Radio Wave Propagation for Telecommunication Applications (Signals and Communication Technology)

Radio Wave Propagation for Telecommunication Applications (Signals and Communication Technology)


Yazar Hervé Sizun
Yayınevi Springer
ISBN 9783540407584
Baskı yılı 2004
Sayfa sayısı 440
Ağırlık 0.78 kg
Edisyon 1
Stok durumu Tükendi   

The first radio links, wireless telegraphy, were established at the beginnings of the twentieth century by Marconi, who drew upon the theory developed by Maxwell and upon the experimental researches conducted by Hertz. In France, such renown scientists, mathematicians, physicists and experimenters as Poincare, Blondel and the General Ferrie played a crucial role in the development of radiocommunications, more particularly through theoretical and experimental researches which contributed to a better understanding of the different propagation media. Following the Second World War, the researchers and engineers of the newly created Centre National dEtudes des Telecommunications (CNET), among whom may be mentioned Jean Voge, Francois du Castel, Andre Spizzichino or Lucien Boithias, made decisive contributions to the understanding of the propagation of radio waves, in particular in the context of their application to telecommunications. Although the CNET has now become France Telecom Recherche & Developpement, the present book is in keeping with this approach, which has been going on for more than half a century. By providing the reader with some of the most recent researches in this field, Herve Sizun offers here an essential complement to the work by Lucien Boithias Radiowave Propagation, first published in 1983 in the Collection Technique et Scientifique des Telecommunications, and published in an English version in 1987 by McGraw- Hill.
1 Introduction to the propagation of radio waves 1
2 The earths atmosphere 13
3 Electromagnetic waves and propagation characteristics 35
4 Ionospheric links 69
5 Terrestrial fixed links 93
6 Satellite links 153
7 Mobile radio links 175
App. A The sun and the solar activity 233
App. B Microphysical properties of hydrometeors 247
App. C The frequency spectrum 257
App. D Cross-polarisation induced by the atmosphere 271
App. E Fresnel equations 281
App. F Ionospheric and geomagnetic disturbances associated with solar events 287
App. G Investigation methods of the ionosphere 307
App. H The terrestrial magnetic field and the magnetic indexes 313
App. I Rain attenuation 319
App. J Vegetation attenuation 325
App. K Diffraction models 345
App. L Mobile radio measurements 369
App. M Directions of arrival 375
App. N Geographical databases 391
App. O Determination of the electromagnetic field after interaction with structures 403