A system for issuing a dynamic temporary credential to a portable communication device for use in a transaction with an electronic control point. The system receives the current geo-location of the portable communication device and transmits a dynamic temporary credential to the portable communication device from the centralized computer. The system further scores the risk in authorizing a transaction associated with an electronic control point using the dynamic temporary credential it issued. The system may prevent the transmission of the dynamic temporary credential until the end user has been authenticated, which may include verifying one or more of a manually input passcode, the unique digital signature of the portable communication device, and know your customer queries. The system may further include a validation mapping gateway operably connected to one or more issuers that substitutes legacy payment data for the dynamic temporary credential in a payment transaction before sending the payment transaction along with the risk score to the issuer associated with the legacy payment data.

A method for execution by one or more computing devices of an exchange item marketplace network includes generating, by an exchange item origination entity, an origination block of an exchange item transactions chain associated with an exchange item, where a portion of the origination block is encrypted. The method further includes receiving, from a computing device of the exchange item marketplace network, an acquisition request regarding the exchange item. The method further includes generating a first block of the exchange item transactions chain, where the first block includes information regarding the exchange item, the computing device, and the acquisition request, where a first portion of the first block is encrypted, and where the first block is chained to the origination block in accordance with a security approach.

A mobile communication device accepts payments and is capable of integration of retail business applications without additional hardware. It allows merchants to accept card present payments directly without any need for additional external hardware, such as Point of Sale (POS) terminals. The merchant can accept card present payments from a contactless credit/debit card, from a mobile smart phone or another mobile telecommunication device supporting payment card digitization, or from a mobile smart phone or another mobile telecommunication device that carries or can access and transmit relevant payment information.

A method for selling a cryptocurrency via a consumer-operated kiosk is provided. In some embodiments, the method: displays to a user, via a user interface, one or more options to purchase one or more cryptocurrencies; receives from the user, via the user interface, a selection of one of the cryptocurrencies; obtains a cryptocurrency exchange rate from a cryptocurrency exchange; presents the exchange rate to the user via the user interface; receives from the user payment for the selected cryptocurrency via a bill acceptor; purchases the selected cryptocurrency from the cryptocurrency exchange in an amount based on a value of the received payment and the exchange rate; and displays to the user, via the user interface, a receipt having a redemption code and a personal identification number (PIN), wherein both the redemption code and the PIN are necessary to obtain the selected cryptocurrency.

A method of authentication of a user is provided. The method comprises capturing a brain activity signal from a user; comparing the brain activity signal with reference data; and determining, based at least in part on the comparison, whether the identity of the user can be confirmed. Also provided is a computing device comprising at least one processor and at least one memory. The computing device is adapted to: communicate with a brain activity sensing system to capture a brain activity signal from the user; provide the captured brain activity signal to an authentication service computing system; and authenticate the user based at least in part on the result of a comparison with reference data received from the authentication service computing system. A system comprising the computing device and a brain activity sensing system, and am authentication service computing device are also provided.

While mobile device location remains, private, user transaction controls are applied to a specific authorization request. The user transaction controls are pre-configured by the user of the mobile account holder device and identified by the enriched merchant data. Location algorithms predict transaction locations used to obtain enriched merchant data responsive to location privacy mode. Responsive to the user transaction controls, a fraud recommendation response is sent to the approval system, in real time with the transaction. The fraud recommendation response prevents a false negative by using an enriched merchant location rather than the raw merchant location.

A method for performing a card-to-card direct contactless transaction between a first active stored-value smart card (“SVSC”) and a second active SVSC, each comprising an active near-field communication (“NFC”) reader. The method may include activating the first active SVSC by receiving input of a personal identification number (“PIN”) on a keypad located on the first active SVSC, verifying the PIN and further receiving input of a transaction amount on the keypad. The method may further include initiating a wireless NFC communication to perform the transaction by positioning the first active SVSC within a pre-determined distance to the second active SVSC and confirming accuracy of each of the first and second active SVSC using the active NFC reader to retrieve card ID data and confirm accuracy. Following confirming, the method may include directly completing the transaction between the first active SVSC and the second active SVSC.

Various embodiments are directed to a method and system for provisioning a merchant-specific payment apparatus, such as a temporary payment card, via a computing device, such as an automated teller machine (ATM). A user, such as a customer, may specify a merchant. A record of known payment acceptance types at that merchant may be returned, which may be used to determine what type of temporary payment card gets issued to the user.

Systems and methods are for routing electronic payment transactions to PIN-less networks using payment pseudo-networks and electronic transaction simulation. One method comprises: receiving transaction-related information from a merchant, the transaction-related information including a bank identification number (“BIN”), one or more available network IDs, one or more merchant categories, an issuer regulatory status, a transaction amount, and a preferred status; extracting routing criteria from the received transaction-related information; dynamically identifying one or more eligible networks based on extracted routing criteria; dynamically identifying one or more breakeven transaction amounts for each identified eligible network, each breakeven transaction amount defining a point at which two or more eligible networks have the same expenses for a given transaction amount; and routing signature debit transactions from the merchant to a least cost PIN-less network selected from the eligible networks based on identification of a desired breakeven transaction amount for the PIN-less network.

A method of network configuration of a personal identification number (PIN) pads includes receiving a request to upgrade a PIN pad from a merchant or an individual software vendor (ISV) to read microprocessor-enabled or contactless payment vehicles, retrieving a PIN pad configuration hash value from the PIN pad, obtaining current configuration using the hash value, sending instructions to the PIN pad to upgrade the PIN pad over a network if the PIN pad is capable of reading microprocessor-enabled or contactless payment vehicles, and downloading and installing drivers to enable PIN pad readers to read and process at least one of the microprocessor-enabled payment vehicles and contactless payment vehicles according to the instructions. The method further performs additional operations such as updating the PIN pad registry with the PIN pad configuration and enabling the PIN pad to read the microprocessor-enabled or contactless payment vehicles.