Systems and methods are disclosed for automated validation for proprietary security implementations. One method includes: receiving, from each of a plurality of merchants, a list of security service providers used by the merchant; enabling connection with the each of the security service providers of the received list of security service providers used by the merchant; receiving, from each of the listed security service provider with connection enabled, security service information as it pertains to the merchant of the plurality of merchants; generating a security service profile for each merchant of the plurality of merchants, based on the received security service information from each security service provider of the received list of security service providers of the merchant; and outputting the security service profile of the merchant of the plurality of merchants to an electronic storage medium.

Example embodiments of systems and methods for contactless card verification include a contactless card including a substrate, a processor, and a memory, wherein the memory contains a first applet and a second applet, and a recipient device in data communication with the contactless card, wherein the second applet is configured to retrieve one or more parameters from the first applet via an interface; and wherein the second applet is configured to transmit the one or more parameters to the recipient device for verification.

Methods, systems, and apparatuses for block chain security schemes for electronic cash tokens are described herein.

Systems and methods are disclosed for electronic transaction messaging conversion. One method comprises receiving an authorization request message from a point of sale (POS) device, the authorization request message comprising transaction data associated with a transaction. Upon validating the authorization request message, a provisional authorization response message may be generated and sent to the POS device. Subsequently, a capture message may be received from the POS device, requesting clearing and settlement of the transaction. The capture message may be validated and translated to a composite message that is single-message system (SMS)-compatible. The composite message may then be sent downstream for further processing.

A method and system for the matching of electronic sales receipts that protect the personal information of the user by using a Payment Account Reference (PAR) instead of payment instrument information to identify the user. The use of PAR provides several advantages. The PAR is considered non-sensitive data and cannot be misused outside the card networks—the PAR is unusable for payment as opposed to the PAN (Primary Account Number—aka. Card number). Using the PAR is a safer and faster way of identifying the transaction & user for issuing a digital receipt. The PAR remains the same, despite the card expiring, being reissued, etc.

A method and system for receiving digital artifacts from a management server. The method includes sending a request for a digital artifact from a mobile application to the management server fir display within a specific mobile application generated screen, receiving the digital artifact from the management server, and displaying the digital artifact with the specific mobile application generated screen.

The present disclosure relates to a point of sale [POS] system (1) for contactless payment of products, comprising a payment processing unit (10) for facilitating electronic payment of products based on payment-facilitating information received from a portable payment device (30), such as a contactless card. The payment processing unit (10) is connected to a plurality of antennas (20a-20d), each associated with a respective product and each configured to read payment-facilitating information from a portable payment device (30) when the portable payment device is brought in the vicinity of the antenna. The payment processing unit (10) is configured to, upon reading of payment-facilitating information by any of the antennas (20a-20d), receive the payment-facilitating information and identify a product to be paid for based on which of the plurality of antennas (20a-20d) read the payment-facilitating information, and to facilitate a financial transaction comprising payment of the identified product using the payment-facilitating information.

A device may receive an indication that an ATM transaction is to be conducted, display prompt(s) for a user to input user authentication credential information and to select an ATM transaction type, detect user input(s) that include a user authentication credential and a selection of a particular ATM transaction type, and receive, from an ATM device, a request to establish a communication session. The ATM device may include a sync button to initiate communicative coupling of the ATM device and the user device. The request may be based on a user selection of the sync button. The device may communicatively couple to the ATM device, and provide, to the ATM device, the user authentication credential and data regarding the particular ATM transaction type to cause the ATM device to perform the ATM transaction. The device may display information regarding the ATM transaction.

Systems, methods, apparatuses, and computer-readable media for secure generation of one-time passcodes using a contactless card. In one example, an operating system (OS) of a device may receive a uniform resource locator (URL) and a cryptogram from a contactless card. The OS may launch an application associated with the URL. The application may transmit the cryptogram to an authentication server. The application may receive a decryption result from the authentication server indicating the authentication server decrypted the cryptogram. Based on the decryption result, the application may request an OTP. The processor may receive an OTP from an OTP generator. The application may receive an input value and compare the input value to a copy of the OTP. The application may determine that the comparison results in a match, and display, based on the determination that the comparison results in the match, one or more attributes of the account.

Techniques are described for managing devices, such as Internet of Things (IoT) devices, using smart contract(s) on a distributed ledger (e.g., blockchain). Smart contract(s) executing on a distributed ledger may control access to one or more devices in a home or other environment. The smart contract(s) may employ information stored on the distributed ledger and information in a transaction sent to the smart contract(s) to determine whether particular user(s) and/or process(es) may access the device(s), issue commands to the device(s), access data generated by the device(s), and/or control the device(s). The smart contract(s) may provide a secure portal through which user(s) and/or service(s) may access device(s) for command and control of such device(s), and secure access may be based on permission information that is specified or provided by an owner or operator of the device(s) and that is stored on the distributed ledger.