Title :
DSP implementation of a wideband frequency selective fading simulator
Author :
Cullen, P.J. ; Fannin, P.C. ; Swords, S.S.
Author_Institution :
Trinity College Dublin, Ireland
Abstract :
The design and implementation of a wideband digital frequency selective fading simulator is presented. The system is modular with each module catering for one delayed faded signal path. The multipath delay is variable between 0 and 204 microseconds. Associated with each path is a complex Gaussian noise source which is implemented on a TMS320-20 digital signal processor. The power spectra and the cross power spectra of the complex noise may be set by the user. The Doppler shift range is 0 to 300 Hz. The dynamic range of the simulator is 40 dB and each signal path may be attenuated within this range to form the required power delay profile. The mean signal strength can be modulated by a lognormal process is simulate slow fading. The bandwidth is 5 MHz. The simulator accepts an RF input an provides and RF output. The simulator configuration is completely under the control of a personal computer
Keywords :
digital simulation; fading; mobile radio systems; radiowave propagation; random noise; telecommunications computing; 0 to 204 mus; 0 to 300 Hz; 5 MHz; DSP; Doppler shift range; RF input; RF output; TMS320-20 digital signal processor; communication channel; complex Gaussian noise source; complex noise; cross power spectra; delayed faded signal path; digital simulator; dynamic range; lognormal process; mobile radio; modular system; multipath delay; personal computer control; power delay profile; power spectra; signal strength; slow fading; wideband frequency selective fading simulator;
Conference_Titel :
Antennas and Propagation, 1991. ICAP 91., Seventh International Conference on (IEE)
Conference_Location :
York
Print_ISBN :
0-85296-508-7
