Printable circuits may be used in combination with a point of purchase (POP) display (e.g., a consumer product display). The POP display may be configured to be deployed at a retail location. A printable circuit may be attached to the POP display with the printable circuit having printed data for a selected retail campaign associated with the POP display. The printed data may include one or more parameters for the selected retail campaign. A wireless beacon may be attached to the printable circuit on the POP display. The printable circuit may provide the parameters for the selected retail campaign to the wireless beacon when the wireless beacon is attached to the printable circuit. The wireless beacon may be assigned a unique identifier in at least one parameter provided to the wireless beacon by the printable circuit.

Disclosed in the present specification is a self-checkout device to which hybrid product recognition technology is applied and which helps a user to more conveniently and quickly make a payment. The self-checkout device according to the present specification photographs a product with a plurality of cameras, and then recognizes a barcode by detecting a barcode region from the captured images and, simultaneously, extracts a feature point of the images such that a product can be recognized through the calculation of the proportion that matches with a reference image of the product. Thus, a product can be quickly recognized through barcode recognition and packaging paper recognition in a product image.

A display includes two-integrated cameras. A first camera is situated in a top right corner of a front display surface of the display and a second camera is situated in a top left corner of the front display surface. The display is connected to a transaction terminal with the first camera focused on a bagging area associated with the transaction terminal and with the second camera focused on a staging area associated with the transaction terminal. Each camera captures images of items and the item images are streamed over a high-speed display port directly to the transaction terminal. The transaction terminal performs item recognition, item tracking, and auditing on the items based the item images during transaction processing at the transaction terminal.

According to one embodiment, a reading device is configured to read information from an RFID tag attached to a product. The reading device includes a housing, an antenna, an opening-and-closing lid, a detector, a reading unit, and an alert unit. The housing includes an opening portion, and therein a space for accommodating the product. The antenna is provided within the space. The opening-and-closing lid is opening and closing the opening portion. The detector is configured to detect an open or closed state of the opening-and-closing lid. The reading unit is configured to read the information from the RFID tag. The alert unit is configured to issue an alert on an operation method in accordance with the open or closed state of the opening-and-closing lid and an operation state of the reading unit.

A multi-function transaction card may receive, from shelf sensors, first data indicating that items have been removed from shelves by a customer of a merchant, and may receive, from shopping cart sensors, second data indicating that the items have been placed in a shopping cart. The multi-function transaction card may receive, based on the first data and the second data, item data identifying the items placed in the shopping cart, wherein the item data is received from price tags of the items. The multi-function transaction card may store the item data, and may provide, to a transaction terminal of the merchant, the item data identifying the items and customer data identifying the customer. The multi-function transaction card may receive, from the transaction terminal, transaction data identifying a transaction that charges the multi-function transaction card for a total cost of the items.

A vison-based self-checkout terminal is provided. Purchased items are placed on a base and multiple cameras take multiple images of each item placed on the base. A location for each item placed on the base is determined along with a depth and the dimensions of each item at its given location on the base. Each item's images are then cropped, and item recognition is performed for each item on that item's cropped images with that item's corresponding depth and dimension attributes. An item identifier for each item is obtained along with a corresponding price and a transaction associated with items are completed.

A display includes two-integrated cameras. A first camera is situated in a top right corner of a front display surface of the display and a second camera is situated in a top left corner of the front display surface. The display is connected to a transaction terminal with the first camera focused on a bagging area associated with the transaction terminal and with the second camera focused on a staging area associated with the transaction terminal. Each camera captures images of items and the item images are streamed over a high-speed display port directly to the transaction terminal. The transaction terminal performs item recognition, item tracking, and auditing on the items based the item images during transaction processing at the transaction terminal.

A multi-function transaction card may receive, from shelf sensors, first data indicating that items have been removed from shelves by a customer of a merchant, and may receive, from shopping cart sensors, second data indicating that the items have been placed in a shopping cart. The multi-function transaction card may receive, based on the first data and the second data, item data identifying the items placed in the shopping cart, wherein the item data is received from price tags of the items. The multi-function transaction card may store the item data, and may provide, to a transaction terminal of the merchant, the item data identifying the items and customer data identifying the customer. The multi-function transaction card may receive, from the transaction terminal, transaction data identifying a transaction that charges the multi-function transaction card for a total cost of the items.

Systems and methods for tracking shipment of products are disclosed herein. One or more cameras may be used capture video of an area where the products are loaded into and/or unloaded from shipping containers. Wireless beacons may be attached to the shipping containers. A network gateway may receive the wireless signals from the wireless beacon and the video from at least one camera. The wireless beacon may change a transmittal rate of the wireless signal from a first transmittal rate to a second transmittal rate in response to the cover on the shipping container being opened or closed. The network gateway may provide, to a remote server, a selected amount of the received video from its memory along with a unique identifier for the wireless beacon in response to the network gateway receiving the wireless signal at the second transmittal rate.

The present disclosure provides for radio frequency identification in self-checkout via a first product pathway; a single Radio Frequency Identifier (RFID) antenna, having a first scanning zone aligned with the first product pathway; wherein the first product pathway is configured to: position a first set of objects within the first scanning zone at a first position relative to the single RFID antenna at a first time; and position the first set of object within the first scanning zone at a second position relative to the single RFID, different than the first position, at a second time; and wherein the single RFID antenna is configured to: receive, at the first time, a first set of identifier signals associated with at least some of the first set of objects; and receive, at the second time, a second set of identifier signals associated with at least some of the first set of objects.