Systems, methods and apparatus are disclosed for remote management of payment terminals. Public keys, or other security elements can be received from a certification authority and distributed to the payment terminals. A merchant, or other entity affiliated with the payment terminals, can monitor the status of the software and security elements of the payment terminals.

A method for submission of payment transaction requests from a point of sale (POS) terminal to a financial institution includes reading payment information from a payment vehicle, reading financial institution routing information from the payment vehicle, reading a payment vehicle certificate from the payment vehicle, requesting consumer authentication information from a consumer, and submitting a payment transaction request to the financial institution using the financial institution routing information, a POS terminal certificate, and the payment vehicle certificate. An authentication certificate for submission of payment transaction requests from a point of sale (POS) terminal to a financial institution may be generated by receiving a request for an authentication certificate from a requestor, the request comprising a requestor ID and one or more capabilities of the requestor, verifying the requestor ID, generating an authentication certificate for the requestor, and returning the generated authentication certificate to the requestor.

Disclosed are methods and apparatuses for creating a verified mutually authenticated transaction between a service provider and an on-line identity for a physical client person. A dynamic optical mark may be displayed on a device screen where the physical client person is using a web service. The dynamic optical mark may be recognized via scanning the dynamic optical mark by a personal mobile device equipped with a camera. The verified mutually authenticated transaction between the service provider and the on-line identity for the physical client person may be used for sharing personal data of the physical client person by using out-of-band optical mark recognition of the dynamic optical mark. The verified mutually authenticated transaction may be initiated with a time-limited one-time password comprising a sequence of numbers encoded in the dynamic optical mark.

A first user device may be used to request provisioning of a secure credential on a second user device. A provisioning system may facilitate the provisioning in a manner that ensures security and privacy of the requesting parties. The provisioning requests may be made using an application on the first user device such as a third-party application or using a web application via a browser. The credential may be added to a digital wallet on the second user device. The credential may be useable by the second user device to perform one or more contactless transactions.

A payment system is provided for making a payment using electronic coin data sets, having a coin register which is designed to register the electronic coin data sets; participating units which are designed to carry out payment transactions by transmitting the electronic coin data sets and to transmit status and registration requests relating to the electronic coin data sets to the coin register; and a monitoring register which is designed to analyze monitoring data sets relating to the payment transactions. A monitoring data set includes at least one register data set and at least one transaction data set in the monitoring register. The at least one register data set is provided by the coin register, and the at least one transaction data set is provided by a transaction data set source and/or the coin register.

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.

Systems and methods of providing pre-staged transactions via lockers are disclosed. In one embodiment, an exemplary computer-implemented method may comprise receiving a request from a user to perform a pre-staged transaction at a physical location; generating a first token based on the pre-staged transaction; transmitting first token to an app executing on a mobile device associated with the user; assigning a locker from a plurality of lockers positioned within the physical location; receiving the first token from the app executing on the mobile device of the user to initiate access to the locker when the user is within the physical location; authenticating the user based on the first token; transmitting, upon successful authentication of the user, a second token to the app executing on the mobile device; and causing, in response to receiving the second token at the locker, the locker to unlock.

A mobile device includes a wireless chip, a display, a processor, and a memory storing instructions that, when executed by the processor, cause the processor to perform operations. The operations include: based on a first short-range wireless communication, receiving a customer-specific uniform resource locator (URL) from the contactless card via a wireless chip; automatically navigating to a website associated with the customer-specific URL; receiving authentication information and automatically populating one or more fields on a graphical user interface (GUI); displaying, by the display, an indication of activation of the contactless card; receiving and accepting a prompt to register the mobile device with the activated contactless card; and based on at least a second short range wireless communication between the registered mobile device and the contactless card, providing a second GUI including an online login portal for accessing an account that is associated with the contactless card.

A method for consensus verification implementable by a first blockchain node in a consensus network may comprise: receiving a transaction request from a client, and performing a first security verification on the transaction request; in response to determining that the transaction request passes the first security verification, storing the transaction request, and broadcasting the transaction request to each of second blockchain nodes in the consensus network, causing the each second blockchain node to store the transaction request in response to the second blockchain node determining that the transaction request passes a second security verification; performing pre-processing on at least one stored transaction request in response to determining that a preset condition is satisfied, to obtain and store a pre-processed block; and broadcasting the obtained pre-processed block to the second blockchain nodes, causing the second blockchain nodes to perform consensus verification on the obtained pre-processed block.

In embodiments of the disclosure a method is disclosed for exchanging digital tokens from a message-based application is disclosed. The method includes displaying, by a digital wallet GUI, an inventory of tokens that are owned by a user. Each token is linked to a virtual representation of an item and redeemable for an instance of the item. The method also includes receiving an instruction to transfer a digital token from the inventory of tokens to a recipient and displaying a keyboard that includes a selectable media content that represents the item linked to the token. The method also includes receiving a selection of the media content and embedding a token identifier of the token in a text-based message that is sent to the recipient, such that the recipient can select the selectable media content to accept to the digital token into a respective digital wallet of the recipient.