Home Internet of Things Aerospace Apparel Energy Defense Health Care Logistics Manufacturing Retail

Temporary RFID System Tracks Flow of Shoppers

A Canadian supermarket is piloting an RFID-based solution from Moxie Retail that collects location data regarding shopper behavior, to better plan displays and shelf layout, while two other retailers intend to pilot the technology later this year.
By Claire Swedberg
Apr 15, 2013

Following a 2012 pilot of a radio frequency identification-based solution to temporarily track customers' movements via tagged shopping carts moving through a Toronto supermarket, Moxie Retail is now preparing the solution's installation for two additional pilots with Canadian retailers this year. The technology was developed for Moxie in 2011 by the Academia RFID Centre of Excellence, and was piloted last year for 10 weeks by the Toronto retailer, funded by two consumer-product brand owners. The system has since been installed at another store owned and operated by the same retailer. Later this year, Moxie plans to install the technology to cycle through two stores for another national supermarket chain, as well as at 10 locations for a third retail company. The solution provider indicates that it does not have permission to name the retailers or the brands that funded the initial pilot.

Moxie provides performance measurements and other retail services for its clients worldwide, which comprise food manufacturers and retailers. The firm began looking into a solution to track consumers' locations within stores, in order to create a record of behavior specific to particular sections of a site's sales floor, and the products on display in each section, says Ken Roberts, Moxie Retail's marketing and business development senior VP. That consumer behavior data could be compared against the store's point-of-sale (POS) data indicating, for example, which displays attracted the most customer interest, the dwell time (that is, how long customers lingered at those displays) and which items were subsequently purchased.

To improve the system's ability to identify a shopping cart regardless of its orientation, three RFID tags were attached to the sides and front of each cart.

The company began seeking an automated method to collect data, based on requests from a retailer in Panama. "There weren't any metrics in place at the time to measure traffic and dwell time," explains Peter Townsend, Moxie's founder and senior VP of strategy and shopper insights. The Central American retailer, he adds, sought "a cost-effective way to track carts and baskets."

The company consulted with Academia RFID to learn how it could employ RFID technology to track where customers go while shopping, as well as where they pause and for how long. Moxie determined that a temporary RFID deployment would be the most affordable for its clients, with an infrastructure of readers that could be easily installed at one site, and then be removed and moved to another. It also chose to monitor consumer movements based on RFID tags on carts and shopping baskets, rather than on loyalty cards, thereby tracking only the locations of the baskets and carts, and not the shoppers themselves. In the future, however, Moxie may opt to provide a solution utilizing RFID-based loyalty cards, by which customers could receive information or discounts based on their detected interests in the store.

Moxie Retail's Peter Townsend

The RFID deployment that Moxie Retail tested at the Toronto store (designed by Academia RFID and installed by both companies) consisted of 25 Impinj Speedway Revolution four-port RFID readers, along with antenna hub multiplexers, with a total of 150 Motorola reader antennas mounted on or near product shelves and counters throughout the store. The interrogators captured the ID numbers encoded to tags affixed to carts and baskets within their vicinity, and forwarded that information to Moxie's RFID software via a Wi-Fi connection. MPI Label Systems incorporated Smartrac Short Dipole M5 EPC Gen 2 passive ultrahigh-frequency (UHF) RFID inlays into RFID tags made specifically for this application, and attached them to 450 metal-wire shopping carts and 400 plastic handbaskets. To provide protection and improve readability when attached to metal-wire carts, the inlays were encased in plastic and backed with foam. Three tags were attached to the sides and front of every shopping cart, in order to improve the system's ability to identify a cart regardless of its orientation. Similarly, two tags were fastened to each handbasket.

The store provided a layout of its 45,000-square-foot space, indicating which products were displayed at which locations. Academia RFID supplied Moxie Retail with RFID middleware that received and interpreted location data from each tag as it moved around the store, says Anthony Palermo, Academia RFID's business development director. Moxie Retail's software then analyzed the location data in comparison with the products in that area, to provide details to the retailer and the two brand owners about the products in front of which each cart or basket was located.

USER COMMENTS

Claus Holmelund 2013-10-29 07:24:29 AM
This is very informative information. Thanks to share.

Login and post your comment!

Not a member?

Signup for an account now to access all of the features of RFIDJournal.com!

PREMIUM CONTENT
Case Studies Features Best Practices How-Tos
RFID JOURNAL EVENTS
Live Events Virtual Events Webinars
ASK THE EXPERTS
Simply enter a question for our experts.
TAKE THE POLL
JOIN THE CONVERSATION ON TWITTER
Loading
RFID Journal LIVE! RFID in Health Care LIVE! LatAm LIVE! Brasil LIVE! Europe RFID Connect Virtual Events RFID Journal Awards Webinars Presentations
© Copyright 2002-2014 RFID Journal LLC.
Powered By: Haycco