This paper presents a new technique for UHF RFID antenna integration with a great impact on the automotive industry. The antenna has been optimized in HFSS and the prototype has been laminated and measured, in between two thin glass slices. The design takes into account the aspects related to the automotive safety glass, used for the windscreens in front of the automobiles. The paper proposes the use of aluminum sheets for the active element of the antenna together with three glass layers as substrates. This approach exhibits excellent results and could be applicable for vehicle long-range identification (AVI) or for cars tracking and localization.
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 Leonardo B. Campos Carlos E. Cugnasca “Applications of RFID and WSNs technologies to Internet of Things” RFID 2014 IEEE Brasil pp. 19-21 2014
 L. Yang A. Rida R. Vyas and M. M. Tentzeris “RFID Tag and RF Structure on a Paper Substrate Using Inkjet-Printing Technology” Microwave Theory and Techniques IEEE Transactions on Volume 55 Issue 12 Part 2 pp. 2894-2901 Dec. 2007
 S. J. Orfanidis „Electromagnetic Waves and Antennas” Rutgers University 2008 1021s. ISBN 978-0130938558.
 K. Finkenzeller RFID Handbook 2nd ed. Wiley 2004.
 M. M. Tentzeris L. Yang A. Rida A. Traille R. Vyas and T. Wu “RFID’s on paper using inkjet-printing technology: It is the first step for UHF ubiquitous “Cognitive intelligence” and “Global tracking”?” RFID Eurasia 2007 1st Annual pp. 1-6 Sept 2007.
 P. Raumonen L. Sydanheimo L. Ukkonen L M. Keskilammi and M. Kivikoski “Folded dipole antenna near metal plate” Antennas and Propagation Society International Symposium 2003. IEEE Volume 1 pp. 848–851
 S. Basat K. Lim I. Kim M. Tentzeris and J. Laskar “Design and Development of a Miniaturized Embedded UHF RFID Tag for Automotive Tire Applications” Electronic Components and Technology Conference 2005 Volume 1 p. 867.