RFID and the Internet of Things /

RFID and the Internet of Things /

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...

Πλήρης περιγραφή

Λεπτομέρειες βιβλιογραφικής εγγραφής
Άλλοι συγγραφείς: Chabanne, Hervé, Urien, Pascal, Susini, Jean-Ferdinand
Μορφή: Ηλ. βιβλίο
Γλώσσα:English
Έκδοση: London : Wiley, [2013]
Σειρά:ISTE.
Θέματα:
Radio frequency identification systems.
Embedded Internet devices.
TECHNOLOGY & ENGINEERING > Telecommunications.
Electronic books.
Διαθέσιμο Online:Full Text via HEAL-Link
Πίνακας περιεχομένων:
  • Cover; Title Page; Copyright Page; Table of Contents; Foreword; PART ONE: PHYSICS OF RFID; Chapter 1. Introduction; 1.1. Bibliography; Chapter 2. Characteristics of RFID Radio Signals; 2.1. Description and operating principle of RFID systems; 2.1.1. Classification of RFID systems; 2.1.2. Available operating frequency ranges; 2.1.3. Transponder types; 2.1.4. Energy and data transmission modes; 2.1.5. Features of RFID chips; 2.2. Transmission channel; 2.2.1. Maxwell's equations; 2.2.2. Electromagnetic field generated by an electric dipole.
  • 2.2.3. Electromagnetic field generated by a magnetic dipole2.2.4. Field zones surrounding antennae; 2.2.5. Wave impedance; 2.2.6. Antenna impedance; 2.2.7. Radiated power; 2.2.8. Near-field coupling; 2.3. First level electric model in inductive coupling; 2.3.1. Magnetic loop; 2.3.2. Base station antenna; 2.3.3. RFID chip antenna; 2.3.4. Design issue of RFID antennae in inductive coupling; 2.3.5. Far field coupling; 2.4. Bibliography; Chapter 3. RFID Communication Modes; 3.1. Communication modes; 3.1.1. Waveforms and usual communication codes of RFID systems; 3.1.2. Data coding.
  • 3.1.3. Modulation3.1.4. Integrity of transmissions in RFID systems; 3.1.5. Anti-collision protocol; 3.2. Bibliography; PART TWO: RFID APPLICATIONS; Chapter 4. Applications; 4.1. Introduction; 4.2. History: evolution from barcodes to RFID tags; 4.2.1. Description of barcodes; 4.2.2. One-dimensional (or linear) barcodes; 4.2.3. Stacked linear barcodes; 4.2.4. Two-dimensional barcodes; 4.3. RFID tags; 4.3.1. Characteristics of RFID tags; 4.3.2. Operating principle; 4.4. Normalization/standardization; 4.4.1. ISO standards for RFID; 4.4.2. ISO standards for middleware; 4.4.3. User guidance.
  • 4.4.4. Protocols4.4.5. EPCglobal standards; 4.4.6. Communication layer; 4.4.7. Different types of tags; 4.5. Advantages/disadvantages of RFID tags; 4.5.1. Advantages; 4.5.2. Disadvantages; 4.6. Description of RFID applications; 4.7. Application examples; 4.7.1. RFIDs in commerce; 4.7.2. Access control; 4.7.3. Culture and RFID; 4.7.4. Payment; 4.7.5. RFID and health; 4.7.6. European biometric passport; 4.7.7. Future perspectives; 4.8. Conclusion; 4.9. Bibliography; PART THREE: CRYPTOGRAPHY OF RFID; Chapter 5. Cryptography and RFID; 5.1. Introduction.
  • 5.2. Identification protocols and security models5.2.1. Definition of an identification protocol; 5.2.2. Classical notions of security; 5.2.3. Privacy notions; 5.3. Identification protocols; 5.3.1. Symmetric cryptography-based protocols; 5.3.2. Asymmetric cryptography-based protocols; 5.3.3. Protocols based on physical properties; 5.3.4. Summary; 5.4. Conclusion. Physical attacks on RFID devices; 5.4.1. Side-channel attacks; 5.4.2. Fault injection attacks; 5.4.3. KeeLoq; 5.5. Bibliography; PART FOUR: EPCGLOBAL; Chapter 6. EPCglobal Network; 6.1. Introduction; 6.2. Tags; 6.2.1. EPC codes.

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