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Time-Domain Signature Barcodes for Chipless-RFID and Sensing Applications

Time-Domain Signature Barcodes for Chipless-RFID and Sensing Applications
Author: Ferran Martín
Publisher: Springer Nature
Total Pages: 156
Release: 2020-02-01
Genre: Technology & Engineering
ISBN: 3030397262
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This book presents an unconventional approach for implementing chipless radiofrequency identification (RFID) systems and related sensors. Contrary to most state-of-the-art chipless-RFID systems, the proposed approach is based on time domain and the tags are read through near field. The book discusses different aspects of these chipless-RFID systems, including tag and reader design, strategies to enhance the data density and capacity, tag programming and erasing, tag implementation in plastic and paper substrates, and synchronous tag reading, among others. A tolerance analysis and validation of the different systems, as well as prospective applications, are also included. The book also offers a comprehensive overview of the state-of-the-art in chipless-RFID technology, including a comparative analysis, which is extended also to chip-based RFID systems. Readers are expected to be familiar with RF/microwave engineering technology. Besides master’s and postgraduate students, the book is intended for researchers in the field of radiofrequency identification (RFID) technology, and may be of interest for engineers working in the areas of wireless communications, automatic identification, security, authentication, microwave and wireless sensors, as well as those dealing with internet of things (IoT) and smart systems.

Planar Microwave Sensors

Planar Microwave Sensors
Author: Ferran Martín
Publisher: John Wiley & Sons
Total Pages: 484
Release: 2022-09-27
Genre: Technology & Engineering
ISBN: 1119811031
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Comprehensive resource detailing the latest advances in microwave and wireless sensors implemented in planar technology Planar Microwave Sensors is an authoritative resource on the subject, discussing the main relevant sensing strategies, working principles, and applications on the basis of the authors’ own experience and background, while also highlighting the most relevant contributions to the topic reported by international research groups. The authors provide an overview of planar microwave sensors grouped by chapters according to their working principle. In each chapter, the working principle is explained in detail and the specific sensor design strategies are discussed, including validation examples at both simulation and experimental level. The most suited applications in each case are also reported. The necessary theory and analysis for sensor design are further provided, with special emphasis on performance improvement (i.e., sensitivity and resolution optimization, dynamic range, etc.). Lastly, the work covers a number of applications, from material characterization to biosensing, including motion control sensors, microfluidic sensors, industrial sensors, and more. Sample topics covered in the work include: Non-resonant and resonant sensors, reflective-mode and transmission-mode sensors, single-ended and differential sensors, and contact and contactless sensors Design guidelines for sensor performance optimization and analytical methods to retrieve the variables of interest from the measured sensor responses Radiofrequency identification (RFID) sensor types, prospective applications, and materials/technologies towards “green sensors” implementation Comparisons between different technologies for sensing and the advantages and limitations of microwave sensors, particularly planar sensors Engineers and qualified professionals involved in sensor technologies, along with undergraduate and graduate students in related programs of study, can harness the valuable information inside Planar Microwave Sensors to gain complete foundational knowledge on the subject and stay up to date on the latest research and developments in the field.

Multiresonator-Based Chipless RFID

Multiresonator-Based Chipless RFID
Author: Stevan Preradovic
Publisher: Springer Science & Business Media
Total Pages: 189
Release: 2012-01-07
Genre: Technology & Engineering
ISBN: 1461420954
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This vital new resource offers engineers and researchers a window on important new technology that will supersede the barcode and is destined to change the face of logistics and product data handling. In the last two decades, radio-frequency identification has grown fast, with accelerated take-up of RFID into the mainstream through its adoption by key users such as Wal-Mart, K-Mart and the US Department of Defense. RFID has many potential applications due to its flexibility, capability to operate out of line of sight, and its high data-carrying capacity. Yet despite optimistic projections of a market worth $25 billion by 2018, potential users are concerned about costs and investment returns. Clearly demonstrating the need for a fully printable chipless RFID tag as well as a powerful and efficient reader to assimilate the tag’s data, this book moves on to describe both. Introducing the general concepts in the field including technical data, it then describes how a chipless RFID tag can be made using a planar disc-loaded monopole antenna and an asymmetrical coupled spiral multi-resonator. The tag encodes data via the “spectral signature” technique and is now in its third-generation version with an ultra-wide band (UWB) reader operating at between 5 and 10.7GHz.

Chipless RFID based on RF Encoding Particle

Chipless RFID based on RF Encoding Particle
Author: Arnaud Vena
Publisher: Elsevier
Total Pages: 260
Release: 2016-08-21
Genre: Technology & Engineering
ISBN: 0081012667
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Chipless RFID based on RF Encoding Particle: Realization, Coding and Reading System explores the field of chipless identification based on the RF Encoding Particle (REP). The book covers the possibility of collecting information remotely with RF waves (RFID) with totally passive tags without wire, batteries, and chips, and even printed on paper. Despite the many benefits of RFID, deployment is still hindered by several economic and technological factors. Among these barriers are the high cost of tags, lack of reliability and security in the information contained in the RFID chip, and how tags are 'recycled.' This book focuses on the development of chipless RFID tags, representing a new family of low cost tags. With this technology information is extracted from the electromagnetic response of the tag, which depends only on its geometry. Various solutions have been developed by the authors to increase the amount of information, reduce the surface of the tag, or improve the robustness of detection. Considerations such as realization using paper substrate, the development of a low cost detection system, and measurements in a real environment have been addressed for practical implementation. Introduces the chipless RFID REP approach as compared to classical chipless RFID, RFID, and barcode technologies Includes a demonstration of the practical and economic potential of chipless RFID technology, with detailed presentations and discussions of different test benches and comparisons Presents in detail numerous examples of chipless tags that are able to tackle specific problems: sensitivity of detection, encoding density, robustness of detection, problem of tag orientation, tags and reader cost, and compliance with emission standards Focuses on the development of chipless RFID tags, representing a new family of low cost tags

Chipless RFID

Chipless RFID
Author: Reza Rezaiesarlak
Publisher: Springer
Total Pages: 0
Release: 2014-12-18
Genre: Technology & Engineering
ISBN: 9783319101682
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This book examines the design of chipless RFID systems. The authors begin with the philosophy of RFID and its effect on commercial applications. Then, they discuss the chipless RFID systems and the application of chipless RFID systems, the advantages it provides compared to conventional barcode ID and chipped RFID tags. The text then covers chipless RFID components in block diagram representation and introduce FCC requirements which should be considered in the design procedure of each component. The third chapter is dedicated to the complex natural resonance-based design of chipless RFID tags. The next chapter concerns about the detection techniques introduced for the identification of chipless RFID tags. The fifth chapter is dedicated to the localization and anti-collision techniques in chipless RFID systems. Final chapter is chipless RFID tags as sensors. It provides some applications where the tag can be used as both ID and sensor. The tag specifications and detection issues are addressed in this section.

Chipless RFID Sensors

Chipless RFID Sensors
Author: Nemai Chandra Karmakar
Publisher: John Wiley & Sons
Total Pages: 274
Release: 2016-02-23
Genre: Technology & Engineering
ISBN: 1118936000
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A systematic treatment of the design and fabrication of chipless RFID sensors This book presents various sensing techniques incorporated into chipless RFID systems. The book is divided into five main sections: Introduction to Chipless RFID Sensors; RFID Sensor Design; Smart Materials; Fabrication, Integration and Testing; and Applications of Chipless RFID Sensors. After a comprehensive review of conventional RFID sensors, the book presents various passive microwave circuit designs to achieve compact, high data density and highly sensitive tag sensors for a number of real-world ubiquitous sensing applications. The book reviews the application of smart materials for microwave sensing and provides an overview of various micro- and nano-fabrication techniques with the potential to be used in the development of chipless RFID sensors. The authors also explore a chipless RFID reader design capable of reading data ID and sensory information from the chipless RFID sensors presented in the book. The unique features of the book are: Evaluating new chipless RFID sensor design that allow non-invasive PD detection and localization, real-time environment monitoring, and temperature threshold detection and humidity Providing a classification of smart materials based on sensing physical parameters (i.e. humidity, temperature, pH, gas, strain, light, etc.) Discussing innovative micro- and nano-fabrication processes including printing suitable for chipless RFID sensors Presenting a detailed case study on various real-world applications including retail, pharmaceutical, logistics, power, and construction industries Chipless RFID Sensors is primarily written for researchers in the field of RF sensors but can serve as supplementary reading for graduate students and professors in electrical engineering and wireless communications.

Advanced RFID Systems, Security, and Applications

Advanced RFID Systems, Security, and Applications
Author: Karmakar, Nemai Chandra
Publisher: IGI Global
Total Pages: 412
Release: 2012-09-30
Genre: Technology & Engineering
ISBN: 1466620811
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As modern technologies continue to transform and impact our society, Radio Frequency Identification has emerged as one of the top areas of study to do just that. Using its wireless data capturing technique and incredible capabilities such as automatic identification, tracking, handling large amounts of data, and flexibility in operation, RFID aims to revamp the new millennium. Advanced RFID Systems, Security, and Applications features a comprehensive collection of research provided by leading experts in both academia and industries. This leading reference source provides state-of-the- art development on RFID and its contents will be of the upmost use to students and researchers at all levels as well as technologists, planners, and policy makers. RFID technology is progressing into a new phase of development.

Chipless RFID System for Barcode Replacement

Chipless RFID System for Barcode Replacement
Author: Stevan Preradovic
Publisher:
Total Pages: 231
Release: 2010
Genre:
ISBN:
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Radio Frequency Identification (RFID) is a modern wireless data transmission and reception technique for applications including automatic identification, asset tracking and security surveillance. As barcodes and other means of identification and asset tracking are inadequate for recent demands, RFID technology has attracted interest for applications such as logistics, supply chain management, asset tracking, and security access control. However, the cost of RFID limits their potential for the replacement of trillions of barcodes each year. The only possible solution is a fully printable chipless RFID tag.A novel RFID system comprised of a chipless RFID tag and an associated reader is reported in the thesis. The chipless tag is a fully-passive microwave circuit and uses spectral signatures for data encoding. The tag consists of a multi-resonator coupled to transmitting and receiving antennas. To accommodate multiple bits, the tag operates over the ultra wideband (UWB) frequency spectrum. UWB antennas are used to receive the interrogation signal sent from the reader and transmit the signal back to the reader after performing modulation of the frequency spectra with the multi-resonator. Modulation is performed in both amplitude and phase of the spectrum. A chipless tag up to 35 bits which operate over 3-7 GHz band has been designed.After the successful design of the chipless tag, three prototype readers have been developed. The Gen1 reader was designed to validate the chipless RFID concept using 6-bit chipless tag reading based on amplitude-only detection in S-band; the Gen2 reader is an upgraded version of Gen1 with both amplitude and phase detection capability; and the third generation reader is a UWB reader capable of reading up to 35-bits in the UWB band. The integrated reader is a complete system with analog RF and digital control sections loaded with graphical user interface (GUI) and software protocol. Both the hardware and software design of the RFID reader and field trials of the designed chipless RFID system have been validated in the real world environment. An investigation into antenna systems in order to enhance reading range up to 70 cm has also been performed.The unique features of the developed chipless RFID system are: (i) a low cost, fully printable tag and (ii) secure, remote and non-line-of-sight operability. The importance of this concept lies in the fact that chipless RFID tags become comparable to barcodes in terms of the substrate material used and the cost of fabrication. The main application of this chipless RFID system is in short-range tagging of extremely low cost items such as the Australian polymer banknote.

Chipless RFID Transponder Design

Chipless RFID Transponder Design
Author: Isaac Balbin
Publisher:
Total Pages: 366
Release: 2010
Genre:
ISBN:
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Radio Frequency Identification (RFID) is a wireless data transmission and reception technology for automatic identification, asset tracking and security surveillance. RFID technology has gained momentum in market penetration, with both the US Department of Defense and retail giant Wal-Mart introducing mandatory tagging of goods in their supply chain. However, for large-scale RFID implementation, the cost of the systems cannot compete with optical barcodes. The main hindrance is the cost of the microchip used in RFID. An RFID tag that can compete with the barcode will need to be fully printable on plastic or paper. To date, only a few fully printable chipless RFID technologies have been reported in the open literature. The reported chipless RFID tags have a limited number of bits. To compete with the optical barcode, the chipless tag needs to encode 64 to 128-bits. The present thesis has addressed the problem and conceptualized fully printable multi-bit chipless tags.In the present thesis, three novel designs of multi-bit chipless RFID tags have been presented. The tags operate over the ultra wideband (UWB) frequency domain with more than 100% bandwidth. The first prototype is a Pythagorean tree (PT) fractal resonator based chipless RFID tag. A UWB monopole is loaded with the PT fractal resonator to generate multiple frequency signatures in the frequency spectrum. To achieve 64-bits from the PT chipless tag, eight PT fractal resonators with different frequency signatures are connected in parallel with a 1-to-8-way power divider and the input port of the power divider is connected to a UWB monopole antenna. The Radar Cross Section (RCS) of the monopole antenna shows distinct nulls in the respective resonant frequencies of the PT fractal resonators. Therefore, the resonant nulls corresponds 1:1 to data bits for the identification tag.The second prototype is the fine slot loaded UWB monopole antenna. The antenna resonates at many narrow resonant bins and they are resolvable in the return loss vs. frequency plot of the antenna. A single such antenna is encoded up to 32-bits. Two such orthogonally polarized antennas are connected together via microstrip transmission lines that include a Real Frequency Technique (RFT) designed broadband matching section. Thus a 64-bit chipless tag is obtained. Another set of two orthogonally polarized antennas on the opposite polarization of the former antenna yields the ability to encode 128-bits of data. Thus a 128-bit chipless RFID tag concept is proved. The tags were tested with input return loss, transmission amplitude and phases and finally the RCS. Distinct nulls are present in the RCS vs. frequency plots.The third and final prototype is a phase encoded square patch antenna reflector loaded with open circuited reactive stub elements in two orthogonal planes of the patch antenna. The relative phase difference generated between the two degenerate modes at the same frequency due to the variation of the stub length is used as the encoded data. In this final design six 2x2-sub-arrays of the patch antennas are designed to encode many data bits in six different frequency points. The RCS measurement shows distinct phase shifts in the RCS vs. frequency plot due to the variation of the stub length of the patch. Moreover, due to the array geometry instead of the single element design, the shift in phase and increase in RCS amplitude has increased four-fold. This ensures that low power transmission is able to detect the tag. All the designed prototypes have the potential to replace and/or co-exist with optical barcodes for low cost item tagging.