The present disclosure relates to credential management for mobile devices that can be used for access to secured physical environments. One aspect comprises a computer implemented method comprising a mobile computing device: receiving, from a server system, and storing, on the mobile computing device: one or more application sequence counter values, one or more limited use credentials (LUCs), each LUC being bound to a corresponding one of the application sequence counter values; one or more emergency credentials, and an account token; subsequently receiving an authentication request from a terminal; in response to receiving the authentication request, determining that no LUC is available for fulfilling the request; and in response to determining that no LUC is available for fulfilling the request: transmitting, to the terminal, the account token and an application cryptogram generated from an emergency credential of said one or more emergency credentials; and updating a current application sequence counter.

Disclosed are a method and apparatus for processing an account of a blockchain network. The method includes: obtaining an account transaction request associated with a chain account, wherein, the chain account belongs to the blockchain; obtaining an account smart contract from the account transaction request, and writing the account smart contract into a block, wherein, the account smart contract is configured to perform operation on a chain element in the chain account when executed.

Systems and apparatuses for enrolling a user with a product of an institution are provided. A computing device associated with a financial institution includes one or more processors and a non-transitory machine-readable media storing instructions that, when executed by the one or more processors, cause the one or more processors to perform operations including: establishing a short-range communication channel with a user device based on a tap exchange; syncing a graphical user interface of the computing device associated with the financial institution with a graphical user interface of the user device associated with the user; displaying, via the graphical user interface of the computing device, information associated with the user at substantially the same time that the information is displayed on the graphical user interface of the user device; and receiving an indication from the user device to transmit the information over the short-range communication channel to the financial institution.

A server includes a processor that receives, from a first device, initiation message(s) each including a service identifier and a service value and, for each initiation message, saves in a database a record comprising the service identifier in association with the service value. The processor receives, from a second device, authorization message(s) each including one of the service identifiers and an authorization value, and for each authorization message, validates one of the initiation messages by (i) locating in the database the record comprising the one service identifier, and (ii) confirming that the service value in the located database record matches the authorization value. The processor updates a journal with an entry identifying a transfer between a first ledger and a second ledger in an amount equal to a sum of the service values of the validated initiation messages, and provides the first device with a message confirming the transfer.

The present disclosure provides a method and a device for control of blockchain data access based on a smart contract. The method includes obtaining, by a blockchain node, an access operation request of an institution, the access operation request including a transaction identifier of a transaction to be accessed, according to the transaction identifier, determining a blockchain state corresponding to the transaction identifier, the blockchain state including a hash value of the transaction corresponding to a last time change of the blockchain state, according to the hash value of the transaction corresponding to the last time change in the blockchain state and an identifier of the institution, performing data access control on the institution, obtaining control result, and transmitting the control result to the institution.

Systems and methods for autonomous banking resources are disclosed. Embodiments include a mobile banking resource including an unmanned motorized vehicle, a controller configured to control the movement of the motorized vehicle, an authentication device configured to verify the identity of a user, a server configured to communicate with the controller and the authentication device, and a user interface module configured to interface with the user conducting a transaction. The user interface module may include a user input device configured to receive user input, and a communication interface module configured to communicate with a server and the user input device. The controller may be configured to operate the motorized vehicle to move the motorized vehicle to a location based on a predicted behavior of the user.

Various embodiments are generally directed to techniques for multi-voice speech recognition commands, such as based on monitoring a telecommunications channel between first and second devices, for instance. Some embodiments are particularly directed to prompting initiation of a transaction between a first entity associated with a first device and a second entity associated with a second device based on detection of an audible request corresponding to the second entity and an audible response corresponding to the first entity.

Systems and methods for providing authentication circles to pursue financial goals and/or share expenses with others are provided. One or more provider computing systems are communicatively coupled to one or more user devices. Users may join a circle and make contributions via electronic messages that may allow for acceptance in a one-click fashion. Members may, for example, plan for and share expenses for a trip and compare the expenses with budgets.

The proposed solution in particular relates to a computer-implemented method to identify user computing device locations based on location data and beacon signal strength in which a user computing device receives a beacon signal comprising a beacon device identifier from a beacon device via a wireless network scan and determines that a second location of the user computing device is within a geofence boundary and is less than a predefined distance from a location of the beacon device based on a beacon signal strength of the beacon device. The beacon signal strength is based on at least one of the received beacon signal and further signals received from the beacon device via the wireless network scan. In response to determining that the second location is less than the predefined distance from the location of the beacon device, the user computing device transmits a next in line status message indicating the location of the user computer device and a user identifier associated with the user computing device to a computing device associated with the beacon device.

A system having a payment-credential logic; a software application; wherein when an authorized person verifies an identity of a mobile customer using a government identification document, the payment-credential logic is then activated, the payment-credential logic is configured to create payment-credential information and to cause the payment-credential information to be stored for future access, wherein the payment-credential logic is configured to provide a way for the software application to be loaded into a mobile customer device, wherein the software application is configured to allow the mobile customer device to access the payment-credential information for one or more future monetary transactions.