RFID and the Supply Chain

Supply chain management is constantly evolving due to significant changes such as the Internet, e-commerce, and globalization of the supply chain. Its success is often based on fast, accurate and efficient data processing. The trend towards lean and agile distribution channels and the growth of third-party logistics providers (4PL) in the supply chain industry require considerable organization and control. Effective management of these activities requires knowledge of the supply chain, operational information, and most important, timely and accurate data to support the decision-making process.

In essence, you need effective and efficient data acquisition technology. RFID is a general term for technologies that use radio waves to communicate the IDs of individual items via an air interface. RFID works like barcode technology in that it must be queried by a scanner or reader to identify the item. However, barcodes have serious drawbacks. They need technology on the internet. This means that the scanner needs to check the barcode in order to read it. This means that you usually need to manually point the item at the scanner to read it. In contrast, RFID does not require a siteline and can be read as long as the article is within the reach of the reader. RFID is now considered an essential link in the e-commerce environment.

Theoretically, technology needs to improve and supplement Electronic Data Interchange (EDI) to facilitate rapid response and reporting of exceptions. You need to be able to pass real-time information to partners in your supply chain that support your decision-making process. Finally, RFID must provide data immediately until it is identified at the individual item level. Visit:- http://www.bchirartcenter.com/

This helps fill the gap between customers, orders, and order completion to customer satisfaction. This means that you can activate extended responses in your e-commerce environment.

The supply of barcode label printers on demand is currently the most widely used AIDC technology in supply chain applications (EPOS, warehouses, etc.) (barcodes, smart cards, credit card magnetic stripes, optical character recognition, etc.) Technology). And inventory management). With obligations set by influential retail and defense industry leaders, RFID-capable barcode label printers allow companies to expand their product portfolio by providing products that enable them to meet their compliance goals.

It provides a real opportunity to develop and expand. As the use and adoption of technology becomes more commonplace, there is also the opportunity to provide printers to compliant businesses. A whole new market segment will emerge, requiring a continuous and wide supply of printers, peripherals and consumables. Barcode System The barcode system includes symbols that encode optically readable data, printing technology that produces machine-readable symbols, and scanners and decoders that record visual images of the symbols and convert them into data. .. Compatible with computers.

Barcode scanning reduces errors associated with manual data processing and creates visibility to facilitate supply chain management. An important advantage of barcodes is that they are very cheap to manufacture and provide an efficient way to identify items. Unfortunately, according to some sources, barcodes are becoming more and more inappropriate in more and more applications. Barcodes are optical technologies that impose limits on production direction (always requiring human intervention) and clean up labels and scanners for fast and efficient data acquisition. Barcodes are easy to copy and are easy targets for counterfeiting. In addition, standard barcodes have low storage capacity and cannot be reprogrammed, identifying only the manufacturer and product, not a single item. Industry groups have shown that barcode systems are a mature technology and have limited potential for further growth.

RFID has emerged as a complementary technology to overcome some of the shortcomings associated with barcode technology. The RFID system consists of a transponder (label) consisting of a microchip equipped with a spiral antenna and a questioner (reader) equipped with an antenna. The label is identified for the item that needs to be identified, and the RFID reader communicates with the label via electromagnetic waves. RFID middleware (software) provides an interface for communication between the interviewer and existing databases and information management systems. RFID is a term used to describe remote identification devices that can detect at radio frequencies with few obstacles or disorientation issues. These devices are often referred to as RFID tags or smart tags.
In the most basic way, smart tags consist of ultra-thin RFID tags, often referred to as inlays. Smart label inserts are available in the 13.56 MHz, 860-930 MHz, and 2.45 GHz frequency ranges. Inlays are embedded in label material printed with machine-readable text, graphics and barcodes. People (passive smart tags). The printed data complements and supports the information programmed on the label. A product that is evolving towards passive smart tag technology is the smart active tag (SAL). SAA can be defined with the same clever tag definition as above, but includes an integrated power supply for clarity.

This unique feature allows SAA to offer more advanced features than passive RFID smartwatches, including sensor, processing, display and location capabilities. Smart tags are typically used in disposable applications and are not as durable as permanent RFID tags, which can be wrapped in material to withstand harsh environments. One company suggests that label materials can be developed to withstand environmental conditions and that the proper adhesive can ensure that the label lasts for the required period of time.

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