In the 1998 foreign media magazine, Chris Hook, Strategy Manager of TIRIS Department of Texas Instruments and Equipment Corporation, published an article entitled “The Nature and Development of Smart Labels”, expounding the nature and development of smart labels. He defines “smart tags” as: Radio Frequency Identification (RFID) devices are designed to securely identify and track a wide range of commodity categories in the commercial and foreign markets, and export logistics information to a common thin and light On the label. “Smart” refers to the layered data embedded in the label printing material during the label production process, so that the label has new features, such as non-contact, non-line-of-sight reading and design programming, dynamic data storage, and instant and effective intercommunication with other similar labels. The ability of information.

Perhaps from this point on, when it comes to smart tags, the first thing people think of is RFID tags.

RFID is the abbreviation of Radio Frequency Identification (RFID) technology. According to the data, RFID technology originated in the United Kingdom, and its technical basis is radar technology. It was first used in the second world war to identify the enemy and the enemy in air operations. At that time, the United Kingdom used RFID technology to confirm whether the incoming aircraft was a self-propelled aircraft to avoid accidental strikes. The basic system configuration of this technique includes a transmitter, a receiver and a corresponding antenna. Now, the RFID transmitter is replaced by a tag, the receiver evolves into an RFID tag reader, and the antenna is built into the tag.

In fact, RFID was originally set up as an electronic product that is completely different from the traditional label, but was given the definition of the shape and label of the tag (in English, the term used in RFID tags is tag, and Not the label of the label). But the label industry is an industry full of enthusiasm for new things. This label-like electronic product quickly attracted the attention of the label industry and applied it to the manufacture of labels, making it a breakthrough in the era of intelligentization.

At the beginning of the birth, the application of RFID was limited to the military. According to the data, since the 1990s, this technology has been widely used by the US military in weapons and logistics management systems. The United States used RFID in the “Iraq War” to deploy weapons and materials very precisely to ensure the accurate supply of front-line ammunition and materials. The US military, which tasted the sweetness, stipulated in 2005 that all military supplies used RFID tags. This is actually a form of combining RFID technology with tags.

The application in the civil field is currently known to date back to the 1960s. However, at that time, although some people applied the technology to the commercial field, the application was very narrow, and it was only experimental, far from being a large-scale application. In the 1980s and 1990s, with the maturity of related technologies, Europe took the lead in enabling RFID technology in highway toll systems. This is the first time that the technology has been scaled up in the civilian market. The first to apply RFID technology to the retail industry is Wal-Mart. After the widespread use of RFID tags in malls and warehouse distribution centers, the shortage of Wal-Mart goods and the short-term out-of-stocks of goods have been greatly reduced, greatly increasing consumer satisfaction.

In the 21st century, with the breakthrough of international standardization of RFID technology, the application of RFID has also ushered in a new stage. In the fields of retail, road toll, logistics, cargo tracking, access control, parking management, identification, aviation, etc., the application of RFID technology is more and more extensive; in addition, in some reports, RFID is also applied in production automation. The industrial practical case; and one of the cases I personally experienced was the discovery of RFID tags on a very expensive foreign original book purchased.

If you only say RFID, you may feel too abstract and have no concept, but if you talk about ETC automatic payment on China’s expressway, ID card for everyone, card swipe during community security patrol, baggage check bag when flying, etc. I believe that everyone is certainly no stranger, and these are specific application examples of RFID technology.

The biggest feature of RFID technology is the recognition function, which can make each item have its own unique identification feature by means of the storage function of the label itself. The identification of the tagged item can be completed by reading the information stored in the RFID tag through the reader. RFID technology has made outstanding contributions to improving the anti-counterfeiting, anti-counterfeiting and anti-smuggling properties of products.

rfid tag for grocery cues

The workings of grocery shopping could change completely if and when the introduction of RFID tags on merchandise is put into place. Imagine putting all your purchases into a cart and simply walking out of the store with everything being automatically scanned because of RFID tags on each and every product. It will make your shopping trip a lot shorter and more importantly the worst part—standing in line-ups—will be completely eliminated.

Researchers from Shenzhen Smart-way Technology have come together and try to created an RFID tag that can be directly printed onto each grocery item just like a price tag. Items such as potato chips, cereal boxes, and even canned items will potentially be some of many products that will have a simple printed RFID tag somewhere on the surface of the packaging.

The tag is said to be a replacement for barcodes at the grocery stores and they can immediately scan the items as you are walking out and possibly could eliminate a line up of any sort altogether depending on how the RFID scanners would be mounted in the stores.

The way it will probably work, according to Researchers that are involved in the making process, is that you will simply have to walk past a detector, pay the amount on display and walk out.

The tags are made up of an ink laced with carbon nanotubes so that the codes can be printed onto plastic or paper that is used to cover any food product. Researchers are aiming to fit 96 bits into a tag the size of a business card.

In the future, the application of RFID tags will be very extensive, and our company will adhere to research and development and contribute to the smart industry.