Next-Generation Antennas: Advances and Challenges
- Length: 304 pages
- Edition: 1
- Language: English
- Publisher: Wiley-Scrivener
- Publication Date: 2021-08-03
- ISBN-10: 1119791863
- ISBN-13: 9781119791867
- Sales Rank: #0 (See Top 100 Books)
Antenna design and wireless communication has recently witnessed their fastest growth period ever in history, and these trends are likely to continue for the foreseeable future. Due to recent advances in industrial applications as well as antenna, wireless communication, and 5G technology, we are witnessing a variety of developing and expanding new technologies. Compact and low-cost antennas are increasing the demand for ultra-wide bandwidth in next-generation (5G) wireless communication systems and the Internet of Things (IoT). Enabling the next generation of high-frequency communication, various methods have been introduced to achieve reliable high data rate communication links and enhance the directivity of planar antennas. 5G technology can be used in many applications, such as in smart city applications and in smartphones. This technology can satisfy the fast rise in user and traffic capacity in mobile broadband communications.
Therefore, different planar antennas with intelligent beamforming capability play an important role in these areas. The purpose of this book is to present the advanced technology, developments, and challenges in antennas for next-generation antenna communication systems. This book covers advances in next-generation antenna design and application domain in all related areas. It is a detailed overview of cutting-edge developments and other emerging topics and their applications in all areas of engineering that have achieved great accuracy and performance with the help of the advancement and challenges in next generation antennas.
Whether a refresher for veteran engineers hoping to stay abreast of the latest advances and developing concepts in the field, an introduction to new engineers moving into the field, or a textbook for students and faculty, this groundbreaking new volume is a must-have for any library.
Cover Table of Contents Title Page Copyright Preface 1 Different Types of Microstrip Filters for UWB Communication 1.1 Introduction 1.2 Previous Work 1.3 Conclusions References 2 Design, Isolation Analysis, and Characterization of 2×2/4×4 MIMO Antennas for High-Speed Wireless Applications 2.1 Introduction 2.2 Understanding 2×2 MIMO Antenna Configuration 2.3 Diversity Performance Analysis of 2×2 UWB-MIMO/Dual-Polarization/UWB: Single, Dual, Triple, and Four Notched Bands 2.4 4×4 MIMO Antenna 2.5 Conclusions References 3 Various Antenna Array Designs Using Scilab Software: An Exploratory Study 3.1 Introduction 3.2 Scilab: An Open-Source Software Solution 3.3 Antenna Array Design Using Scilab: Codes and Results 3.4 Conclusions References 4 Conformal Wearable Antenna Design, Implementation and Challenges 4.1 Introduction 4.2 Conformal Antenna 4.3 Characteristics of Conformal Antenna 4.4 Design Methodology - Antenna Modeling 4.5 Wearable Conformal Antenna 4.6 Textile and Cloth Fabric Wearable Antennas 4.7 Design of Liquid Crystalline Polymer (LCP) Based Wearable Antenna 4.8 Result Discussion and Analysis 4.9 Challenges and Future Needs 4.10 Conclusion References 5 Design and Analysis of On-Body Wearable Antenna with AMC Backing for ISM Band Applications 5.1 Introduction 5.2 Design of Star-Shape with AMC Backed Structure 5.3 Discussion of Results of Star-Shaped Antenna with AMC Structure 5.4 On-Body Placement Analysis of Proposed Antenna with AMC Structure 5.5 Transmitting Signal Strength 5.6 Conclusion References 6 Antenna Miniaturization for IoT Applications 6.1 Introduction 6.2 Issues in Antenna Miniaturization 6.3 Antenna for IoT Applications 6.4 Miniaturize Reconfigurable Antenna for IoT 6.5 Conclusion & Future Work References 7 Modified Circular-Shaped Wideband Microstrip Patch Antenna for Wireless Communication Utilities 7.1 Overview of Wireless Communication 7.2 Introduction to Microstrip Patch Antenna 7.3 Literature Review 7.4 Design and Implementation of Projected Antenna 7.5 Results and Discussion 7.6 Parametric Analysis 7.7 Summary References 8 Reconfigurable Antenna for Cognitive Radio System 8.1 Introduction 8.2 Antenna 8.3 Antenna Reconfigurations 8.4 Uses and Drawbacks of Reconfigurable Antenna 8.5 Spectrum Access and Cognitive Radio 8.6 Cognitive Radio 8.7 Spectrum Sensing and Allocation 8.8 Results and Discussion 8.9 Conclusions References 9 Ultra-Wideband Filtering Antenna: Advancement and Challenges 9.1 Introduction 9.2 Ultra-Wideband Filtering Antenna 9.3 Ultra-Wideband Filtering Antenna with Notch Band Characteristic 9.4 Conclusions References 10 UWB and Multiband Reconfigurable Antennas 10.1 Introduction 10.2 Need for Reconfigurable Antennas 10.3 RF PIN Diode and MEMS Switch as Switching Devices 10.4 Triple Notched Band Reconfigurable Antenna 10.5 Tri-Band Reconfigurable Monopole Antenna 10.6 Conclusions References 11 IoT World Communication through Antenna Propagation with Emerging Design Analysis Features 11.1 Introduction 11.2 Design and Parameter Analysis of Multi-Input Multi-Output Antennas 11.3 Measurement Analysis in 3D Pattern with IoT Module 11.4 Comparison of Antenna Design Concerning the IoT Data Transmission 11.5 Conclusions Acknowledgement References 12 Reconfigurable Antennas 12.1 Introduction 12.2 Reconfigurability of Antenna 12.3 Polarization Reconfigurable Antenna (RA) 12.4 Compound Reconfigurable Antennas (RAs) 12.5 Reconfigurable Leaky Wave Antennas 12.6 Reconfigurable Antennas - Applications in Wireless Communication 12.7 Optimization, Control, and Modeling of Reconfigurable Antennas 12.8 Conclusions References 13 Design of Compact Ultra-Wideband (UWB) Antennas for Microwave Imaging Applications 13.1 Introduction 13.2 Microwave Imaging 13.3 Antenna Design Implementation 13.4 Design of a UWB-Based Compact Rectangular Antenna 13.5 Validation of the Miniaturized UWB Antenna with the Human Breast Model Developed 13.6 Conclusions References 14 Joint Transmit and Receive MIMO Beamforming in Multiuser MIMO Communications 14.1 Introduction 14.2 System Model: Proposed Mimo Beamforming Architecture 14.3 Mimo Beamforming Based on Generalized Least Mean (GLM) Algorithm 14.4 Mean and Mean Square Stability of the GLM 14.5 Simulation Results 14.6 Summary References 15 Adaptive Stochastic Gradient Equalizer Design for Multiuser MIMO System 15.1 Introduction 15.2 Related Literature Review 15.3 System Model 15.4 Derivation for the Probability of Error 15.5 Design of Adaptive Equalizer by Minimizing BER 15.6 Simulation Results 15.7 Summary References About the Editors Index End User License Agreement
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