The embodiments herein relate to surveillance of objects and, more particularly, to efficient detection and tracking of objects. A method disclosed herein includes detecting at least one object in the physical store, on receiving media from a plurality of media acquisition devices positioned in the physical store. The method further includes tracking the at least one object in the physical store by projecting input data points of each media acquisition device onto a groundplot, clustering the input data points into a single cluster, and assigning a tracking identifier (ID) to a centroid of the single cluster, wherein the centroid depicts the at least one object.

In some embodiments, systems and methods are provided to confirm customer scanning of products. Some embodiments provide retail store automated product confirmation systems, comprising: a plurality of RFID tag readers; a scan compiling circuit communicatively coupled with a plurality of portable product scanning systems and configured to associate the scanned identifying information with the customer and create a purchase list; and a scan confirmation circuit configured to: receive product identifying information detected by two RFID tag readers and associated with the customer without the customer having to travel through a choke point, generate an RFID detected product listing, determine a current level of accuracy between the RFID detected product listing and the purchase list, and direct an action be taken based on the determined level of accuracy.

The invention relates to a product identification system when the goods are purchased by a buyer in a self-service store. The product identification system in the self-service store includes a scanning device, a goods collecting device with an individual identification number, a camera, at least one self-service payment terminal and a server. The scanning device reads the identification number, scans the barcodes of goods, creates a list of goods and a resulting barcode. The camera is installed on the goods collecting device and reads images of the goods and tracks its movement. The terminal sends information to the server, wherein the server receives and analyzes information from the camera and terminal. In case when the information from the camera and from the resulting barcode coincide, the buyer pays for the purchase, and receives a check.

A checkout terminal for customers in a retail store. The terminal provides a path for products from a loading conveyor section, via a scanning section and a common transfer conveyor section, to reach a respective one of a plurality of plurality of packing stations to be bagged or packed by or for the customer. Conveniently, three of these packing stations are arranged substantially parallel to each other. Each packing station may be associated with a corresponding payment interface. Customer throughput is increased by providing multiple packing areas associated with one loading and scanning area, and customer convenience is improved by the faster and more efficient configuration of the checkout terminal.

A checkout counter includes a support surface for a standing person to place and remove items. A powered conveyor transports placed items in a direction from a first end of the conveyor toward an opposite end. The conveyor has a discharge end, and part of the support surface extends toward the opposite end beyond the conveyor. An upward-oriented bar code scanner in the support surface reads bar codes as an attendant passes them over the scanner. At least one bag mount extends laterally from the support surface and the support surface define an attendant cockpit located laterally of the checkout counter near the discharge end, allowing an attendant to stand in the cockpit facing the counter at a substantially right angle. The attendant can handle items discharged from the conveyor, pass them over the scanner, and place them in a bag without having to twist or turn his or her body.

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.

A mat with a pressure-sensitive surface may be placed on a product shelf. The product shelf may be used for supporting retail products at a retail location. A wireless beacon may be coupled to the mat. The wireless beacon may include a processor that assesses a resistance of the pressure-sensitive surface to assess an inventory status of retail products on the pressure-sensitive surface. The wireless beacon may broadcast a wireless signal that includes a data packet with a unique identifier for the wireless beacon and the inventory status of the retail products.

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.

An unattended, automated checkout, computer-controlled automated store outlet and system is disclosed. A customer's identification and payment information are inputted and verified and the customer qualified to remove items from the automated store outlet. Each bay of the automated store outlet is normally locked, and after the customer accesses the bay can remove one or more items from the bay, which are automatically detected and identified and charged to the customer as part of the purchase transaction. These events occur at the location of each automated store outlet. Each automated store outlet communicates with a central control center, which can be used for live customer service and real time surveillance.

A point-of-sale system is provided and includes a first checkout station and associated first edge cameras. The first cameras have a primary viewing area within the first checkout station and a peripheral viewing area outside the first checkout station. The system includes a second checkout station near the first checkout station and associated second edge cameras. The second cameras have a primary viewing area within the second checkout station and a peripheral viewing area outside the second checkout station. The peripheral viewing area of one second camera is within the first checkout station. The system further includes a vision mesh network having nodes in communication with each other. Some of the first and second cameras are nodes on the vision mesh network. A first edge camera receives and processes information about the first checkout station from the at least one second camera. A method is also provided.