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…mehr
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.
Dr. Mohammed El Ghzaoui received the PhD degree in Transmission and Data Processing from Sidi Mohammed ben Abdellah University, Morocco in 2012. From 2013 to 2020, he was Professor at Moulay Ismail University. Since 2021, he is professor at Sidi Mohamed Ben Abdlah university. His current research interests include: Multiple Input Multiple Output (MIMO), Orthogonal Frequency Division Multiplexing (OFDM) modulation, Radio Frequency identification, antennas, power line communication (PLC), space-time coding, wireless communication, THz communication system, THz sources design, THz pulse shaping; pulse modulation; Multi Band On Off Keying; THz channel Modeling, 5G applications. He has published more than 60 research articles and several book chapters and also he has edited the book entitled "Terahertz Wireless Communication Components and System Technologies", Published by Springer in 2022. Dr. Sudipta Das is an associate professor at IMPS College of Engineeringand Technology in West Bengal, India, with over 13 years of teaching and ten years of research experience. His expertise lies in designing microstrip patch antennas for microwave, mm-wave, and THz communication applications. His research interests encompass various areas such as defected ground structures, meta-material-based devices, microstrip filters, couplers, diplexer designs, flexible antennas, MIMO antennas, RFID, graphene-based devices, THz absorbers, THz polarizers, optical nano-antennas, and graphene materials-based devices for optical communication. Dr. Das has authored a book on 'Microstrip Filter Design' and edited four books on topics including advances in terahertz technology, terahertz wireless communication components, terahertz devices, circuits, and systems, and recent advances in graphene nano-photonics. He has contributed 175 research articles to reputable international journals and conferences, along with 26 book chapters. He has been conferred with "Outstandingteacher in Electronics & Communication Engineering" award by Global Outreach Research and Education Summit Awards, in the year 2019. Dr. Varakumari Samudrala is currently working as an Associate Professor in the Department of Electronics and Communication Engineering at NRI Institute of Technology, Vijayawada, Andhra Pradesh India. She is having 13 years' of teaching and 4 years of industry experience and 6 years of Research experience. She has contributed more than 45 research articles in various peer reviewed international journals and conferences of repute. Her research interests are Microstrip Antennas for microwave, mm-wave and THz communication systems. Presently she is working on the design and development on MIMO for 5G and next generation communication applications. she has contributed several book chapters. She is associated with different international journals as a reviewer. She has been conferred with "Best teacher Award in Electronics & Communication Engineering" award by Koneru Lakshmaih Education Foundation in 2016. Dr. Nageswara Rao Medikondu is currently working as an Associate Professor in the School of Mechanical and Civil Sciences at K L E F Deemed to be University, Vijayawada, Andhra Pradesh India. He is having 13 years' of teaching and 3 years of industry experience and 8 years of Research experience. He has contributed more than 60 research articles in various peer reviewed international journals and conferences of repute. His research interests are artificial intelligence, computing techniques, optimization tools for advanced communication technology and Engineering problems. He has contributed several book chapters. He has Published 14 Design patents. He is handling one DST-SERB project worth of 30 Lakhs in the Area of Artificial intelligence for advanced applications. He is currently supervising 8 PhD scholars. He is associated with different international journals as a reviewer.
Inhaltsangabe
1. Wave-form Communication Systems Towards 6G and Beyond Mahmoud MEHDI and Lamiae Talha.- 2 Machine Learning Approaches for next wireless system Mohammed EL GHZAOUI.- 3. Performance evaluation of Index modulation in 5G Laamiri Mohammed.- 4. Issues Related to the Fabrication of SiC-Based Millimeter-Wave and Terahertz Sources and Detectors Hiroaki Satoh.- 5. Future of Semiconducting Diamond Based Millimeter-Wave and Terahertz SourcesHiroshi Inokawa.- 6. Elaboration and study of MIMO system for 5G application Abdelhafid ES-SAQY, Mohammed FATTAH, Said MAZER, Mahmoud MEHDI.- 7. Future of Si as the Base Material of Terahertz DevicesYiming Zhu.- 8. Terahertz wave source design for high-speed wireless communication systems Aghoutnaebadrddine.- 9. Material Selection, Micromachining and Measurements of Wireless Waveguide Components Rakesh Bhardwaj.- 10.Material Systems for Realizing Multi-Quantum Well Terahertz DetectorsAlexander Benz.- 11. Sub-THz Antenna for High Data Rate Radio Communication Systems Bilal Ghoutane and EL FaylaliHanan.- 12. Terahertz Photodetectors Based on 2-D MaterialsZongxiao Wu.- 13Terahertz Detectors Based on Carbon and Graphene Quantum DotsA. Rogalski.- 14. Design of a photonic crystal bandgap (PBG) antenna for THz Applications Noor elhoudanasri.- 15. Radio propagation channel analysis inside buildings at THz frequencies Sudipta Das.
1. Wave-form Communication Systems Towards 6G and Beyond Mahmoud MEHDI and Lamiae Talha.- 2 Machine Learning Approaches for next wireless system Mohammed EL GHZAOUI.- 3. Performance evaluation of Index modulation in 5G Laamiri Mohammed.- 4. Issues Related to the Fabrication of SiC-Based Millimeter-Wave and Terahertz Sources and Detectors Hiroaki Satoh.- 5. Future of Semiconducting Diamond Based Millimeter-Wave and Terahertz Sources Hiroshi Inokawa.- 6. Elaboration and study of MIMO system for 5G application Abdelhafid ES-SAQY, Mohammed FATTAH, Said MAZER, Mahmoud MEHDI.- 7. Future of Si as the Base Material of Terahertz Devices Yiming Zhu.- 8. Terahertz wave source design for high-speed wireless communication systems Aghoutnaebadrddine.- 9. Material Selection, Micromachining and Measurements of Wireless Waveguide Components Rakesh Bhardwaj.- 10.Material Systems for Realizing Multi-Quantum Well Terahertz Detectors Alexander Benz.- 11. Sub-THz Antenna for High Data Rate Radio Communication Systems Bilal Ghoutane and EL FaylaliHanan.- 12. Terahertz Photodetectors Based on 2-D Materials Zongxiao Wu.- 13 Terahertz Detectors Based on Carbon and Graphene Quantum Dots A. Rogalski.- 14. Design of a photonic crystal bandgap (PBG) antenna for THz Applications Noor elhoudanasri.- 15. Radio propagation channel analysis inside buildings at THz frequencies Sudipta Das.
1. Wave-form Communication Systems Towards 6G and Beyond Mahmoud MEHDI and Lamiae Talha.- 2 Machine Learning Approaches for next wireless system Mohammed EL GHZAOUI.- 3. Performance evaluation of Index modulation in 5G Laamiri Mohammed.- 4. Issues Related to the Fabrication of SiC-Based Millimeter-Wave and Terahertz Sources and Detectors Hiroaki Satoh.- 5. Future of Semiconducting Diamond Based Millimeter-Wave and Terahertz SourcesHiroshi Inokawa.- 6. Elaboration and study of MIMO system for 5G application Abdelhafid ES-SAQY, Mohammed FATTAH, Said MAZER, Mahmoud MEHDI.- 7. Future of Si as the Base Material of Terahertz DevicesYiming Zhu.- 8. Terahertz wave source design for high-speed wireless communication systems Aghoutnaebadrddine.- 9. Material Selection, Micromachining and Measurements of Wireless Waveguide Components Rakesh Bhardwaj.- 10.Material Systems for Realizing Multi-Quantum Well Terahertz DetectorsAlexander Benz.- 11. Sub-THz Antenna for High Data Rate Radio Communication Systems Bilal Ghoutane and EL FaylaliHanan.- 12. Terahertz Photodetectors Based on 2-D MaterialsZongxiao Wu.- 13Terahertz Detectors Based on Carbon and Graphene Quantum DotsA. Rogalski.- 14. Design of a photonic crystal bandgap (PBG) antenna for THz Applications Noor elhoudanasri.- 15. Radio propagation channel analysis inside buildings at THz frequencies Sudipta Das.
1. Wave-form Communication Systems Towards 6G and Beyond Mahmoud MEHDI and Lamiae Talha.- 2 Machine Learning Approaches for next wireless system Mohammed EL GHZAOUI.- 3. Performance evaluation of Index modulation in 5G Laamiri Mohammed.- 4. Issues Related to the Fabrication of SiC-Based Millimeter-Wave and Terahertz Sources and Detectors Hiroaki Satoh.- 5. Future of Semiconducting Diamond Based Millimeter-Wave and Terahertz Sources Hiroshi Inokawa.- 6. Elaboration and study of MIMO system for 5G application Abdelhafid ES-SAQY, Mohammed FATTAH, Said MAZER, Mahmoud MEHDI.- 7. Future of Si as the Base Material of Terahertz Devices Yiming Zhu.- 8. Terahertz wave source design for high-speed wireless communication systems Aghoutnaebadrddine.- 9. Material Selection, Micromachining and Measurements of Wireless Waveguide Components Rakesh Bhardwaj.- 10.Material Systems for Realizing Multi-Quantum Well Terahertz Detectors Alexander Benz.- 11. Sub-THz Antenna for High Data Rate Radio Communication Systems Bilal Ghoutane and EL FaylaliHanan.- 12. Terahertz Photodetectors Based on 2-D Materials Zongxiao Wu.- 13 Terahertz Detectors Based on Carbon and Graphene Quantum Dots A. Rogalski.- 14. Design of a photonic crystal bandgap (PBG) antenna for THz Applications Noor elhoudanasri.- 15. Radio propagation channel analysis inside buildings at THz frequencies Sudipta Das.
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