Existing Rfid Systems Use Proprietary Technology example essay topic
RFID is a better technology than bar codes in many ways. The two are different technologies and have different applications, which sometimes overlap. The big difference between the two is bar codes are line-of-sight technology. That is, a scanner has to 'see' the bar code to read it, which means people usually have to orient the bar code towards a scanner for it to be read. Radio frequency identification, by contrast, doesn't require line of sight. RFID tags can be read as long as they are within range of a reader.
Bar codes have other shortcomings as well. If a label is ripped, soiled or falls off, there is no way to scan the item. And standard bar codes identify only the manufacturer and product, not the unique item. The bar code on one milk carton is the same as every other, making it impossible to identify which one might pass its expiration date first. RFID technology can deliver benefits in many areas, from tracking work in process to speeding up throughput in a warehouse.
Visit RFID Journal's Case Studies section to see how companies are using the technology's potential in manufacturing and other areas. As the technology becomes standardized, it will be used more and more to track goods in the supply chain. The aim is to reduce administrative error, labor costs associated with scanning bar codes, internal theft, errors in shipping goods and overall inventory levels. If RFID has been around so long and is so great, but not all companies are using it. Many companies have invested in RFID to get the advantages it offers. These investments are usually made in closed-loop systems-that is, when a company is tracking goods that never leave its own control.
That's because some existing RFID systems use proprietary technology, which means that if company A puts an RFID tag on a product, it can't be read by Company B unless they both use the same RFID system from the same vendor. Another reason is the price. If a company tracks assets within its own four walls, it can reuse the tags over and over again, which is cost effective. But for a system to work in an open supply chain it has to be cheap because the company that puts the tag on case or pallet is unlikely to be able to reuse it. Thousands of companies around the world use RFID today to improve internal efficiencies. Club Car, a maker of golf carts uses RFID to improve efficiency on its production line (subscribers see Golf Car Maker Scores with RFID).
Paramount Farms-one of the world's largest suppliers of pistachios-uses RFID to manage its harvest more efficiently (see Farm Harvests RFID's Benefits). NYK Logistics uses RFID to improve the throughput of containers at its busy Long Beach, California, distribution center (see Logistics Gets Cheaper by the Yard). And many other companies are using RFID for a wide variety of applications. (See Case Studies for more examples of how RFID is benefiting companies today.) RFID has a lot of application these days. It is used for everything from tracking cows and pets to triggering equipment down oil wells.
It may sound trite, but the applications are limited only by people's imagination. The most common applications are payment systems (Mobil Speed pass and toll collection systems), access control, and asset tracking. Increasingly, companies are looking to use RFID to track goods within their supply chain, work in process and other applications. RFID is a proven technology that's been around since at least the 1970's. Up to now, it's been too expensive and too limited to be practical for many commercial applications. But if tags can be made cheaply enough, they can solve many of the problems associated with bar codes.
Radio waves travel through most non-metallic materials, so they can be embedded in packaging or encased in protective plastic for weatherproofing and greater durability. And tags have microchips that can store a unique serial number for every product manufactured around the world.