Title :
Estimation of the scattering radius around a mobile handset using a sub-space technique
Author :
Jami, I. ; Ormondroyd, R.
Author_Institution :
Commun. & Wireless Networks Group, Cranfield Univ., Swindon, UK
Abstract :
There have been a number of attempts to use experimental data to obtain estimates of the scattering radius of scatterers around transmitters in cellular radio systems. This paper presents a new method of estimating the scattering radius using a linear array antenna at the receiver. The method is based on a sub-space technique for estimating the angle of arrival of the received signals. The new method exploits the decorrelation of the received signal across the multiple antenna elements of a linear array antenna to estimate the angular spread. The concept of the new method is developed and its performance is verified for an eight element antenna array using a Monte-Carlo simulation of a DCS1800 system for two different scattering models. One is a uniform disk of scatterers and the other is a random distribution of scatterers
Keywords :
Monte Carlo methods; array signal processing; cellular radio; decorrelation; digital simulation; direction-of-arrival estimation; electromagnetic wave scattering; linear antenna arrays; radio transmitters; radiowave propagation; receiving antennas; signal classification; telephone sets; DCS1800 system; MUSIC sub-space technique; Monte-Carlo simulation; angle of arrival estimation; angular spread estimation; cellular radio systems; decorrelation; experimental data; linear array antenna; mobile handset; multiple antenna elements; performance; radiowave propagation; random scatterers distribution; received signals; receiver; scattering models; scattering radius estimation; transmitters; uniform disk scatterers; Adaptive arrays; Antenna arrays; Decorrelation; Land mobile radio cellular systems; Linear antenna arrays; Mobile handsets; Phased arrays; Receivers; Receiving antennas; Scattering parameters;
Conference_Titel :
EUROCOMM 2000. Information Systems for Enhanced Public Safety and Security. IEEE/AFCEA
Conference_Location :
Munich
Print_ISBN :
0-7803-6323-X
DOI :
10.1109/EURCOM.2000.874787
