An automatic product dispensing machine (100) according to an aspect of the present invention comprises a product storage device (4), a control unit (30) for controlling product dispensing operation of the product storage device (4), a reading unit (12) for reading information including at least a dispensing permission indication of a product from a product claim card (recording medium) (C) that records the information, and a collecting part (20) for collecting and containing product claim cards (C). In accordance with the information read by the reading unit (12), the control unit (30) outputs a dispensing permission command to the product storage device (4) for permitting dispensing of the product.

A system includes at least two buses including a first bus and a second bus, an encryption and decryption system corresponding to each bus, at least one signal processing module corresponding to each bus, and a bus converter coupled between the first bus and the second bus. According to the system provided in embodiments of the present invention, because data transmitted on a bus is encrypted data, even though an attacker obtains bus data by means of a probe attack, it is quite difficult to break a key, and an anti-attack capability of the system can be improved.

A method includes receiving, on an electronic payment device, a radio frequency signal from a mobile electronic device. The radio frequency signal is used to control an activation of an electric current to one or more color producing components on the electronic payment device. The electric current is transmitted to the one or more color producing components. The one or more color producing components display a color when the electric current is transmitted to the color producing components.

Various embodiments for contextual tapping engines. For example, an application executing on a computing device may authenticate credentials associated with an account and detect a tap of a contactless card to the computing device. The application may receive, from a communications interface of the contactless card, action data used to determine an action associated with the tap of the contactless card to the computing device. The application may determine a context of the application based on a current output of the application. The application may determine, based on the action data, the determined context, and data associated with the account, a first action associated with the tap of the contactless card to the computing device, the first action associated with at least one of the application and an operating system (OS). The application may initiate performance of the first action based on the tap of the contactless card.

A method for distributed tokenization of sensitive strings of characters, such as social security numbers, credit card numbers and the like, in a local server is disclosed. The method comprises the steps of receiving from a central server at least one, and preferably at least two, static token lookup tables, and receiving a sensitive string of characters. In a first tokenization step, a first substring of characters is substituted with a corresponding first token from the token lookup table(s) to form a first tokenized string of characters, wherein the first substring of characters is a substring of the sensitive string of characters. Thereafter, in a second step of tokenization, a second substring of characters is substituted with a corresponding second token from the token lookup table(s) to form a second tokenized string of characters, wherein the second substring of characters is a substring of the first tokenized string of characters. Optionally, one or more additional tokenization steps is/are used.

Various embodiments are generally directed to copying data to a clipboard of a mobile device from a contactless card using NFC. A mobile device may issue a request to read data from the contactless card. The contactless card may generate encrypted data in response to the request. The mobile device may receive the encrypted data via NFC and transmit the encrypted data to a server for verification. The server may verify the encrypted data and transmit an indication of an account number for the contactless card to the mobile device. The mobile device may then copy the account number to a clipboard of the mobile device.

Example embodiments of systems and methods for data transmission in a contactless card and client application are provided. The contactless card comprises a visual display, processor, and a memory which includes a first applet, unique identifier, and value. A client application comprises instructions for execution on a client device, and is in data communication with the contactless card via one or more communication fields. The contactless card may display the value, the unique identifier, and a first status on the visual display. The first applet may transmit data to the client application in response to one or more gestures by the contactless card within at least one of the fields. The client application may authenticate the received data. The contactless card may update the display via the one or more fields based on the authenticated data, and change the first status to a second status based on the updated display.

A computer system, computer program product, and method includes detecting a request for sensitive information to be input by a user, determining that a network is a non-secure network, disabling a sensitive user information input function to prevent the user from entering sensitive information over the unsecure network, generating a unique identifier to be displayed on the computer, wherein the user scans the unique identifier with a mobile device to initiate an automatic transaction over a secure network between the mobile device and the computing system, validating the user operating the mobile device and completing the automatic transaction over the secure network with the mobile device rather than over the unsecure network with the computer.

A card for storing both emergency information and payment information is disclosed. The card can be used by an emergency responder to retrieve emergency information for the user. The emergency information can enable the emergency responder to better render aid to the user. The card can have one or more processors, a sensor, and a memory in communication with the one or more processors and storing an application thereon. The application can cause the card to receive a request from a user device (e.g., from an emergency medical technician, or EMT) to access emergency information stored in the memory, transmit a security challenge to the user device, authenticate a received response to the security challenge from the user device, and transmit the emergency information to the user device.

A computerized transaction card is provided and includes a plastic form factor resembling a credit card, the form factor including all or a combination of a magnetic stripe, a euro-pay master card and visa (EMV) chip, and or a near field communication (NFC) chip, a micro-controller powered by a rechargeable battery, at least one wireless chip set for sending and receiving data over a local wireless network; and, an interactive display screen for displaying information to a card operator.