An imaging system capture images of products on shelves in a minimally invasive way. The images can be processed to assess restocking needs and other information. The imaging system includes multiple shelf-mountable imaging devices that can be positioned throughout one or more retail locations. Certain types of imaging devices may be self-contained units having replaceable or rechargeable internal power sources and/or wireless communication interfaces. Certain types of imaging device are configured to take images only when the field of view is not blocked by traffic (e.g., consumers, employees, etc.). Certain types of imaging devices are low-profile and/or are camouflageable to enhance the user experience.

Systems and methods for facilitating the sorting of assets to sort locations. In various embodiments, a sort employee scans an indicia using a user device, which stores asset data corresponding to the stored asset. As the sort employee nears a sort location (e.g., a delivery vehicle) with the asset and the user device, the user device automatically communicates wirelessly with a sort location receiver to associate the asset with data indicative of the sort location where the user deposits the asset. In various embodiments, a device may determine whether the user device is proximate the appropriate sort location for the item, and may generate an alert upon a determination that the user device is proximate an incorrect sort location.

Systems, methods, and processor-readable storage media for remote controlling of electronic shelf labels. An example method includes receiving, at a computing device, store layout data of a retail store and product data. The product data identifies at least one product and a price of the product. The method causes an optical emitter to emit an optical signal to at least one electronic shelf label based at least in part on the store layout data, the product data, and a predetermined rule. The optical signal bears the product data and is configured to cause the electronic shelf label to change displayable information to reflect new product data. The electronic shelf label can also send feedback to the optical emitter to inform that the optical signal was successfully received.

A barcode scanner device 200 is formed as a wrist watch with a main body 210 and strap 220 and includes a camera 211 to capture an image of a barcode 11. The scanner 200 generates an inventory request message sent by a communication interface 215 to a local server 30 based on the captured barcode. In a capture mode, live camera images may be displayed on touch-screen display 212 while capturing the barcode with guides and feedback for the user. In a display mode, inventory data from database 32 may be accessed in a large data field on the touch screen display 212.

An information processing method causes a processor in a terminal to: display, on the display of the terminal, a first screen representing a pre-preparation process included in cooking processes, the first screen displaying information indicating an intermediate foodstuff made through the pre-preparation process; acquire first identification information indicating a food container storing the intermediate foodstuff from an electronic tag apparatus attached to the food container while the first screen is displayed on the display; store, in a memory, information indicating the intermediate foodstuff or pre-preparation process and the first identification information in correspondence with each other; display, on the display, a second screen representing a finish process included in the cooking processes, the intermediate foodstuff being prepared in the finish process; and when the second screen is displayed, transmit a command to the electronic tag apparatus according to the first identification information so that the user discriminates the food container.

Systems, software, and methods are provided for accurate service, transaction, and cargo monitoring. An example system and/or method may include calibrating a wireless sensor, connecting a user device to a wireless sensor, obtaining initial information for a first process at least in part from the wireless sensor, obtaining subsequent information about at least the first process, and using a portion of the initial information about the first process and the subsequent information about the first process to create a dynamic report involving the first process.

In aspects of a RFID-based hand sensory apparatus for monitoring handled inventory, a wearable article is worn by a user who moves items, or a container of items, and each of the items has an RFID tag. A tracking system implemented in the wearable article includes force sensors to register a force on an item or the container, and includes a motion sensor to sense motion of the wearable article. Tracking logic of the tracking system initiates an RFID reader to interrogate the RFID tags of the items based on the registered force on the item or the container, and based on the motion of the wearable article. The RFID reader may be integrated in a wearable article, may be an external device, and/or may be affixed to the container of items and initiated when the container is moved.

A system for authenticating a timepiece including an electronic device including an interface for the visual and/or sound broadcasting of information and an image acquisition module, as well as a server including a database including reference digital identifying elements, the system including a wireless and/or wired network architecture connecting the electronic device to the server.

In some embodiments, apparatuses and methods are provided herein useful to monitoring the conditions of merchandise on shelves at a shopping facility. In some embodiments, there is provided a system for monitoring merchandise on shelves including: a shelf comprising a bottom surface and side surfaces and configured to support merchandise; a first array of sensors arranged on the bottom surface of the shelf and configured to measure at least one of weight, pressure, temperature, and moisture; a second array of sensors arranged on one or more side surfaces of the shelf and configured to measure at least one of weight, pressure, temperature, and moisture; and at least one interface operatively coupled to the first and second arrays of sensors, the at least one interface configured to transmit sensor data from the first and second arrays to a central computing system.

A component 10 for use in an alarm system includes a component controller 12 and an offline configuration module 14. The offline configuration module 14 includes a passive RFID tag and is configured to receive and store an indication of at least one configuration parameter wirelessly transmitted to the configuration module. Upon initialisation of the component 10, the component controller 12 operates the component 10 in accordance with one or more protocol determined by the at least one configuration parameter indicated by the indication stored by the offline configuration module 14.