the first application. The first application may establish a connection with the server using the specified port and receive the VAN from the second application via the connection. The first application may autofill the VAN to a form field of a payment form in the first application.

Devices, systems and methods for reconfigurable and/or updatable lightweight embedded devices or systems are disclosed. Via use of such a device, system, or method, various capabilities for a user are provided, simplified, secured, and/or made more convenient. The system may interact with various other devices or systems, including those that are cloud-based or communicate through the cloud, and may utilize various local sensors, in order to provide one or more of improved access, monitoring, or diagnostics, and so forth.