A method and apparatus for fraud detection during transactions using identity graphs are described. A method includes receiving, at a commerce platform system, a transaction from a user having initial transaction attributes and transaction data. The method also includes determining, by the commerce platform system, an identity associated with the user associated with additional transaction attributes not received with the transaction. Furthermore, the method includes accessing a feature set associated with the initial transaction attributes and the additional transaction attributes that includes machine learning (ML) model features for detecting transaction fraud. The method also includes performing, by the commerce platform system, a machine learning model analysis using the feature set and the transaction data to determine a likelihood that the transaction is fraudulent, and performing, by the commerce platforms system, the transaction when the likelihood that the transaction is fraudulent does not satisfy a transaction fraud threshold.

A dual-factor PIN based authentication system and method uses a cryptogram provided by a contactless card associated with the client in association with a PIN stored by the contactless card to authenticate the client. In some embodiments, cryptogram authentication may be preconditioned upon a PIN match determination by the contactless card. In other embodiments, the cryptogram may be formed at least in part using the personal identification number (PIN) stored on the contactless card encoded using a dynamic key stored by the contactless card and uniquely associated with the client. Authentication may be achieved by comparing the cryptogram formed using the PIN against an expected cryptogram generated an expected PIN and an expected dynamic key.

The invention is directed to computer-based method and a computer system for generating a blockchain address. The method comprises receiving a request for a new blockchain address for a user, the request including a public key, which has an associated private key, and identification information for the user, and generating the address based on a combination of the public key and the identification information.

Methods, systems, apparatus, and non-transitory computer readable media are described for using a vehicle as a payment device. Various aspects may include receiving a selection of a stored financial card or financial account at a vehicle head unit. The selected financial card or financial account may be transmitted to a point-of-sale (POS) terminal for making a payment by transmitting a tokenized card number to the POS terminal. The tokenized card number may be transmitted over a very short-range communication link to ensure that the transmission is secure. For example, electronic circuitry may be attached to the exterior of the vehicle, where the electronic circuitry may be within a threshold distance (e.g. one inch, three inches, six inches, one foot, three feet, etc.) of the POS terminal. The tokenized card number may be transmitted from the vehicle head unit to the electronic circuitry and then to the POS terminal.

Systems, methods, and computer-readable storage media utilized for event-based authentication. One method includes recognizing an event and receiving, from a device, a withdrawal request of a user, wherein the withdrawal request includes a captured feature by the device. The method further includes determining that the user is associated with the recognized event using at least a geographic proximity between the event and the withdrawal request, wherein the geographic proximity is a given radius around a location of the event, and wherein the device is within the given radius and adjusting authentication rules based on the determination that the user is associated with the recognized event, wherein the adjustment of the authentication rules includes adjusting a matching threshold between the captured feature and a reference feature. The method further includes processing the withdrawal request for the user based on the adjusted authentication rules.

A contactless delivery system is provided. The contactless delivery system includes a contactless card storing a cryptogram containing a unique identifier associated with a user account. After entry into a communication field, the contactless card is configured to transmit the cryptogram to a server. Upon receipt of the cryptogram, the server is configured to validate and decrypt the cryptogram, and extract the unique identifier. The server can query a database for an identity of the user account using the unique identifier, generate a digital signature based on the identity of the user account, and transmit a verification notification including the identity of the user account and the digital signature.

The current disclosure relates to systems, apparatuses, and methods of for performing an electronic transfer, including determining recipient information for the electronic transfer using a first user interface of the electronic banking platform, in response to determining the recipient information, two or more user interactive elements are displayed in a second user interface of the electronic banking platform, each of the two or more user interactive elements corresponds to a different one of a plurality of electronic P2P transfer platforms, receiving user input corresponding to a selected user interactive element of the two or more user interactive elements, the selected user interactive element corresponds to a selected electronic P2P transfer platform of the plurality of electronic P2P transfer platforms, and processing the electronic transfer using the electronic banking platform and the selected P2P transfer platform.

The present disclosure generally relates to a computer system displaying user interfaces for accessing passes and transfer accounts. In some examples, passes are added to the computer system. In some examples, passes are accessed. In some examples, transfers relating to the passes and transfer accounts are displayed, such as in search user interfaces.

A general purpose blockchain (GPB) platform for creating, maintaining, and managing a distributed ledger. The GPB comprises multiple nodes, each configured to host a GPB for storing GPB arbitrary objects. Each GPB arbitrary object comprises an object data, wherein the object data being a structured or unstructured data; a basic data structure implemented in a data markup language that provides self-description of the object data with at least fields for storing the object's origin, the object's owner, the object's transfer history, object's modification/transformation history, the object type, and the object data; and a universal interface for providing an encapsulation or reference to the object data for accessing the object data and an transformation function to allow interoperability of object data of different formats. A plurality of GPB s collectively maintain consensus of changes of the stored GPB arbitrary objects with a plurality of other GPB s.

An athlete name, image, and likeness (NIL) marketing and direct payment system is disclosed. The athlete NIL marketing and direct payment system supports a marketplace which enables people to send money to athletes for their name, image, likeness (NIL). The athlete NIL marketing and direct payment system supports ownership NFT tokens for the athlete's NIL on the blockchain as well as a sales and marketing platform that allows for direct payment from people to the athletes.