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LAPC 2014, celebrating its 10 year anniversary, covers all topics related to the fields of antennas and propagation Topics of interest include, but are not limited to Antenna design & theory Indoor, outdoor and ionospheric propagation Filters, phase shifters, switches, feeds and matching networks for antennas Biomedical applications of antennas and Specific Absorption Rate Metamaterials, Electromagnetic bandgap materials & Frequency selective surfaces Computational and numerical techniques antenna measurements and techniques near fields and coupling Energy harvesting On body antennas and channels Small, mobile, reconfigurable, vehicular, smart, dielectric resonator, array, multi band, RFID antennas Emerging antenna & propagation trends.

Radio wave propagation

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Radio wave propagation

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The physical properties of the ionized layer in the Earth's upper atmosphere enable us to use it to support an increasing range of communications applications. This book presents a modern treatment of the physics and phenomena of the high latitude upper atmosphere and the morphology of radio propagation in the auroral and polar regions. Chapters cover the basics of radio propagation and the use of radio techniques in ionospheric studies. Many investigations of high latitude radio propagation have previously only been published in Conference Proceedings and organizational reports. This book includes many examples of the behavior of quiet and disturbed high latitude HF propagation. Ample cross-referencing, chapter summaries and reference lists make this book an invaluable aid for graduate students, ionospheric physicists and radio engineers.

Ionospheric radio wave propagation. --- Radio meteorology --- Radio wave propagation

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This comprehensive guide helps readers understand the theory and techniques needed to analyze and model radio wave propagation in complex environments. All of the essential topics are covered, from the fundamental concepts of radio systems, to complex propagation phenomena. These topics include diffraction, ray tracing, scattering, atmospheric ducting, ionospheric ducting, scintillation, and propagation through both urban and non-urban environments. Emphasis is placed on practical procedures, with detailed discussion of numerical and mathematical methods providing readers with the necessary skills to build their own propagation models and develop their own techniques. MATLAB functions illustrating key modeling ideas are provided online. This is an invaluable resource for anyone wanting to use propagation models to understand the performance of radio systems for navigation, radar, communications, or broadcasting.

Radio wave propagation. --- Radio wave propagation --- Electromagnetic waves. --- Mathematical models.

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Ionospheric radio wave propagation --- Ionospheric radio wave propagation