- FUNDAMENTALS OF ANTENNA AND WAVE PROPAGATION PROFESSIONAL
- FUNDAMENTALS OF ANTENNA AND WAVE PROPAGATION FREE
FUNDAMENTALS OF ANTENNA AND WAVE PROPAGATION PROFESSIONAL
Written for professional engineers and students who specialize in antenna, communication and radar systems, this authoritative book provides a thorough introduction to the basic principles of electromagnetic wave propagation of radio. This book is valuable for practitioners and students who specialize in antenna, communication and radar systems, providing complete information to the basic principles of electromagnetic wave propagation of radio frequencies in real-world conditions. Also, to get more familiar with the basic principles of radio waves propagation, some examples are presented. To understand these topics, good knowledge of fields and waves theory, electromagnetic engineering, antenna theory, and statistics and applied mathematics is required.
FUNDAMENTALS OF ANTENNA AND WAVE PROPAGATION FREE
Among various subjects, radiowave equations and polarization, transmission media characteristics and its phenomena, K-factor and Earth equivalent radius, and free space and basic transmission losses are included. This includes a detailed discussion of different propagation phenomena, including reflection, refraction, scattering, diffraction, ducting and frequency dispersion in different media. Radio Wave Propagation Fundamentals is dedicated to present state of the art reviews and research results delivering information of basic principles commonly used in radio waves propagation. Special railway structures such as cuttings, viaducts, and tunnels have a significant impact on propagation characteristics.
Optimization with respect to radio wave propagation will greatly improve the planning of wireless networks for rails. Scene partitioning is also the basis for the upper layer communication network design. Radio wave propagation scene portioning plays a very important role in wireless channel modeling. Understanding the effects of changeable conditions on radio propagation has many practical applications, from selecting frequencies for global shortwave broadcasters, to designing reliable mobile telephone systems, to radio navigation, to operation of radar systems.
Various propagation environments have different path loss and multipath effects, leading to the impossibility of radio wave propagation prediction in different propagation environment with the utilization of the same propagation channel model. Radio propagation environments may introduce multipath effects causing fading and channel time dispersion. When a radio wave leaves the boundary of one medium and enters another, the wave changes direction. Radio waves are subject to the influence of the environment in which they are propagated. Radio propagation is the behavior of radio waves as they travel, or are propagated, from one medium to another, or into different parts of the atmosphere.
This book is valuable for practitioners and students who specialize in antenna, communication and radar systems, providing complete information to the basic principles of electromagnetic wave propagation of radio frequencies in real-world.