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Low-Cost, Passive UHF RFID Tag Antenna-Based Sensors for Pervasive Sensing Applications

Low-Cost, Passive UHF RFID Tag Antenna-Based Sensors for Pervasive Sensing Applications
Author: Rahul Bhattacharyya
Publisher:
Total Pages: 170
Release: 2012
Genre:
ISBN:
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In the future, large-scale sensor deployment would enable many areas such as infrastructure condition monitoring and supply chain management. However, many of today's wireless sensor technologies are still too expensive to meet this need. Radio Frequency IDentification (RFID) offers good potential for the development of pervasive sensors: RFID tags have a proven track record of large-scale, highly integrated deployment for object identification in the retail and consumer goods industry. Furthermore, the last decade has seen much progress in making RFID a reliable, standardized wireless communication medium with the ability to mass produce low-cost RFID tags. My thesis introduces the concept of RFID Tag Antenna-Based Sensing (RFID TABS). In this approach, a change in the sensed parameter of interest induces a controlled change in the geometry or boundary conditions of an RFID tag's antenna. The resultant change in the tag's response signal can then be detected by an RFID reader. My approach builds upon current developments in RFID technology. For instance, the manufacturing techniques for the mass production of low-cost RFID tags can be used for pervasive tag-sensor development. My thesis examines TABS in a two-pronged approach: First, I demonstrate how three fundamental tag and reader signal properties can be used for sensing and propose three classes of TABS: -- Amplitude Modifying (AM) TABS use RFID reader transmitted power and tag response power for sensing. I illustrate proof of concept using a displacement sensor. I demonstrate that both these power metrics can be used to reliably measure structural displacement to a precision of 2.5 mm using commercial RFID tags. -- Frequency Modifying (FM) TABS relate changes in the sensed parameter to a shift in the tag's optimal operating frequency - the carrier frequency for which the tag is best tuned to respond to the reader. I demonstrate proof of concept using a temperature threshold sensor - the crossing of a design temperature threshold results in a shift in the sensor's optimal operating frequency. I demonstrate that the sensor works reliably over a 3 m read range and in different environmental conditions. -- Phase Modifying (PM) TABS use tag backscatter phase for sensing. I provide a brief summary of the factors influencing RF phase and outline the design for a PM TABS fluid level sensor that uses RFID tag response phase to detect the presence or absence of fluid in a beverage glass. I highlight the challenges in the practical implementation of this approach by demonstrating the sensitivity of RFID tag phase to three extraneous factors. Second, I introduce the concept of Non-Electric Memory to record short timescale threshold crossovers in the sensed parameter that may occur when the tag-sensor is unpowered. When information about, rather than the exact time of, the threshold occurrence is sufficient, non-electric memory provides a solution. I demonstrate how non-electric memory can be integrated into sensor design at minimal added cost. In the proof of concept of a temperature threshold sensor, I design a thermally actuated shape memory polymer switch to permanently change the electrical properties of an RFID tag when the temperature threshold is crossed. I demonstrate that the design works reliably over a read range of 3 m and is independent of the material on which the sensor is deployed. In summary, this thesis demonstrates how an RFID tag can be adapted for low cost, pervasive sensing. Sensor prototypes illustrate proof of concept in three application areas. Extensions to two other applications are also discussed.

Chipless RFID Sensors

Chipless RFID Sensors
Author: Nemai Chandra Karmakar
Publisher: John Wiley & Sons
Total Pages: 272
Release: 2016-03-16
Genre: Technology & Engineering
ISBN: 1119078113
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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.

RFID-Enabled Sensor Design and Applications

RFID-Enabled Sensor Design and Applications
Author: Amin Rida
Publisher: Artech House
Total Pages: 212
Release: 2010
Genre: Technology & Engineering
ISBN: 1607839822
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RFID (radio-frequency identification) is an emerging communication system technology and one of the most rapidly growing segments of todayOCOs automatic identification data collection industry. This cutting-edge resource offers you a solid understanding of the basic technical principles and applications of RFID-enabled sensor systems. The book provides you with a detailed description of RFID and itOCOs operation, along with a fundamental overview of sensors and wireless sensor networks. Moreover, this practical reference gives you step-by-step guidance on how to design RFID-enabled sensors that form a wireless sensor network. You also find detailed coverage of state-of OCothe-art RFID/sensor technology and worldwide applications.

Design and Development of RFID and RFID-Enabled Sensors on Flexible Low Cost Substrates

Design and Development of RFID and RFID-Enabled Sensors on Flexible Low Cost Substrates
Author: Li Yang
Publisher: Springer Nature
Total Pages: 81
Release: 2022-06-01
Genre: Technology & Engineering
ISBN: 3031025245
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This book presents a step-by-step discussion of the design and development of radio frequency identification (RFID) and RFID-enabled sensors on flexible low cost substrates for UHF frequency bands. Various examples of fully function building blocks (design and fabrication of antennas, integration with ICs and microcontrollers, power sources, as well as inkjet-printing techniques) demonstrate the revolutionary effect of this approach in low cost RFID and RFID-enabled sensors fields. This approach could be easily extended to other microwave and wireless applications as well. The first chapter describes the basic functionality and the physical and IT-related principles underlying RFID and sensors technology. Chapter two explains in detail inkjet-printing technology providing the characterization of the conductive ink, which consists of nano-silver-particles, while highlighting the importance of this technology as a fast and simple fabrication technique especially on flexible organic substrates such as Liquid Crystal Polymer (LCP) or paper-based substrates. Chapter three demonstrates several compact inkjet-printed UHF RFID antennas using antenna matching techniques to match IC's complex impedance as prototypes to provide the proof of concept of this technology. Chapter four discusses the benefits of using conformal magnetic material as a substrate for miniaturized high-frequency circuit applications. In addition, in Chapter five, the authors also touch up the state-of-the-art area of fully-integrated wireless sensor modules on organic substrates and show the first ever 2D sensor integration with an RFID tag module on paper, as well as the possibility of 3D multilayer paper-based RF/microwave structures. Table of Contents: Radio Frequency Identification Introduction / Flexible Organic Low Cost Substrates / Benchmarking RFID Prototypes on Organic Substrates / Conformal Magnetic Composite RFID Tags / Inkjet-Printed RFID-Enabled Sensors

The RF in RFID

The RF in RFID
Author: Daniel Dobkin
Publisher: Newnes
Total Pages: 540
Release: 2012-11-01
Genre: Technology & Engineering
ISBN: 0123948304
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This book explains how UHF tags and readers communicate wirelessly. It gives an understanding of what limits the read range of a tag, how to increase it (and why that might result in breaking the law), and the practical things that need to be addressed when designing and implementing RFID technology. Avoiding heavy math but giving breadth of coverage with the right amount of detail, it is an ideal introduction to radio communications for engineers who need insight into how tags and readers work. New to this edition: • Examples of near-metal antenna techniques • Discussion of the wakeup challenge for battery-assisted tags, with a BAT architecture example • Latest development of protocols: EPC Gen 1.2.0 • Update 18000-6 discussion with battery-assisted tags, sensor tags, Manchester tags and wakeup provisions Named a 2012 Notable Computer Book for Computer Systems Organization by Computing Reviews The only book to give an understanding of radio communications, the underlying technology for radio frequency identification (RFID) Praised for its readability and clarity, it balances breadth and depth of coverage New edition includes latest developments in chip technology, antennas and protocols

Design and Development of Radio Frequency Identification (RFID) and RFID-enabled Sensors on Flexible Low Cost Substrates

Design and Development of Radio Frequency Identification (RFID) and RFID-enabled Sensors on Flexible Low Cost Substrates
Author: Li Yang
Publisher: Morgan & Claypool Publishers
Total Pages: 90
Release: 2009
Genre: Technology & Engineering
ISBN: 1598298607
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This book presents a step-by-step discussion of the design and development of radio frequency identification (RFID) and RFID-enabled sensors on flexible low cost substrates for UHF frequency bands. Various examples of fully function building blocks (design and fabrication of antennas, integration with ICs and microcontrollers, power sources, as well as inkjet-printing techniques) demonstrate the revolutionary effect of this approach in low cost RFID and RFID-enabled sensors fields. This approach could be easily extended to other microwave and wireless applications as well. The first chapter describes the basic functionality and the physical and IT-related principles underlying RFID and sensors technology. Chapter two explains in detail inkjet-printing technology providing the characterization of the conductive ink, which consists of nano-silver-particles, while highlighting the importance of this technology as a fast and simple fabrication technique especially on flexible organic substrates such as Liquid Crystal Polymer (LCP) or paper-based substrates. Chapter three demonstrates several compact inkjet-printed UHF RFID antennas using antenna matching techniques to match IC's complex impedance as prototypes to provide the proof of concept of this technology. Chapter four discusses the benefits of using conformal magnetic material as a substrate for miniaturized high-frequency circuit applications. In addition, in Chapter five, the authors also touch up the state-of-the-art area of fully-integrated wireless sensor modules on organic substrates and show the first ever 2D sensor integration with an RFID tag module on paper, as well as the possibility of 3D multilayer paper-based RF/microwave structures. Table of Contents: Radio Frequency Identification Introduction / Flexible Organic Low Cost Substrates / Benchmarking RFID Prototypes on Organic Substrates / Conformal Magnetic Composite RFID Tags / Inkjet-Printed RFID-Enabled Sensors

Structural Health Monitoring and Integrity Management

Structural Health Monitoring and Integrity Management
Author: Keqin Ding
Publisher: CRC Press
Total Pages: 526
Release: 2015-05-29
Genre: Business & Economics
ISBN: 1315690462
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Structural Health Monitoring and Integrity Management is a collection of the papers presented at the 2nd International Conference of Structural Health Monitoring and Integrity Management (ICSHMIM2014, Nanjing, China, 24-26 September 2014), and addresses the most recent developments in the field of Structural Health Monitoring (SHM) and integrity ma

Chipless RFID Sensor for Ubiquitous Sensing

Chipless RFID Sensor for Ubiquitous Sensing
Author: Emran Md Amin
Publisher:
Total Pages: 450
Release: 2015
Genre:
ISBN:
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In recent years, radio frequency identification (RFID) technology has been employed in mainstream applications for asset management, storage of goods, security, transportation and logistics. The RFID sensor has features which can revolutionize the field of automated object identification in conjunction with condition monitoring. In this research, a novel chipless RFID sensor platform is proposed for wireless sensing of tagged objects. Since the proposed chipless RFID sensor does not require any on-board micro-chip and power source, it has great potential for low-cost, maintenance-free, automated and robust applications. The aim of this research is to develop single node multi-parameter sensing chipless RFID sensors in versatile RF sensing applications. This PhD thesis involves developing novel multi-resonator chipless RFID sensor platforms for three potential RF sensing applications: (i) non-invasive radiometric partial discharge (PD) detection and localization of faulty power apparatus, (ii) electromagnetic (EM) sensors for real time environment monitoring, and finally, (iii) RF memory sensors for event detection. Each development involves the problem identification, research hypothesis, physical layer design of the sensor tag, prototype fabrication and experimentation. Finally, a chipless RFID sensor for multiple parameter sensing is proposed for both real-time environment monitoring and event detection. In the first phase of this research, a passive radio frequency (RF) sensor has been developed for non-invasive radiometric detection of simultaneous PD signals in high voltage (HV) apparatus such as transformers, overhead lines, capacitor banks and circuit breakers. The sensor comprises passive multi-resonator circuit and an antenna for capturing PD as well as providing ID of faulty equipment. The low-cost RF sensor is installed in individual HV apparatus for monitoring their PD events. The chipless RFID based PD sensor addresses PD monitoring, PD detection and faulty source identification.In the second phase, a low-cost, printable chipless RFID tag sensor is developed for real-time environment monitoring. The chipless RFID tag sensor provides identification data and monitors a number of physical parameters of tagged objects and the surrounding environment. The RF sensor measures physical parameters such as temperature, humidity, light intensity and pH level of tagged objects. The RFID sensor is based on planar, single-sided resonant scatterers for generating data ID and carrying sensing information in the frequency spectrum. Environment sensing is incorporated using smart polymer materials, which exhibit dielectric change to particular physical parameters. Our proposed chipless RFID sensor comprises a planar multi-slot resonator as an ID generation circuit and an electric field coupled LC (ELC) resonator coated with a smart material layer as a sensing circuit on a compact planar layout. A novel feature of the developed sensor is its ability to combine multiple physical parameter sensing in the same chipless RFID platform for ubiquitous condition monitoring. In this research firstly, a humidity sensor is proposed, as it is one of the most critical physical parameters for environment monitoring. Next, a chipless RFID memory sensor is developed for violation of temperature threshold. The memory sensor uses a smart material which exhibit permanent dielectric change when certain temperature threshold is reached. The sensor operates as a memory device to store occurrence of a particular event. The temperature threshold sensor can also incorporate real time humidity sensing within the same chipless RFID tag platform. Hence a chipless RFID sensor for multiple parameters sensing capability is developed.Reading of chipless RFID sensor is a non-trivial task. A chipless RFID sensor tag is a minute radar target for the reader. New reader architecture to read the tag is proposed in this thesis. The reader comprises RF, digital and power control modules to interrogate the tag sensor, captures backscattered RF response and performs necessary signal processing for data decoding.Finally, the thesis summarizes the major challenges in realizing a fully-printable chipless sensor on flexible substrates. Potential future research directions in sensor fabrication, chipless RFID reader development, and sensor calibration methods are discussed. With its simultaneous identification and sensing capabilities, the low cost fully printable chipless RFID sensor will revolutionise emerging fields such as internet of thing (IoT) and smart cities.

Green RFID Systems

Green RFID Systems
Author: Luca Roselli
Publisher: Cambridge University Press
Total Pages: 289
Release: 2014-09-25
Genre: Computers
ISBN: 1107030404
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Learn how new materials and electronics technologies can make RFID systems more energy efficient and environmentally friendly. Experts show you how energy scavenging, passive/chipless RFID, RFID passive sensors, networked RFID, energy harvesting, organic devices, and wide area electronics can be used to develop green solutions for the Internet of Things.

Design and Optimization of Passive UHF RFID Systems

Design and Optimization of Passive UHF RFID Systems
Author: Jari-Pascal Curty
Publisher: Springer Science & Business Media
Total Pages: 150
Release: 2006-12-18
Genre: Technology & Engineering
ISBN: 0387447105
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Radio Frequency IDentification (RFID) stores and retrieves data using devices called RFID tags: objects attached to or incorporated into a product, animal or person which communicate with an RFID reader or interrogator. This book proposes a linear two-port model for an N-stage modified-Greinacher full wave rectifier, predicting the overall conversion efficiency at low power levels where the diodes are operating near their threshold voltage. Included is an experimental procedure to measure how impedance modulation in the tag affects the signal at the reader, and a useful tool for choosing the most appropriate impedances.