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Electric power systems --- Harmonics (Electric waves) --- Mathematical models. --- Mathematics. --- #TELE:ELEN --- Electric waves --- Mathematical models --- Mathematics

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James D. Broesch is a staff engineer for General Atomics, where he is responsible for the design and development of several advanced control systems used on fusion control programs. He also teaches classes in signal processing and hardware design at the University of California-San Diego.·Integrated book/software package allows readers to simulate digital signal processing (DSP) situations and experiment with effects of different DSP techniques.·Gives an applications-oriented approach to DSP instead of a purely mathematical one.·The accompanying CD includes a DSP ""calculator""

Signal processing --- Signal theory (Telecommunication) --- Electric signal theory --- Electric waves --- Signal detection --- Telecommunication --- Digital signal processing --- Digital communications --- Digital electronics --- Digital techniques.

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Recent advances in our understanding of complex composite media, especially chiral media for microwave applications, suggest the feasibility of creating novel materials with unusual properties and the possibility of constructing new microwave devices using such materials. The emphasis of the book is on bi-anisotropic materials, whose most interesting feature is the magnetoelectric interaction of the fields. The materials are expected to supply useful applications in radar technology, aerospace, microwave engineering, manufacturing technology, etc., such as absorbers for low-reflectivity shields, reciprocal phase shifters, polarization transformers. The first experiments with artificial bi-anisotropic media have been successfully carried out.

Engineering. --- Physics. --- Electrical engineering. --- Microwaves. --- Optical engineering. --- Materials science. --- Microwaves, RF and Optical Engineering. --- Characterization and Evaluation of Materials. --- Electrical Engineering. --- Theoretical, Mathematical and Computational Physics. --- Materials --- Electromagnetism --- Electric properties --- Magnetic properties --- Congresses --- Mathematical physics. --- Physical mathematics --- Physics --- Electric engineering --- Engineering --- Material science --- Physical sciences --- Mechanical engineering --- Hertzian waves --- Electric waves --- Electromagnetic waves --- Geomagnetic micropulsations --- Radio waves --- Shortwave radio --- Mathematics --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Electromagnetism. --- Electromagnetic wave scattering

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The fundamentals of microwave and wireless communications technology are critical to the telecommunications and data acquisitions fields. Because many of the new developments involve commonly available equipment such as cellular telephones and satellite dishes, technicians as well as engineers must learn the basics of the technology.Microwave & Wireless Communications Technology offers a practical, device-based approach to the study of microwave and wireless communications. Student objectives, numerous questions and problems, and end-of-chapter summaries reinforce the theory in each

Microwave communication systems. --- Microwaves. Microwave communication systems. Wireless communication systems. --- Wireless communication systems. --- Microwaves --- Microwave communication systems --- Wireless communication systems --- Electrical Engineering --- Electrical & Computer Engineering --- Engineering & Applied Sciences --- Microwaves. --- Communication systems, Wireless --- Wireless data communication systems --- Wireless information networks --- Wireless telecommunication systems --- Hertzian waves --- Telecommunication systems --- Intercommunication systems --- Microwave devices --- Line-of-sight radio links --- Electric waves --- Electromagnetic waves --- Geomagnetic micropulsations --- Radio waves --- Shortwave radio --- Comunicació sense fil, Sistemes de --- Sistemes de comunicació de microones

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Digital terrestrial television broadcasting (DTTB, also known as Digital Terrestrial Television, DTT) is one of the most important ways to deliver digital TV signals over the air in the VHF/UHF band, and is now under massive deployment worldwide. Written by a team of experts, this book will serve as a comprehensive guide for engineering students and practicing professionals in this area Digital Terrestrial Television Broadcasting covers the fundamentals on channel coding and modulation technologies with emphasis on those used in DTTB systems, from the general concept to the detailed analysis, receiver design and implementation. It introduces the Single Frequency Network (SFN) as well as the multiple-input-multiple-output concept for DTTB network planning and the measurement (including methodology and performance) of DTTB systems using Digital Terrestrial/Television Multimedia Broadcasting (DTMB) system as an example before introducing various mobile multimedia DTV systems based on DTTB networks. Important features of this book include: . General techniques for digital terrestrial TV broadcasting receiver design such as carrier synchronization, timing recovery, channel estimation, equalization, decoding, and de-interleaving with concrete implementation details. Key topics for the understanding of DTTV systems: frame structure, modulation, error correction, and channel coding. An introduction to the latest announced systems such as ATSC M/H and DVB-NGH The editors of this book are leading experts in the field and are actively involved in the Chinese national standard on the digital terrestrial television broadcasting activities. Jian Song is a Professor and Director of DTV Technology R&D Center at Tsinghua University (China). He is the associate editor of IEEE Transactions on Broadcasting, an administrative committee member of IEEE Broadcast Technology Society, and the vice chair of Working Party 6A of International Telecommunication Union. Dr. Song leads the efforts of promoting Chinese DTMB standard worldwide. Zhixing Yang is a Professor at Tsinghua University (China) and Deputy Director of the State Key Laboratory on Microwave and Digital Communications. Professor Yang led the research and development efforts for the Chinese DTMB Standard. Jun Wang is an Associate Professor at Tsinghua University (China), and is actively involved in the technical activities for Chinese DTMB Standard as the standard drafting committee member selected by the Standardization Administration of China.

Telecommunication technology --- Digital television. --- Television --- Transmitters and transmission. --- Electrical engineering. --- Signal processing. --- Image processing. --- Speech processing systems. --- Microwaves. --- Optical engineering. --- Communications Engineering, Networks. --- Signal, Image and Speech Processing. --- Microwaves, RF and Optical Engineering. --- Mechanical engineering --- Hertzian waves --- Electric waves --- Electromagnetic waves --- Geomagnetic micropulsations --- Radio waves --- Shortwave radio --- Computational linguistics --- Electronic systems --- Information theory --- Modulation theory --- Oral communication --- Speech --- Telecommunication --- Singing voice synthesizers --- Pictorial data processing --- Picture processing --- Processing, Image --- Imaging systems --- Optical data processing --- Processing, Signal --- Information measurement --- Signal theory (Telecommunication) --- Electric engineering --- Engineering --- Digital communications --- Digital media