RFID (Radio Frequency Identification) technology allows for automatic identification of information contained in a tag by scanning and interrogation using radio frequency (RF) waves. An RFID tag contains an antenna and a microchip that allows it to transmit and receive. This technology is a possible alternative to the use of barcodes, which are frequently inadequate in the face of rapid growth in the scale and complexity of just-in-time inventory requirements, regional and international trade, and emerging new methods of trade based on it. Use of RFID tags will likely eventually become as…mehr
RFID (Radio Frequency Identification) technology allows for automatic identification of information contained in a tag by scanning and interrogation using radio frequency (RF) waves. An RFID tag contains an antenna and a microchip that allows it to transmit and receive. This technology is a possible alternative to the use of barcodes, which are frequently inadequate in the face of rapid growth in the scale and complexity of just-in-time inventory requirements, regional and international trade, and emerging new methods of trade based on it. Use of RFID tags will likely eventually become as widespread as barcodes today. This book describes the technologies used for implementation of RFID: from hardware, communication protocols, cryptography, to applications (including electronic product codes, or EPC) and middleware. The five parts of this book will provide the reader with a detailed description of all the elements that make up a RFID system today, including hot topics such as the privacy concerns, and the Internet of Things.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hervé Chabanne is a deputy director, R&T, and security expert at Morpho, an expert for the Safran group, and an associate professor at Télécom ParisTech in France. He is also a senior member of the IEEE. Pascal Urien is a professor at Télécom ParisTech in France. Jean-Ferdinand Susini is an assistant professor at the Conservatoire National des Arts et Metiers in Paris, France.
Inhaltsangabe
Foreword xi Guy Pujolle Part One: Physics of RFID 1 Chapter 1. Introduction 3 Simon Elrharbi, Stefan Barbu 1.1. Bibliography 5 Chapter 2. Characteristics of RFID Radio Signals 7 Simon Elrharbi, Stefan Barbu 2.1. Description and operating principle of RFID systems 7 2.2. Transmission channel 19 2.3. First level electric model in inductive coupling 31 2.4. Bibliography 55 Chapter 3. RFID Communication Modes 57 Simon Elrharbi, Stefan Barbu 3.1. Communication modes 57 3.2. Bibliography 68 Part Two: RFID Applications 69 Chapter 4. Applications 71 François Lecocq, Cyrille Pépin 4.1. Introduction 71 4.2. History: evolution from barcodes to RFID tags 72 4.3. RFID tags 83 4.4. Normalization/standardization 89 4.5. Advantages/disadvantages of RFID tags 98 4.6. Description of RFID applications 102 4.7. Application examples 103 4.8. Conclusion 109 4.9. Bibliography 111 Part Three: Cryptography of RFID 113 Chapter 5. Cryptography and RFID 115 Julien Bringer, Hervé Chabanne, Thomas Icart, Thanh-Ha Le 5.1. Introduction 115 5.2. Identification protocols and security models 116 5.3. Identification protocols 121 5.4. Conclusion. Physical attacks on RFID devices 141 5.5. Bibliography 144 Part Four: EPCglobal 151 Chapter 6. EPCglobal Network 153 Dorice Nyamy, Mathieu Bouet, Daniel de Oliveira Cunha, Vincent Guyot 6.1. Introduction 153 6.2. Tags 154 6.3. EPCglobal architecture 164 6.4. Conclusion 179 6.5. Bibliography 180 Part Five: Middleware 183 Chapter 7. Middleware for the Internet of Things: Principles 185 David Durand, Yann Iagolnitzer, Patrice Krzanik, Christophe Loge, Jean-Ferdinand Susini 7.1. Distributed applications 187 7.2. RPC: Remote Procedure Call 188 7.3. Object-oriented middlewares 189 7.4. Summary of object-oriented middleware architectures 195 7.5. The XML revolution 199 7.6. Middleware for the Internet of Things 208 7.7. Conclusion 213 7.8. Bibliography 213 Chapter 8. Middleware for the Internet of Things: Standards 217 Yann Iagolnitzer, Patrice Krzanik, Jean-Ferdinand Susini 8.1. EPCglobal application environment 218 8.2. General introduction to message-oriented middleware 219 8.3. Service-oriented middleware 231 8.4. Conclusion 242 8.5. Bibliography 242 Chapter 9. Middleware for the Internet of Things: Some Solutions 245 Yann Iagolnitzer, Patrice Krzanik, Jean-Ferdinand Susini 9.1. EPCglobal and SUN Java RFID software 246 9.2. .NET and RFID services platform 250 9.3. IBM Websphere RFID Suite 256 9.4. Singularity 258 9.5. Middleware for embedded systems 260 9.6. ObjectWeb projects and the Internet of Things 265 9.7. Conclusion 276 9.8. Bibliography 276 List of Authors 279 Index 283
Foreword xi Guy Pujolle Part One: Physics of RFID 1 Chapter 1. Introduction 3 Simon Elrharbi, Stefan Barbu 1.1. Bibliography 5 Chapter 2. Characteristics of RFID Radio Signals 7 Simon Elrharbi, Stefan Barbu 2.1. Description and operating principle of RFID systems 7 2.2. Transmission channel 19 2.3. First level electric model in inductive coupling 31 2.4. Bibliography 55 Chapter 3. RFID Communication Modes 57 Simon Elrharbi, Stefan Barbu 3.1. Communication modes 57 3.2. Bibliography 68 Part Two: RFID Applications 69 Chapter 4. Applications 71 François Lecocq, Cyrille Pépin 4.1. Introduction 71 4.2. History: evolution from barcodes to RFID tags 72 4.3. RFID tags 83 4.4. Normalization/standardization 89 4.5. Advantages/disadvantages of RFID tags 98 4.6. Description of RFID applications 102 4.7. Application examples 103 4.8. Conclusion 109 4.9. Bibliography 111 Part Three: Cryptography of RFID 113 Chapter 5. Cryptography and RFID 115 Julien Bringer, Hervé Chabanne, Thomas Icart, Thanh-Ha Le 5.1. Introduction 115 5.2. Identification protocols and security models 116 5.3. Identification protocols 121 5.4. Conclusion. Physical attacks on RFID devices 141 5.5. Bibliography 144 Part Four: EPCglobal 151 Chapter 6. EPCglobal Network 153 Dorice Nyamy, Mathieu Bouet, Daniel de Oliveira Cunha, Vincent Guyot 6.1. Introduction 153 6.2. Tags 154 6.3. EPCglobal architecture 164 6.4. Conclusion 179 6.5. Bibliography 180 Part Five: Middleware 183 Chapter 7. Middleware for the Internet of Things: Principles 185 David Durand, Yann Iagolnitzer, Patrice Krzanik, Christophe Loge, Jean-Ferdinand Susini 7.1. Distributed applications 187 7.2. RPC: Remote Procedure Call 188 7.3. Object-oriented middlewares 189 7.4. Summary of object-oriented middleware architectures 195 7.5. The XML revolution 199 7.6. Middleware for the Internet of Things 208 7.7. Conclusion 213 7.8. Bibliography 213 Chapter 8. Middleware for the Internet of Things: Standards 217 Yann Iagolnitzer, Patrice Krzanik, Jean-Ferdinand Susini 8.1. EPCglobal application environment 218 8.2. General introduction to message-oriented middleware 219 8.3. Service-oriented middleware 231 8.4. Conclusion 242 8.5. Bibliography 242 Chapter 9. Middleware for the Internet of Things: Some Solutions 245 Yann Iagolnitzer, Patrice Krzanik, Jean-Ferdinand Susini 9.1. EPCglobal and SUN Java RFID software 246 9.2. .NET and RFID services platform 250 9.3. IBM Websphere RFID Suite 256 9.4. Singularity 258 9.5. Middleware for embedded systems 260 9.6. ObjectWeb projects and the Internet of Things 265 9.7. Conclusion 276 9.8. Bibliography 276 List of Authors 279 Index 283
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