Systems and methods for performing fraud detection at POA devices based on analysis of feature sets are disclosed. In one embodiment, an exemplary method may comprise: obtaining, by a POS device, upon initiation of a transaction involving a card or a card and mobile device associated with an individual initiating the transaction, one or more sensory inputs and an identifier; mapping, by the POS device, the one or more sensory inputs to a first cluster position of a plurality of clusters; determining whether the cluster position of the cluster mapped for the transaction corresponds to a second cluster position of the at least one expected cluster associated with the known owner of the card and/or mobile device; and initiating, by the POS device, at least one second factor authentication process to establish that the individual is the known owner of the card and/or mobile device being used in the transaction.

Various embodiments are generally directed to techniques to perform transaction with transaction cards utilizing characteristics of customer's signature. Techniques may further include determining characteristics of a signature including a reduced set of data points for the signature and storing the characteristics in secure memory of transaction card.

Example embodiments of systems, methods, and computer-accessible mediums for transaction authorization are provided. An exemplary system can comprise a card including an input device and a display device in data communication with a server. The server can generate an authorization passcode upon an initiation of a transaction session, and the card can receive an entered passcode through the input device, display the entered passcode on the display device, and transmit the entered passcode to the server for comparison to the authorization passcode. Upon a determination that the entered passcode is a match for the authorization passcode, the server can transmit a match notification indicating the transaction session is valid, and upon a determination that the entered passcode is a mismatch for the authorization passcode, the server can transmit a mismatch notification terminating the transaction session.

A contactless PIN card includes an orientation reference feature, a plurality of tactile sensors, an arrangement of a plurality of tactile sensors along the edge, an arrangement of a plurality of tactile sensors on the surface or surfaces, an arrangement of a plurality tactile of sensors along the edge and on the surface or surfaces. A plurality of tactile sensors allowed the user to input a binary PIN according to the way how the finger is interacting with the tactile sensors. In addition to the validation of the identifying information embedded within the memory of any existing contactless credit card, debit cards, prepaid electronic cash card, loyalty card and access card, the user's identification is also validated through the binary PIN. An irreversible mathematical equation can be used to compute the identifying information and user's binary PIN to generate the validation Radio Frequency Identification signal.

Apparatus and methods are provided for a smart card which enables users to securely complete online transfers without entering sensitive transaction information into a third-party system. The smart card may include a touch-sensitive screen configured to display selectable transfer options. The smart card may include a microprocessor and wireless interface. The wireless interface may provide wireless communication capabilities and the ability to initiate online transfers based on information captured by the touch-sensitive screen. The smart card may be a parent smart card associated with a parent account. The parent account may be linked to a dependent account. The parent smart card may receive a communication related to the dependent account. Selectable transfer options displayed on the touch-sensitive screen may enable a transfer from the parent account to the dependent account.

Systems and methods for autonomous payment routing are provided. A method may include storing in a smart card a database of contacts accessed from a digital contact directory. The method may include receiving a request to reroute a payment via an alternate payment channel, the payment including a recipient and an amount, and the alternate payment channel originating from an account associated with one of the contacts in the database. The method may also include resolving, via a wireless communication element that is embedded in the smart card, routing information for the account. The method may also include transmitting, to an administrator of the account, a request for authorization to reroute the payment, and, when authorization is received, executing the payment via the alternate payment channel.

Apparatus and methods are provided for a smart card which enables users to securely complete online transactions without entering any sensitive transaction information into a third-party system. The smart card may include a microprocessor and wireless interface. The wireless interface may provide wireless communication capabilities and the ability to initiate online payments based on information captured by the touch-sensitive screen. The wireless interface may receive communications from a merchant or issuer bank requesting payment. The microprocessor may be configured to download contact names and associated contact phone numbers from a cloud computing account. The user may select a contact name. The microprocessor may be configured to resolve a contact bank account and contact smart card associated with a contact phone number. The microprocessor may be configured to send a payment request to the contact bank account and contact smart card.

Typically, online transactions, such as online purchases of products or services require entering sensitive transaction information into a third-party web browser or application. This may expose sensitive transaction information to an increased risk of inadvertent disclosure. Apparatus and methods are provided for a smart card which enables users to securely complete online transactions without entering any sensitive transaction information into a third-party system. Vendor websites may be configured to generate a unique code identifying the vendor offering the product/service, the product/service and price of the product/service. The smart card includes a keypad for entering the unique code and completing payment for the desired product/service. The smart card will include a microprocessor and wireless interface. The wireless interface provides wireless communication capabilities and the ability to initiate online payments based on information captured by the keypad.

One variation of a method for controlling a dynamic transaction card includes: at a first time, accessing a first cryptogram; at a second time, establishing a wireless connection with a mobile computing device; in response to establishing the wireless connection with the mobile computing device, accessing a first token associated with the first cryptogram from the mobile computing device via the wireless connection; generating a first magnetic stripe sequence command representing the first cryptogram and the first token; and in response to detecting a magnetic stripe card reader proximal a magnetic stripe emulator integrated into the dynamic transaction card at a third time succeeding the second time, driving the magnetic stripe emulator according to the first magnetic stripe sequence command.

A card is provided with a light sensor operable to receive information via light emitted from a display screen or another source of light. Accordingly, a mobile telephonic device or portable computer (e.g., tablet computer) may communicate information to a card via light pulses. Information communicated via light may include, for example, points balances, credit balances, debit balances, transaction history, software updates, coupons, promotions, advertisements or any other type of information.