Wireless Power Transfer Algorithms, Technologies and Applications in Ad Hoc Communication Networks. (2016)
- Record Type:
- Book
- Title:
- Wireless Power Transfer Algorithms, Technologies and Applications in Ad Hoc Communication Networks. (2016)
- Main Title:
- Wireless Power Transfer Algorithms, Technologies and Applications in Ad Hoc Communication Networks
- Further Information:
- Note: Sotiris Nikoletseas, Yuanyuan Yang, Apostolos Georgiadis, editors.
- Other Names:
- Nikoletseas, Sotiris
Yang, Yuanyuan
Georgiadis, Apostolos - Contents:
- Preface; Acknowledgments; Contents; Contributors; Part I Technologies; 1 Non-radiative Wireless Power Transmission: Theory and Applications; 1.1 Introduction; 1.2 Two-Port Network Representation of a WPT Link; 1.2.1 Statement of the Problem; 1.2.2 Impedance Matrix Modeling of a WPT Link; 1.2.3 Admittance Matrix Modeling of a WPT Link; 1.3 Application of Theory: The Case of Two Coupled Inductances; 1.3.1 Coupled Inductances with a Capacitive T Network on the Primary Side; 1.4 Application of Theory: The Case of a Capacitive WPT Link; References; 2 Wireless Power Transfer Based on Metamaterials. 2.1 Introduction2.2 Metamaterials for WPT; 2.2.1 Metamaterials and Superlens; 2.2.2 Metamaterials and WPT; 2.2.3 Experimental Realization; 2.3 Array of Resonators for Mobile Power Transfer; 2.3.1 Array of Coupled Resonators; 2.3.2 Numerical Simulations and Circuit Analysis; 2.3.3 Experiment Demonstration; 2.4 Conclusion; References; 3 Optimal Array Beamforming for Microwave Power Transmission in Complex Environment; 3.1 Microwave Power Transmission System; 3.1.1 Problem Formulation; 3.1.2 Transmission Efficiency Based on Antenna Parameters. 3.1.3 Transmission Efficiency Based on Channel Transfer Function3.1.4 Experiment Study of Indoor MPT; 3.2 Review of Optimal Beamforming Techniques; 3.2.1 Array Factor Optimization; 3.2.2 Retrodirective Array/Phase Conjugate Array; 3.2.3 Adaptive Array Digital Beamforming; 3.3 Time Reversal Eigenmode Beamforming; 3.3.1 Pseudo Transmission Efficiency;Preface; Acknowledgments; Contents; Contributors; Part I Technologies; 1 Non-radiative Wireless Power Transmission: Theory and Applications; 1.1 Introduction; 1.2 Two-Port Network Representation of a WPT Link; 1.2.1 Statement of the Problem; 1.2.2 Impedance Matrix Modeling of a WPT Link; 1.2.3 Admittance Matrix Modeling of a WPT Link; 1.3 Application of Theory: The Case of Two Coupled Inductances; 1.3.1 Coupled Inductances with a Capacitive T Network on the Primary Side; 1.4 Application of Theory: The Case of a Capacitive WPT Link; References; 2 Wireless Power Transfer Based on Metamaterials. 2.1 Introduction2.2 Metamaterials for WPT; 2.2.1 Metamaterials and Superlens; 2.2.2 Metamaterials and WPT; 2.2.3 Experimental Realization; 2.3 Array of Resonators for Mobile Power Transfer; 2.3.1 Array of Coupled Resonators; 2.3.2 Numerical Simulations and Circuit Analysis; 2.3.3 Experiment Demonstration; 2.4 Conclusion; References; 3 Optimal Array Beamforming for Microwave Power Transmission in Complex Environment; 3.1 Microwave Power Transmission System; 3.1.1 Problem Formulation; 3.1.2 Transmission Efficiency Based on Antenna Parameters. 3.1.3 Transmission Efficiency Based on Channel Transfer Function3.1.4 Experiment Study of Indoor MPT; 3.2 Review of Optimal Beamforming Techniques; 3.2.1 Array Factor Optimization; 3.2.2 Retrodirective Array/Phase Conjugate Array; 3.2.3 Adaptive Array Digital Beamforming; 3.3 Time Reversal Eigenmode Beamforming; 3.3.1 Pseudo Transmission Efficiency; 3.3.2 Transmission Efficiency Optimization; 3.3.3 Time Reversal Eigenmode Beamforming; 3.4 Numerical Examples; 3.4.1 Arbitrary Array Beamforming in Free Space; 3.4.2 Arbitrary Array Beam Steering. 3.4.3 Arbitrary Array Beamforming in Multipath Environment3.5 Conclusion; References; 4 Far-Field Wireless Power Transfer for IoT Sensors; 4.1 Introduction; 4.1.1 Near-Contact WPT; 4.1.2 Far-Field WPT; 4.2 Far-Field WPT Basics; 4.2.1 Power Density; 4.2.2 Wireless Power Transfer; 4.2.3 RF Harvesting from the Ambient; 4.3 Rectifier; 4.3.1 Equivalent Circuit Analysis; 4.3.2 Harmonic Current Analysis; 4.4 Cascaded Rectifiers; 4.5 Receive Antenna; 4.5.1 Antenna Input Impedance; 4.5.2 Antenna Integration Level; 4.5.3 Antenna Shielding; 4.5.4 Miniaturized Complex Conjugately Matched Antenna. 4.5.5 Miniature Shielded Antenna4.6 Rectenna; 4.6.1 Power Management; 4.6.2 Efficiency Evaluation; 4.6.3 Complete Rectenna; 4.7 Future Developments; 4.8 Conclusions; References; 5 Wireless Power Transfer: Discrete Rectifier Modeling and Analysis; 5.1 Introduction; 5.2 Rectifier Modeling; 5.2.1 I-V Relationship; 5.2.2 Macro Model; 5.2.3 Integrated Equivalent; 5.2.4 SPICE Model; 5.3 Circuit Analysis Techniques; 5.3.1 Software Tools; 5.3.2 Time Trajectory Technique; 5.3.3 Adaptive Input Power Algorithm; 5.3.4 Steady-State Algorithm; 5.4 Comparing Topologies; 5.4.1 Definition of Efficiency. … (more)
- Publisher Details:
- Cham, Switzerland : Springer
- Publication Date:
- 2016
- Extent:
- 1 online resource
- Subjects:
- 621.319
004
Computer science
Wireless power transmission
Ad hoc networks (Computer networks)
TECHNOLOGY & ENGINEERING -- Mechanical
Ad hoc networks (Computer networks)
Wireless power transmission
Computer Science
Theory of Computation
Electrical Engineering
Technology & Engineering -- Electrical
Electrical engineering
Information theory
Computer engineering
Computers -- Computer Science
Computer science
Electronic books - Languages:
- English
- ISBNs:
- 9783319468105
3319468103 - Related ISBNs:
- 331946809X
9783319468099 - Notes:
- Note: Includes bibliographical references at the end of each chapters.
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- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.373363
- Ingest File:
- 02_354.xml