Title :
Propagation mechanisms in microcell and indoor environments
Author :
Dersch, Ulrich ; Zollinger, Ernst
Author_Institution :
ASCOM Tech Ltd., Maegenwil, Switzerland
fDate :
11/1/1994 12:00:00 AM
Abstract :
For the investigation of propagation mechanisms in microcell and indoor environments, theoretical model calculations are compared to wide-band measurements. The theoretical principles of the elementary process of scattering from a 2-D surface, such as a wall, are described. A ray-tracing algorithm based on this is employed to describe propagation in 3-D structures, like rectangular rooms or street canyons. Space-dependent complex impulse responses are calculated. These are compared to the results of high resolution measurements of the space-dependent complex impulse response in the same environments. If conducted in an appropriate manner, the measurements yield very dense information about the propagation in the measured environment. It is demonstrated that the concept of the scattering function is useful for microcell and indoor environments. Comparisons between the theoretical and measured wide-band results show a high degree of agreement
Keywords :
cellular radio; electromagnetic wave scattering; indoor radio; land mobile radio; radiowave propagation; ray tracing; transient response; 2-D surface; 3-D structures; high resolution measurements; indoor environments; microcell environments; propagation mechanisms; ray-tracing algorithm; rectangular rooms; scattering function; space-dependent complex impulse responses; street canyons; theoretical model calculations; wall; wide-band measurements; Electromagnetic measurements; Electromagnetic propagation; Electromagnetic scattering; Helium; Indoor environments; Microcell networks; Radio communication; Ray tracing; Reflection; Wideband;
Journal_Title :
Vehicular Technology, IEEE Transactions on
