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This book provides an overview of the most common techniques and methods employed in wireless fields. Conversely, it delves into a detailed study of millimeter-wave (mm-wave) and terahertz (THz) systems, with a focus on various schemes for transmitting and receiving electromagnetic waves. The title comprehensively reviews key elements associated with wireless communications, emphasizing the generation and detection of mm and THz waves. It explores specifications, innovations in new materials for high-speed terahertz and millimeter-wave technology, and considerations related to components and system aspects. Additionally, the book explores the integration of Machine Learning (ML) and Artificial Intelligence (AI) in smart communication systems, along with potential applications for advanced wireless communications. Furthermore, it concentrates on recent advances and diverse research prospects in Next-Generation Wireless Communication Technologies. The book also seeks theoretical, methodological, well-established, and validated empirical work addressing these various topics.
This book explores recent and upcoming technological breakthroughs within the optical, millimeter-wave (mm-wave), and terahertz (THz) frequency ranges. Encompassing a substantial portion of the electromagnetic spectrum, the scope extends up to the conclusion of the near-IR spectrum (i.e., 450 THz). Notably, this frequency span captures a crucial transition zone in technology, marking the shift from electronics to photonics. The focus of the book is on recent advancements and various research challenges pertaining to materials, antennas, detectors, passive circuits, as well as advanced signal processing algorithms tailored for optical, mm-wave, and THz frequency bands. Catering to a broad readership, the book addresses individuals ranging from those with a foundational understanding of basic science to technological experts and research scholars. This comprehensive resource serves as a valuable guide to the diverse aspects of technological evolution in the specified frequency spectrums, making it relevant for a wide audience, including both novices and seasoned professionals.
Part I Millimeter Wave (mm-Wave) Technology and Its Applications
1 Compact MIMO Antenna Design with Enhanced Isolation for mm-Wave Applications
2 Security Threats and Privacy Challenges in Millimeter-Wave Communications
3 The Performance Analysis on Channel Estimation in Millimeter-Wave Communication and Their Challenges
4 Innovative mm-Wave Compact Dual-Port MIMO Antenna with Inherent Wideband Isolation at 28 GHz for 5G Wireless Networks
5 Design of Ka-Band Power Amplifier and Low-Noise Amplifier for 5G Communication Systems
6 Advanced MIMO Antenna Design with Defected Ground Structure for 5G NR (N75 and N77) Applications
7 Beamforming Array Failure Correction for mm-Wave Synthetic Aperture Radar Applications
8 A Novel, Compact, Broadband Band-Stop Filter for Rejecting 5G Millimeter-Wave Communications
9 A Compact Two-Port Semi-flexible Dual-Band Circularly Polarized MIMO Antenna Structure for Millimeter-Wave 26/31 GHz 5G Applications
10 Extension of Indoor MmW Link Radio Coverage in Non-line-of-Sight Conditions
11 Design and Analysis of Conformal Millimeter Wave Antenna for Next Generation Wireless Communication
12 H-Shaped Resonators for UWB Bandpass Filter for 5G Applications
13 Spatially Correlated Channels Investigation: Estimation and Hardening in Millimeter-Wave Massive MIMO Systems
Part II Terahertz Technology and Its Applications
14 THz Antennas: Applications and Challenges—A Review
15 Fractal MIMO Antenna Design for High-Frequency Terahertz Applications
16 Evaluating the Performance of a Transparent MIMO Nano-Antenna for Wireless Health: Addressing Terahertz Challenges in Integrated Medical Device Networks
17 Design of a Broadband (0.84–1.2 THz) Microstrip Patch Antenna Utilizing Graphene Material and Polyimide Substrate for Terahertz 6G Applications
18 Investigation on LP-OFDM for THz Application
19 Terahertz Technology and Its Importance in the Field of Biomedical Application: A Review
20 Design and Analysis of Frequency Selective Surface for Gain Enhancement in Terahertz Applications
21 Terahertz Waves in Biomedicine: Pioneering Imaging and Sensing for Healthcare Revolution
22 The Analog Design of a Voltage Generator in 180 nm CMOS Technology
23 Satellite and Terrestrial Mobile Integration-Potential and Open Issues for 5G and Terahertz Communication
24 Design of an Image Frequency Rejection Mixer for the Terahertz Band
25 Spatially Efficient MIMO Antenna Design Using Photonic Crystal and Polyimide Substrate
26 Modeling Terahertz Patch Antenna Using the Wave Concept Iterative Process in Frequency Range 6–15 THz
27 Study and Design of a Printed Microstrip Antenna in the Terahertz Band
Part III Advances in Materials for Optical Spectrum Applications
28 Graphene-Based Nanomaterials for Photosensitive Spectrum Applications: An Inclusive Review
29 Conducting Polymer Coated Nanomaterial: An Advanced Material for Optoelectronic Devices
30 Machine-Learning-Enhanced Polarization Splitter in Silicon-Integrated Dual-Core Photonic Crystal Fiber
31 Progress in Birefringent Material-Based Achromatic Phase Modulators
32 A Highly Stable Perfect Metamaterial Absorber Based on the Plasmonic Effect of Metamaterial Nano-cells for Optical Spectrum Applications
Part IV Recent Developments in Optical Wireless Communication Technology
33 Video Encryption Using Diffraction Grating and QR Code in Optical Frequency Domain
33 Video Encryption Using Diffraction Grating and QR Code in Optical Frequency Domain
34 All-Optical Binary Decrementer Using Terahertz Optical Asymmetric Demultiplexer Switches
35 Software Defined Optical Wireless Network with AI
36 Enhancing Optical MIMO System Performance Through Optical Multiplexing and Amplification
37 Fostering Advanced Optical Wireless Communication: Approaches for Addressing 5G/6G, IoT, Industry 4.0, and WLANs