A radar system for monitoring shelves in a retail environment, where the system monitors the occupancy of the shelves and/or the dynamics of the customers in front of the shelves. The radar is preferably a wideband 3D imaging MIMO radar.

A media level of each Self-Service Terminal (SST) within a customized group of SSTs are managed in real time based on a current media level and a predicted optimal media level for each SST over a given period of time. During management, depositors are proactively steered away from media heavy SSTs to media deficient SSTs within the group. Any given SST of the group may have deposits temporarily disabled based on real-time instruction. Depositors that are being redirected may be incentivized to encourage the depositors to deposit at the cash deficient SSTs of the group.

A sales-data processing device includes: a registering circuit that registers a product and generates registration data; a settlement processing circuit that executes settlement processing using the registration data; a sending circuit that sends the registration data to another sales-data processing device for execution of the settlement processing by the other sales-data processing device using the registration data; and a prohibiting circuit. Once the sales-data processing device has determined that the sending circuit will send the registration data, the prohibiting circuit prohibits the settlement processing circuit from executing the settlement processing before the sending circuit sends the registration data.

A system includes a server and merchant device. The server receives product information for a product scanned by a mobile device. The server stores the product information for the product in a digital cart. The server receives a transaction request from the mobile device, determines that the product is associated with a validation requirement, and transmits a validation request to the merchant device. The server receives, from the merchant device, an indication that the validation requirement is satisfied, processes a transaction, and transmits, to the merchant device, an indication that the transaction is complete. The merchant device receives the validation request, determines that the validation requirement is satisfied, and transmits the indication that the validation requirement is satisfied to the server. The merchant device receives, from the server, the indication that the transaction is complete and displays the indication that the transaction on the display.

An intelligent payment terminal installed on a shopping cart includes a mounting seat, an mounting assembly adapted to the shopping cart, an information acquisition module for acquiring goods information, a control module for making payment for the goods in the shopping cart, and a power supply module. The mounting assembly is arranged at a lower end of the mounting seat. The information acquisition module is arranged on a side wall of the mounting seat. The control module is arranged on an upper end of the mounting seat. The power supply module is arranged on the mounting seat. The power supply module is electrically connected to the control module. The control module is electrically connected to the information acquisition module. The intelligent payment terminal can be adapted according to the size of the shopping cart and is capable of a payment function.

Transformation of inputs including beacon inputs, Global Positioning System (GPS) inputs, captured panorama inputs, user-penned descriptive inputs, and payment-amount-specifying inputs, via components, into outputs including user device POS configuration setting outputs and/or payment-gateway-directed authorization request outputs. Further, transformation of inputs including POS scanner inputs, POS keyboard inputs, and/or POS printer-directed inputs, via components, into outputs including compliance check outputs, tagged omnibus record outputs, SKU-UPC mapping outputs, and/or convergence/correlation outputs. Additionally, transformation of inputs including older limited-capability POS software image inputs and/or newer limited-capability POS software image inputs, via components, into outputs including update directive outputs. Functionality set forth includes allowing user devices to directly communicate with payment gateways, capturing and making use of scanner-obtained data and printer-destined data in a way that does not require code alternation of already-installed POS software, and allowing software of limited-capability POS devices to be updated without sending large, full-overwrite software images.

Methods and systems for providing a digital cart management system for use by customers within a retail location. In use, a customer shops within a retail location and adds items to a digital cart as the customer is adding the items to a physical cart, e.g., at least in part by voice input. When the customer is finished shopping, the customer can checkout via a digital process, thereby bypassing point of sale devices at the retail location.

A promotion processing system may include a point-of-sale terminal at a store to collect purchased product identifiers from products being purchased, and a promotion generation server. The server may obtain the collected purchased product identifiers from the point-of-sale terminal, determine a store-transaction count based upon the collected purchased product identifiers, and for each purchased product identifier, map the corresponding product to an aisle location within the store. The server may determine a corresponding aisle-transaction count for the aisle location corresponding to each product based upon the mapped aisle locations, and determine shopper paths of travel within the store based upon the store- and aisle-transaction counts. The server may identify a location within the store for an aisle violator sign for a promoted product located in one of the aisle locations based upon the shopper paths of travel and the aisle-transaction counts, and generate a digital promotion for the promoted product.

The present disclosure relates to management of inventories and supply chains and, more particularly, to a predictive inventory management system and methods of use. The method of inventory management, includes: obtaining information associated with an item; predicting demand of the item based on the obtained information; determining whether additional inventory is required based on the predicted demand of the item; and obtaining additional inventory of the item when the current inventory level does not match the predicted demand.

A system, platform, and method including a user interface adapted to receive a user input and communicatively connected with a communications module, a foodstuff database stored in memory including a set of available foodstuff transactions, and a controller module adapted to receive the user input receive at the user interface by way of the communications module, and configured to query the foodstuff database based on the user input, identify at least a subset of available foodstuff transactions based on the query, and send the identified subset of available foodstuff transactions to the user interface by way of the communications module.