Millimeter Wave and Terahertz Devices for 5G and 6G systems
Modern Design Aspects and Optimization
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Beschreibung
This book delves into wireless communication, focusing on 5G and 6G applications, mm and THz wave generation, material innovations, machine learning integration, and applications. It covers computational methods for optimizing mm-wave and THz devices.
With the crowded microwave spectrum, mm-wave and THz frequencies are ideal for next-generation applications. 5G technology enhances data speeds, reduces delays, and minimizes energy use. While 5G uses MIMO and mm-wave, the THz band offers more spectrum for 6G, promising higher data rates.
THz technology is used in wireless communications, remote sensing, and chemical analysis. This book is a valuable resource for THz technologists, covering research trends, computational methods, and topics like THz passive circuit modeling, mm-wave device simulation, and graphene applications in 6G.
This book explores wireless communication elements, focusing on mm and THz wave generation, specifications, material innovations, machine learning integration, and applications. Computational methods like genetic algorithms and artificial neural networks optimize mm-wave and THz devices.
The microwave spectrum is often crowded, making millimeter (mm-wave) and terahertz frequencies the preferred choice for next-generation high-end applications. Millimeter-wave (mm-Wave) fifth-generation (5G) communication technology addresses reduced time delays, increased data transmission speeds, and minimized energy consumption, crucial for diverse user devices.
While 5G networks advance with Multiple-Input Multiple-Output (MIMO) multiplexing and mm-wave communications, the THz band offers even greater spectrum availability for systems like 6G. The surge in THz systems research aims to meet expanding technological demands, promising unprecedented data rates.
THz-wave technology finds applications in wireless communications, remote sensing, and chemical analysis. For THz-wave technologists, this book is a valuable resource, covering research trends and demands, along with computational/simulation methods.
Topics include Terahertz passive circuit modeling, mm-wave device simulation, Terahertz metrology, data transmission via mm-wave and THz signals, high-speed channel modeling, antenna design, graphene applications in 6G devices, THz absorbers, and sensors.
Offers a comprehensive array of computational methods designed to optimize the performance of mm-wave and THz devices Provides insights of diverse millimeter-wave and THz devices essential for advanced 5G and 6G communication systems Presents a clear perspective into the latest advancements of new materials for 5G and 6G wireless technology
Autor*in
K. Vasu Babu
Themen in »Millimeter Wave and Terahertz Devices for 5G and 6G systems«
Computational Tools Frequency Selective Surface Graphene Machine learning 5G 6G Artificial Neural Networks mm-wave Terahertz (THz) Biomedical Applications High speed communication Metamaterial MIMO system Nanodevices THz devices for plasmonics application