Provided are a payment method and system through generation of a one-time payment-only number of a real card linked with an application, wherein in order to make payment safely by generating a one-time payment-only number every payment without leaving card information of a user in a provider's payment terminal or by using the generated one-time payment-only number, when a real card is linked with an application installed on a user terminal and the payment terminal recognizes the real card, a user signature input window, and transaction information about payment performed with a one-time payment-only number generated by a card company server are displayed on a screen of the application of the user terminal, and payment is performed when a signature of the user is input to the signature input window.

A method or a system, automatically and electronically ensures that customer pays for all goods picked up and the customer takes out of the shop only goods paid for. All this is done without the need of a shop teller and finally without the need of a shop supervisor to periodically crosscheck and ensure that the total amount of money collected by the shop teller (within a period) equals the total value of goods disbursed. The resultant of this system are the shop runs can run a totally cashless shop; reduce human resource by a significant percentage; shop can be opened 24/7; no more queues at shop teller points even during peak periods or major sales.

An example fraud analysis platform may receive timing information associated with a user interaction during a transaction, wherein the user interaction is associated with a user engaging in a transaction using a transaction account and a transaction device to access the transaction account. The fraud analysis platform may generate, based on the timing information, a transaction interaction signature associated with the user interaction. The fraud analysis platform may compare the transaction interaction signature to a reference signature associated with an authorized user of a transaction account. The fraud analysis platform may determine, based on the transaction interaction signature being associated with the reference signature, that the user interaction was performed by the authorized user of the transaction account. The fraud analysis platform may perform, based on determining that the user interaction was performed by the authorized user, an action associated with the transaction or transaction account.

Systems and methods for detecting fraud. One method includes providing an input device, the input device having processing circuitry, a memory, and at least one information receiving module for receiving information associated with a user of the input device. The method also includes providing a sensor in electronic communication with the processing circuitry. The sensor has a sensor coil, and the sensor coil is disposed proximate the at least one information receiving module. Further, the method includes flowing alternating electrical current through the sensor coil to generate a magnetic field, measuring at least one electrical characteristic of the sensor, and providing first information representative of the at least one electrical characteristic to the processing circuitry. Finally, the method includes storing in the memory second information representative of at least one predetermined value of the at least one electrical characteristic and comparing the first information with the second information.

A card reader of a terminal is cryptographically verified upon initialization, power up, connection, or start of day processing of the terminal. A cryptographic and signed token is provided from and verified by an Encrypted Personal Identification Number (PIN) pad (EPP) of the terminal. Each time the reader initializes, the token is verified by the EPP and a new token is generated and provided to the reader for use during a next initialization cycle of the reader. If the reader lacks a token when the EPP has record that is should have the token, the reader is not authorized to perform card transactions for the terminal. If a token provided by the reader during an initialization cycle is not verified, the reader is not authorized to perform card transactions for the terminal.

A system for image analysis for physical defect detection of a storage medium of a first card that comprises an apparatus configured to receive the storage medium of the first card and a first server configured to verify issuance of a second card. The apparatus comprises an optical sensor comprising a light transmitter, a receiver, and a first processor. The optical sensor is configured to produce a light to be directed to the storage medium and to determine that the storage medium comprises a physical defect with the first processor based at least in part upon processed electronic signals. The apparatus further comprises a second processor configured to display outputs requesting authorization to issue the second card. The first server is configured to verify issuance of the second card, wherein the first server is communicatively coupled to the apparatus.

Techniques described herein are directed to, among other things, utilizing a self-centering user interface to receive information associated with a transaction. For instance, a computing device may receive a first input at a first location of a display. The computing device may then determine a positioning for the user interface, where the user interface may be substantially centered about the first location. In some instances, the computing device may display the user interface using the positioning. The computing device may then receive a second input corresponding to swipe from the first location of the display to a second location of the display. The computing device may then determine a symbol included in the user interface based at least in part on the second input. In some instances, the user interface includes a keypad for entering a personal identification number associated with a payment instrument.

There is provided a wireless communication device that includes a communication unit that performs wireless communication with a connection device, and a control unit that encrypts a wireless communication channel with the connection device on the basis of a digital certificate issued by a certificate authority server. The communication unit receives payment information and a valid type of payment from the connection device via the encrypted wireless communication channel. The control unit determines a payment server on the basis of the valid type of payment and causes the communication unit to transmit a payment request based on the payment information to the payment server.

A device is configured to process contactless payments by wirelessly reading account information from enabled payment instruments and providing the account information, along with other information, to a remote payment processing system. The device has an embedded reader, such as a near-field communications (NFC) reader or a radio-frequency identification (RFID) reader. The operating system of the device has a device driver that provides access to the embedded reader. The device driver is implemented as part of the operating system kernel in order to protect it from access by non-privileged software. A POS application installed on the device uses the device driver to obtain payment instrument information from a payment instrument such as a credit card. Before providing the payment instrument information to the POS application, the device driver encrypts the payment instrument information using a public key provided by the payment processing system.

Techniques described herein are directed to, among other things, utilizing a self-centering user interface to receive information associated with a transaction. For instance, a computing device may receive a first input at a first location of a display. The computing device may then determine a positioning for the user interface, where the user interface may be substantially centered about the first location. In some instances, the computing device may display the user interface using the positioning. The computing device may then receive a second input corresponding to swipe from the first location of the display to a second location of the display. The computing device may then determine a symbol included in the user interface based at least in part on the second input. In some instances, the user interface includes a keypad for entering a personal identification number associated with a payment instrument.