Title :
High-resolution angle-of-arrival measurement of the mobile radio channel
Author :
De Jong, Yvo L C ; Herben, Matti H A J
Author_Institution :
Fac. of Electr. Eng., Eindhoven Univ. of Technol., Netherlands
fDate :
11/1/1999 12:00:00 AM
Abstract :
The accurate planning of microcellular mobile radio networks requires a thorough understanding of the mechanisms that govern radio wave propagation in urban environments. Combined measurements of time delays and angles-of-arrival (AoAs), both in azimuth and elevation, of individual multipath contributions are expected to he very helpful in the validation and improvement of existing ray-tracing propagation models. To this end, we have applied the uniform circular array (UCA)-MUSIC angular superresolution algorithm to complex impulse response measurement data obtained from a synthetic uniform circular array. Beamspace processing and forward/backward averaging were applied to cope with strongly correlated signals. The presented experimental results show that our approach is capable of identifying the dominant multipaths in actual mobile propagation environments
Keywords :
UHF radio propagation; antenna arrays; array signal processing; correlation methods; delays; direction-of-arrival estimation; microcellular radio; multipath channels; radio networks; ray tracing; signal classification; signal resolution; telecommunication network planning; transient response; UCA-MUSIC angular superresolution algorithm; UHF; antenna array; azimuth; beamspace processing; correlated signals; elevation; experimental results; forward/backward averaging; high-resolution angle-of-arrival measurement; impulse response measurement data; microcellular mobile radio networks; mobile propagation environments; mobile radio channel; multipath channels; network planning; radio wave propagation; ray-tracing propagation models; synthetic uniform circular array; time delay measurement; uniform circular array; urban environments; Antenna measurements; Azimuth; Delay effects; Dielectric losses; Goniometers; Land mobile radio; Microcell networks; Predictive models; Propagation delay; Time measurement;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
