A system for authorizing an electronic transaction in an augmented reality environment comprises an augmented reality user device and an authentication server. The augmented reality user device includes a display that overlays virtual objects onto a field of view of the user. The user device receives a request to verify information about a payment card used in an electronic transaction. The request includes a virtual authentication object, which is a virtual representation of an object capable of being manipulated by the user in a particular sequence to enter an authentication code. The user device displays the virtual authentication object to the user and detects gestures performed on the virtual authentication object. The user device sends the detected gestures to the authentication server. The authentication server determines the authentication code using the virtual authentication object and the detected gestures, and uses it to authorize the transaction.

A symbol input method performed by a symbol input device having a display unit, a selector, and a determiner includes: displaying, by the display unit, a correspondence table indicating correspondences between input target symbols and selection target symbols and indicating that each of the input target symbols corresponds to one or more selection target symbols; ending the displaying by the display unit; prompting, by the selector, after the ending, a user to select one of the selection target symbols included in the displayed correspondence table; and determining, by the determiner, one input target symbol as a symbol to be input. The input target symbol is indicated in the displayed correspondence table and corresponds to the selection target symbol selected by the user in the prompting.

A system and method is described for the touchless entry of a personal identification number (PIN) at a self-service terminal such as an automated teller machine (ATM). A mobile device includes a PIN entry application. The self-service terminal includes a wireless interface for communicating wirelessly with the PIN entry application in the mobile device. A communication channel is established between a particular customer's mobile device and the self-service terminal. The PIN entry application verifies a public key for the self-service terminal at the mobile device. The customer's PIN is encrypted by the PIN entry application at the mobile device using either an ephemeral symmetric encryption key or a one-time RSA PIN transport public key. The encrypted PIN is transmitted to an encryption processor at the self-service terminal. The encryption processor decrypts the PIN using the appropriate encryption key.

Systems and methods are disclosed for obfuscating entry of sensitive data at a mobile device, which may be infected with a rogue application configured to steal the sensitive data. One method comprises detecting a prompt for a user to enter sensitive data at a mobile device, and activating one or more of an audio speaker and a vibration motor of the mobile device. The activation of the one or more of the audio speaker and the vibration motor is terminated in response detection conclusion of the user's entry of sensitive data the mobile device.

An initial multi-digit contact (multi-touch) is detected on a surface of a touchscreen display during initiation of a key entry session on a transaction terminal. A reference row for a logically maintained keypad is set for the key entry session based on the multi-touch. Active rows for the key entry session are changed by swipes up or down. A given key within an active row is selected based on pressure applied by or removed from one of the digits relative to other digits in the multi-touch or based on one of the digits swiped up or down while other digits remain stationary. The key entry session terminates when the multi-digit contact is lifted off the surface without further touching for a preconfigured period of elapsed time. In an embodiment, the session terminates when a multi-touch swipe to the left and then the right is detected (or right and then left).

A removable cache code intended to be assembled to an electronic payment terminal in a reversible manner, thanks to first and second reversible attachment means located on the outer face of at least one of the lateral walls of the cache code.

Biometric features are derived from security data associated with a subject. The security data is obtained from a security device. A biometric value is calculated from the biometric features. The biometric value is anonymized to an identifier associated with the subject. The identifier is integrated with event data associated with a security system. In an embodiment, the security device is a Personal Identification Number (PIN) pad integrated into a transaction terminal, the security data is fingerprint data, which is read from a finger of the subject placed on a fingerprint reader integrated into the PIN pad, and the biometric value is a PIN calculated from fingerprint data during a transaction at the transaction terminal. In an embodiment, the security device is a security camera, the security data is a secure video stream, and the biometric features are facial features of the subject in the secure video stream.

There are provided systems and methods for a physical stand for multiple device orientations and peripheral card reader. A device stand may include a dock that allows for placement and securing of a computing device within the device case, such as through a locking or connecting mechanism. The device dock further includes a peripheral component, such as a physical card reader, that allows for reading and entry of card data into the computing device for use with an electronic transaction processing application on the computing device. This allows the computing device to process transactions electronic with an online service provider. Further, the device stand includes a hinge or joint that allows for rotating and inverting of the computing device over a curved extension from a base of the device stand, which allows the computing device to be viewed in multiple directions and orientations.

A protective cover assembly and a protected electronic device are provided. The protective cover assembly for example includes: a silicone base, having an inner surface and an outer surface opposite to the inner surface; a patterned double-sided adhesive layer, attached onto the inner surface of the silicone base; and a releasable protective paper, attached onto a side of the patterned double-sided adhesive layer facing away from the inner surface of the silicone base and thereby the patterned double-sided adhesive layer is sandwiched between the silicone base and the releasable protective paper. The protective cover assembly can be applied for protecting a keypad and/or display part of an electronic device to thereby make the protected electronic device gain a liquid sealing and corrosion-resistant performance and the service life is prolonged consequently.

The invention provides a solution for secure authentication of an individual. The invention comprises methods and apparatus for secure input of a user's identifier e.g. PIN. An image of a keypad is superimposed over an operable keypad within a display zone of a screen associated with an electronic device. The keypad image and/or the operable keypad are generated by the device using a scrambled or randomised keypad configuration generated on or at the electronic device. The configuration or order of keys depicted in the image may or may not be scrambled or randomised. Thus, the order of keys depicted in the image do not correspond to the order of the keys in the operable keypad, so that when the user selects a ‘key’ depicted in the image on the screen, the underlying operable keypad is caused to operate and an encoded version of the user's input is received into memory on the device. The encoded input can be sent for decoding on a remote computer. The keypad configurations used for generation of the operable keypad(s) and/or keypad image(s) are generated using an input. The input could be a true or pseudo random number or biometric data relating to a user of the device. The device may be a mobile phone, a tablet computer, laptop, PC, payment terminal or any other electronic computing device with a screen.