A method for authenticating a mobile device in real-time. The method includes detecting the mobile device, sending a text message containing a unique uniform resource locator (“URL”) to the mobile device, and detecting an access of the unique URL by the mobile device through a first communication path. In response to detecting the access of the unique URL, requesting and subsequently receiving, by the host system in real-time, a phone number and a subscriber identification ID associated with the mobile device through a second communication path distinct from the first communication path, and a device fingerprint of the mobile device through the first communication path. The method further includes initiating a risk analysis based on the phone number, the subscriber ID, and the device fingerprint and determining an authentication status of the mobile device based on the risk analysis.

Techniques described herein include analyzing point-of-sale transactions and initiating interactive mobile sessions responsive to the transactions. Platform servers receive transaction data indicative of a transaction performed via a point-of-sale system, determine additional data associated with server processes, and initiate interactive session with the mobile device to receive the additional data for performing the server processes. Based on the interactive sessions and additional data, the platform servers may enhance fraud detection capabilities and generates compliance records for tax and expense reporting based on the transactions, while supporting credentialing and authentication capabilities.

Systems and methods are provided for distributing data to multiple data centers within a network based on unique information associated with the data. One example method includes receiving data including a device ID specific to a device of a user and generating, by a filter computing device, a group identifier for the received data based on the device ID. The group identifier is associated with only one of the multiple data centers within the network. The method then includes storing the received data in a data storage device of the one of the multiple data centers based on the group identifier.

A system and a method of data communication between a first computing device, associated with a first user, and at least one second computing device associated with a second user may include: receiving, by the first computing device, one or more data elements pertaining to details of a transaction request from the second computing device, via a voice channel; extracting said transaction request details by the first computing device; transmitting, by the first computing device, one or more authentication data elements of an electronic wallet module, comprised in the first computing device, to the second computing device, via the voice channel; and carrying out the requested transaction by the first computing device, based on the extracted transaction request details and the electronic wallet authentication data.

Methods and systems of managing payment cards are disclosed. A financial institution computing system includes a token database storing a plurality of tokens and token information, a network interface circuit enabling the financial institution computing system to exchange information over a network; and a token management circuit. The token management circuit enables a graphical user interface on a customer device over the network that can be used to generate new token requests, re-provision token requests, and management requests. The management requests enable and disable tokens, such that transactions against a payment card account using an enabled token are completed, and transactions against the payment card account using a disabled token are denied.

Described herein are a cash register and a ticket vending mechanism that require little or no merchant infrastructure resulting in dramatic cost reduction for merchants. These are made possible through a payer-centric payment paradigm where the payer—as opposed to the merchant—completes the payment transaction without depending on the merchant, resulting in increased payer convenience and payment security.

A method for processing transaction data, implemented by a communications terminal having a touch screen. The method includes: detecting a necessity of entering a piece of personal identification data; transmitting to a card reader connected to the communications terminal a request for supporting a display of a virtual keypad, the request comprising a piece of data representing a passage of the communications terminal from a “master” mode to a “slave” mode of operation, the slave mode leading to implementation of the method for processing transaction data under the exclusive control of the card reader; of entry, by the user on the virtual keypad, of the piece of personal identification data; and receiving, from the card reader, the piece of personal identification data.

There are provided systems and methods for a physical stand for multiple device orientations and peripheral card reader. A device stand may include a dock that allows for placement and securing of a computing device within the device case, such as through a locking or connecting mechanism. The device dock further includes a peripheral component, such as a physical card reader, that allows for reading and entry of card data into the computing device for use with an electronic transaction processing application on the computing device. This allows the computing device to process transactions electronic with an online service provider. Further, the device stand includes a hinge or joint that allows for rotating and inverting of the computing device over a curved extension from a base of the device stand, which allows the computing device to be viewed in multiple directions and orientations.

Disclosed are systems and methods for centralized authentication of financial transactions. An authentication server receives, from a client device, information for a financial transaction. In accordance with an embodiment of the disclosure, the authentication server executes in a kernel-based environment at least one authentication step based on the information. For example, in some implementations, the authentication server generates a PIN block and transmits the PIN block to a financial gateway, along with a request for the financial transaction. Notably, the client device does not need to perform the authentication steps executed by the authentication server, such as generating the PIN block for example. This can enhance security of the transaction system because information such as a terminal key used to generate the PIN block remains centralized and not on a client device where it could possibly be stolen by a criminal.

Systems, methods, and computer-readable media are described for facilitating payment between mobile devices through respective mobile service providers. Access to a payment system is provided through a universal mobile device keyboard with a payment key embedded within the universal mobile device keyboard. Selecting the payment key may initiate the payment between a user and a message recipient through their respective mobile device accounts.