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Developments in antenna analysis and design. Volume 1 / edited by Raj Mittra.

EBSCOhost Academic eBook Collection (North America) Available online

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Format:
Book
Contributor:
Mittra, Raj, editor.
Series:
Electromagnetics and Radar Series
Language:
English
Subjects (All):
Antennas (Electronics)--Design and construction.
Antennas (Electronics).
Physical Description:
1 online resource (505 pages)
Edition:
1st ed.
Place of Publication:
London : Institution of Engineering & Technology, [2019]
System Details:
Mode of access: World Wide Web.
Summary:
Developments in Antenna Analysis and Design presents recent developments in antenna design and modeling techniques for a wide variety of applications, chosen because they are contemporary in nature, have been receiving considerable attention in recent years, and are crucial for future developments.
Contents:
Intro
Contents
Preface
1. Applications of the characteristic mode theory to antenna design / Ting-Yen Shih and Nader Behdad
1.1 Introduction
1.1.1 Background
1.1.2 Characteristic mode theory
1.2 Antenna design examples using the characteristic mode theory
1.2.1 Circularly polarized antennas
1.2.2 Wideband antennas
1.2.3 Chassis-based MIMO antennas
1.2.4 Bandwidth enhancement of platform-based antennas
1.3 Summary
References
2. Design of antennas mounted on complex platforms using the characteristic mode (CM) and characteristic basis (CB) function methods / Raj Mittra, Ashwani Kumar, and Chao Li
2.1 Introduction
2.2 TCM approach to designing antennas for mobile phone platforms
2.3 Characteristic basis method for locating antennas on mobile phone platforms
2.4 Placement of multiple antennas on a complex platform
2.4.1 TCM-based approach
2.4.2 CB-based approach
2.5 Illustrative examples
2.5.1 Four microstrip patch antennas on an FR4 substrate
2.5.2 Topside of a ship excited by monopoles
2.5.3 Four PIFA antennas on FR4 substrate
2.5.4 Chassis excited by six dipoles
2.6 Conclusion
Acknowledgment
Appendix
Appendix A1 Characteristic modes and bases
A1.1 Generation of characteristic modes (CMs)
A1.2 Generation of CBs
Appendix A2
A2.1 TCM analysis of mobile phone antenna and antenna-plus-platform
3. Wideband L-probe patch antenna / Hau Wah Lai and Kwai Man Luk
3.1 Introduction
3.2 Basic characteristics
3.2.1 L-probe feeding mechanism
3.2.2 M-probe feeding mechanism
3.3 Parametric studies
3.3.1 Performance with different Ph
3.3.2 Performance with different aspect ratio
3.4 Development of L-probe and M-probe fed patch antenna
3.4.1 Circular polarization
3.4.2 Dual polarization
3.4.3 Dual band.
3.4.4 Conformal ground plane
3.4.5 Printed circuit board
3.4.6 Fusion of the L-probe and M-probe in antenna design
3.5 Conclusion
4. Advancements in MIMO antenna systems / Mohammad S. Sharawi
4.1 Introduction
4.2 MIMO antenna system performance metrics
4.3 Major MIMO antenna system design challenges
4.4 MIMO antenna system examples
4.4.1 Mobile phones and handheld devices
4.4.2 Cognitive radio front-ends
4.4.3 USB dongle MIMO implementations
4.4.4 Wireless access point MIMO implementations
4.5 MIMO antenna solutions for 5G-enabled systems
4.5.1 Mobile terminal 5G solutions
4.5.2 Base station 5G solutions
4.6 Conclusions
5. Reconfigurable leaky-wave antennas / Yingjie Jay Guo, Debabrata K. Karmokar, and Trevor S. Bird
5.1 Introduction
5.2 History of LWAs
5.2.1 Basic operating principle
5.2.2 Classification of LWAs
5.3 Passive frequency-scanning LWA structures
5.3.1 One-dimensional (1-D) Fabry-Pe´rot LWA
5.3.2 Composite right/left-handed transmission line and LWA
5.3.3 Half-width microstrip LWA
5.4 Reconfigurable LWAs
5.4.1 1-D FP-reconfigurable LWAs
5.4.2 Two-dimensional (2-D) FP-reconfigurable LWA
5.5 Experimental results
5.5.1 CRLH-based reconfigurable LWA
5.5.2 Reconfigurable half-width microstrip LWA
5.6 Conclusion
6. Reconfigurable high-gain antennas for wireless communications / Yingjie Jay Guo, Pei-Yuan Qin, and Raj Mittra
6.1 Introduction
6.2 Reconfigurable array antennas
6.3 Reconfigurable PRS antennas
6.3.1 Frequency-reconfigurable PRS antenna
6.3.2 Pattern-reconfigurable PRS antenna
6.3.3 Polarization-reconfigurable PRS antenna
6.4 Conclusions
7. Microfluidically reconfigurable antennas / Gokhan Mumcu
7.1 Introduction
7.2 Fabrication and actuation techniques.
7.3 Flexible and stretchable liquid metal antennas
7.4 Frequency-reconfigurable liquid metal antennas
7.5 Reconfigurable antennas using dielectric liquids
7.6 Beam-steerable liquid metal antennas
7.7 Reconfigurable antennas using microfluidically repositionable metallized plates
7.8 Concluding remarks
8. Flexible and wearable antennas / Muhammad M. Tahseen and Ahmed A. Kishk
8.1 Introduction
8.2 Wearable antennas for biomedical applications
8.3 AMC-based flexible wearable antennas
8.4 Inkjet-printed wearable antennas
8.5 Textile-based wearable antennas
8.5.1 Single- and multi-layer multi-Bowtie conformal antennas
8.5.2 Dielectric resonator antennas for wearable application
8.5.3 Wearable artistic antennas for WLAN-band
9. Wearable technology and mobile platform for wearable antennas for human health monitoring / Vijay K. Varadan, Pratyush Rai, Se Chang Oh, Prashanth Shyam Kumar, Mouli Ramasamy, and Robert E. Harbaugh
9.1 Introduction
9.2 Smart textile for health monitoring
9.3 Electrical signals from the brain and heart
9.4 Cardiovascular anatomy and electrophysiology
9.4.1 The dipole theory for ECG
9.4.2 Derivation of ECG from dipole vector
9.5 Monitoring and diagnosis: neurological signal measurements
9.6 Monitoring and diagnosis: cardiological signal measurements of diagnostic value
9.7 Monitoring systems
9.8 Neurological disorder monitoring by wearable wireless nano-bio-textile sensors
9.9 Cardiovascular health monitoring
9.9.1 Hardware system
9.9.2 ECG signal acquisition
9.10 Biofeedback system for therapeutics
9.11 Conclusion
References.
10. Meta-atoms and artificially engineered materials for antenna applications / Ravi Kumar Arya, Shiyu Zhang, Shaileshachandra Pandey, Ashwani Kumar, Yiannis Vardaxoglou, William Whittow, and Raj Mittra
10.1 Introduction
10.2 Lens designs using MTMs
10.3 Lens design using RO
10.4 3D-Printing technique
10.5 Design of artificially engineered materials
10.5.1 Designing higher-permittivity materials from low-permittivity COTS material: method-1
10.5.2 Designing higher-permittivity materials from low-permittivity COTS material: method-2
10.5.3 Designing lower-permittivity materials from high-permittivity COTS material
10.5.4 Designing lower-permittivity materials from high-permittivity 3D-printing material
10.6 Different lens designs
10.6.1 PLA Lens design
10.6.2 DaD lens design
10.6.3 ABS lens design
10.6.4 Comparison of DaD and ABS lenses
10.7 Summary
10.8 Metal-only reflectarray antenna designs using metasurfaces
10.9 Performance enhancement of antenna and array antennas using metasurface superstrates
10.9.1 Example-1
10.9.2 Example-2
10.9.3 Summary
11. Microwave antennas based on metamaterials and metasurfaces / Wen Xuan Tang and Tie Jun Cui
11.1 GRIN MTM lens antennas
11.1.1 MTM flat lens antenna
11.1.2 MTM curved lens antennas
11.2 MTM antennas using transformation optics
11.2.1 MTM flattened reflectors
11.2.2 MTM flattened convex and hyperbolic lenses
11.2.3 MTM Luneburg lens with flattened focal surface
11.3 Metasurface antennas
11.3.1 Holographic metasurfaces for beam scanning
11.3.2 Spoof SPP radiations
11.3.3 Coding metasurfaces
12. Metamaterial-based zero-phase-shift-line loop antennas / Zhi Ning Chen, Xianming Qing, Jin Shi, and Yunjia Zeng
12.1 Introduction
12.2 State-of-the-art ZPSL loop antennas.
12.3 Modeling of zero-phase-shift-line structure
12.3.1 Dispersion analysis of zero-phase-shift-line structure
12.3.2 Design guidelines
12.4 Design and applications
12.4.1 Electrically large zero-phase-shift-line loop antennas for UHF near-field RFID readers
12.4.2 Horizontally polarized omnidirectional antenna for WLAN access points
12.4.3 CP omnidirectional antenna for UHF far-field RFID readers
12.5 Summary
Index.
Notes:
Includes bibliographical references and index.
Description based on print version record.
Description based on publisher supplied metadata and other sources.
ISBN:
1-83724-852-4
1-78561-889-X
OCLC:
1082980771

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