Integrated circuit package (ICP) with: (i) stored information pertaining to an amount and/or value of precious material present in the ICP; and (ii) sensor for detecting an amount of precious material present in the ICP. In some embodiments the ICP is embedded in a smart card for use with a smart card reader system that can communicate data to and/or from the ICP.

A smart card with secure and efficient image capture and analysis is provided. The card may include a non-transitory memory embedded in the housing storing computer-executable instructions. The instructions, when run on the microprocessor, are configured to capture, via the camera, an image of a building (or other suitable image), process the image via an image processing module, determine, based at least in part on the processing of the image, a payment amount and a payment recipient associated with the building. The smart card may also display payment information on the display screen. The payment information may include the payment amount and/or the payment recipient. When authorization is received via a tactile sensor, the card may execute a payment or other communication, over a payment gateway from an account associated with a user of the platform to an account associated with the payment recipient.

Provided are approaches for providing multiple user accounts in a same transaction card assembly. The transaction card assembly may include a first card including a first card first side opposite a first card second side, the first card first side including a first pair of magnetic stripes and the first card second side including a first pair of identification chips. The transaction card assembly may further include a second card coupled to the first card, the second card including a second card first side opposite a second card second side, the second card first side including a second pair of magnetic stripes, and the second card second side including a second pair of identification chips. The first and second cards are slidable relative to one another between multiple positions to selectively expose and cover each identification chip of the first and second pairs of identification chips.

A smart transaction device with multiple fingerprint recognition includes a device body having a first surface and a second surface on the opposite side, a plurality of fingerprint sensing devices being respectively arranged on the first surface and the second surface to individually sense the fingerprints of different fingers of a user and store them in the memory as comparison data.

A security chip includes: a first medium layer; a second medium layer disposed on the first medium layer, where the first medium layer is an optically denser medium relative to the second medium layer, and a roughness of an upper surface of the first medium layer is greater than or equal to a preset threshold, so that light entering the second medium layer from the first medium layer is able to be totally reflected and/or scattered; and a semiconductor chip disposed on the second medium layer. Based on the above technical solution, light incident from a lower surface of the first medium layer is able to be totally reflected or scattered by the upper surface of the first medium layer, so that most of light cannot reach a logic or storage area on the front of the security chip, thereby achieving the purpose of resisting a laser attack.

A payment device including a medium is disclosed. A first programmable chip and a first magnetic stripe are disposed on the medium. The first programmable chip and the first magnetic stripe are associated with a first payment account. A second programmable chip and a second magnetic stripe are disposed on the medium. The second programmable chip and the second magnetic stripe are associated with a second payment account. The first and second programmable chips are programmed separately for each of the first and second payment accounts.

The present invention relates to a method for progressively enrolling a user of a smart card, specifically applying a multi-step activation process for enabling fingerprint authentication for the smart card. The invention also relates to a corresponding smart card and to a computer program product. The present invention provides a solution for seamless fingerprint enrollment for a smart card user.

An identity management device and system. The device comprises a processor operably coupled to a memory, a display, and a communication interface. The device can have stored thereupon instructions that, when executed by processor, cause the processor to implement a user device interface configured to receive, from user device through the communication interface and store in the memory, at least one identification record comprising visually depictable identification data and a user interface configured to update the display to depict the visually depictable identification data. The identification record can comprise authentication data. Authentication data can be displayed on the device or securely transmitted.

Systems and methods for overmolding a card are provided. A chip fraud prevention system include a device including a chip and a substrate. The chip may be at least partially encompassed in a chip pocket, and the substrate may be at least partially encompassed by the overmold.

Systems, computer program products, and methods are described herein for implementing contactless authentication. The present invention is configured to receive a contactless resource transfer interaction by a user using a resource transfer instrument at a resource transfer terminal; retrieve, from the resource transfer instrument, a unique code associated with one or more fingerprint patterns of the user; receive a pattern associated with the contactless resource transfer interaction; determine that the unique code associated with the one or more fingerprint patterns of the user matches one or more pre-registered unique codes associated with the one or more fingerprint patterns of the user; determine that the pattern associated with the contactless resource transfer interaction matches one or more pre-registered patterns associated with one or more authorized contactless resource transfer interactions; and authorize an execution of the resource transfer interaction.