Smart Label, also called Smart Tag, is an extremely flat configured transponder under a conventional print-coded label, which includes chip, antenna and bonding wires as a so-called inlay.[1][2][3] The labels, made of paper, fabric or plastics, are prepared as a paper roll with the inlays laminated between the rolled carrier and the label media for use in specially-designed printer units.
In many processes in logistics and transportation, the barcode, or the 2D-barcode, is well established as the key means for identification in short distance. Whereas the automation of such optical coding is limited in appropriate distance for reading success and usually requires manual operation for finding the code or scanner gates that scan all the surface of a coded object, the RFID-inlay allows for better tolerance in fully automated reading from a certain specified distance. However, the mechanical vulnerability of the RFID-inlay is higher than the ordinary label, which has its weaknesses in its resistance to scratch.
Thus, the smartness of the smart label is earned in compensation of typical weaknesses with the combination of the technologies of plain text, optical character recognition and radio code.
The processing of these labels is basically as with ordinary labels in all stages of production and application, except the inlay is inserted in an automated processing step to ensure identical positioning for each label and careful processing to prevent any damage to the bonding. The printing is processed in two steps, including
normal ink-jet printing, except the space with the bonded chip, with clearly intelligible text and
either barcode or 2D barcode for later semi-automatic reading with handheld readers or fix-mount scanners
writing coherently concatenated information to the RFID-chip
reading the written information on the RFID-chip subsequently in the printer for control purpose (read after write)
Customisation of smart labels is available with chip cards. Also combinations of magnetic stripes with RFID chips are used,[4] especially for credit cards.
Printable Labels
Replacing silicon processors, smart tags that are printed collect information themselves and process it. The result of decades of research and development by ThinFilm Electronics are “printed transistors, the multilayer tags combine a year’s worth of battery power, sensors and a small display, and will initially be used to show a temperature record of perishable food and medications. Roughly 3 x 1.5 inches in size and consisting of five layers sandwiched in a roll-to-roll production process, the ThinFilm labels use the company’s own ferroelectric polymer technology for storing information. Chains of non-toxic polymers can be flipped between two orientations – representing binary “0″ and “1″ – to store non-volatile data.” [5]
Electronic Labels
While price increases when labels are electronic, the very small percentage of labels that are electric is increasing. Electronic labels have features that supersede non-electronic labels. Electronic versions can signal what is happening in real-time and most can store a digital record.[6]
Application
Smart labels are applied directly to packages or to pallets or other shipping containers. The application directly to the product is still of neglectible importance
due to the cost of the labels, which may be justified easier for agglomerations of more than one product
because all metallic, liquid or otherwise electrically not transparent products reflect or reduce the radio waves
due to the handling, which normally addresses the package and lesser the unpacked product.
Use
The technologies with the smart labels are all mature and well standardised. After the first wave of technology hype with RFID, current consolidation in the market shows hard competitive Darwinism. With increasing sales quantities, the inlays are still annually redesigned and appear in releases with new extensions to performance. However, the integration of RFID to handling processes requires sound engineering to ensure the balance of benefit and effort.
In 2008, ThinFilm and Polyera announced their partnership to produce high volumes of smart labels. The collaboration brings printed integrated systems, such as smart sensor tags, closer to commercial availability.[7]
For details on the coding and labeling technologies please refer to the respective pages.
References
^Jakimovski, Predrag (2012). "Design of a Printed Organic RFID Circuit with an Integrated Sensor for Smart Labels" (PDF). 9th International Multi-Conference on Systems, Signals and Devices. Retrieved 26 November 2018.
^US 7095324, Conwell, Kevin Girard & Adams, Matt, "Tamper evident smart label with RF transponder", published 2006-08-22, assigned to Intermec IP Corp.
^US 6753830, Gelbman, Alexander, "Smart electronic label employing electronic ink", published 2004-06-22, assigned to Visible Tech-knowledgy Inc.
^"RFID Chips:How they work and what they can do" (in German). Retrieved 1 May 2018.
^"Printable Smart Tags Could Link Carrots To The Internet Of Things". Slashgear. Retrieved 31 October 2012.
^"What Are Smart Labels". IDTech. Retrieved 31 October 2012.
^"Thinfilm and Polyera Partner To Bring Printed CMOS Memory To Market". Polyera. Retrieved 31 October 2012.
smart, label, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, september, 20. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Smart label news newspapers books scholar JSTOR September 2014 Learn how and when to remove this template message Smart Label also called Smart Tag is an extremely flat configured transponder under a conventional print coded label which includes chip antenna and bonding wires as a so called inlay 1 2 3 The labels made of paper fabric or plastics are prepared as a paper roll with the inlays laminated between the rolled carrier and the label media for use in specially designed printer units In many processes in logistics and transportation the barcode or the 2D barcode is well established as the key means for identification in short distance Whereas the automation of such optical coding is limited in appropriate distance for reading success and usually requires manual operation for finding the code or scanner gates that scan all the surface of a coded object the RFID inlay allows for better tolerance in fully automated reading from a certain specified distance However the mechanical vulnerability of the RFID inlay is higher than the ordinary label which has its weaknesses in its resistance to scratch Thus the smartness of the smart label is earned in compensation of typical weaknesses with the combination of the technologies of plain text optical character recognition and radio code Contents 1 Smart Label Processing 2 Types Of Smart Labels 2 1 Chip Labels 2 2 Printable Labels 2 3 Electronic Labels 3 Application 4 Use 5 References 6 See alsoSmart Label Processing EditThe processing of these labels is basically as with ordinary labels in all stages of production and application except the inlay is inserted in an automated processing step to ensure identical positioning for each label and careful processing to prevent any damage to the bonding The printing is processed in two steps including normal ink jet printing except the space with the bonded chip with clearly intelligible text and either barcode or 2D barcode for later semi automatic reading with handheld readers or fix mount scanners writing coherently concatenated information to the RFID chip reading the written information on the RFID chip subsequently in the printer for control purpose read after write Types Of Smart Labels Edit RFID label for a calculator Chip Labels Edit Customisation of smart labels is available with chip cards Also combinations of magnetic stripes with RFID chips are used 4 especially for credit cards Printable Labels Edit Replacing silicon processors smart tags that are printed collect information themselves and process it The result of decades of research and development by ThinFilm Electronics are printed transistors the multilayer tags combine a year s worth of battery power sensors and a small display and will initially be used to show a temperature record of perishable food and medications Roughly 3 x 1 5 inches in size and consisting of five layers sandwiched in a roll to roll production process the ThinFilm labels use the company s own ferroelectric polymer technology for storing information Chains of non toxic polymers can be flipped between two orientations representing binary 0 and 1 to store non volatile data 5 Electronic Labels Edit While price increases when labels are electronic the very small percentage of labels that are electric is increasing Electronic labels have features that supersede non electronic labels Electronic versions can signal what is happening in real time and most can store a digital record 6 Application EditSmart labels are applied directly to packages or to pallets or other shipping containers The application directly to the product is still of neglectible importance due to the cost of the labels which may be justified easier for agglomerations of more than one product because all metallic liquid or otherwise electrically not transparent products reflect or reduce the radio waves due to the handling which normally addresses the package and lesser the unpacked product Use EditThe technologies with the smart labels are all mature and well standardised After the first wave of technology hype with RFID current consolidation in the market shows hard competitive Darwinism With increasing sales quantities the inlays are still annually redesigned and appear in releases with new extensions to performance However the integration of RFID to handling processes requires sound engineering to ensure the balance of benefit and effort In 2008 ThinFilm and Polyera announced their partnership to produce high volumes of smart labels The collaboration brings printed integrated systems such as smart sensor tags closer to commercial availability 7 For details on the coding and labeling technologies please refer to the respective pages References Edit Jakimovski Predrag 2012 Design of a Printed Organic RFID Circuit with an Integrated Sensor for Smart Labels PDF 9th International Multi Conference on Systems Signals and Devices Retrieved 26 November 2018 US 7095324 Conwell Kevin Girard amp Adams Matt Tamper evident smart label with RF transponder published 2006 08 22 assigned to Intermec IP Corp US 6753830 Gelbman Alexander Smart electronic label employing electronic ink published 2004 06 22 assigned to Visible Tech knowledgy Inc RFID Chips How they work and what they can do in German Retrieved 1 May 2018 Printable Smart Tags Could Link Carrots To The Internet Of Things Slashgear Retrieved 31 October 2012 What Are Smart Labels IDTech Retrieved 31 October 2012 Thinfilm and Polyera Partner To Bring Printed CMOS Memory To Market Polyera Retrieved 31 October 2012 See also EditAutomatic identification and data capture Barcode Barcode 2D barcodes Radio Frequency Identification Track and trace Retrieved from https en wikipedia org w index php title Smart label amp oldid 1087116757, wikipedia, wiki, book, books, library,
