Abstract :
The indoor radio channel provides the essential physical transmission medium for the implementation of radio LANs. We consider two alternative techniques for the mitigation of intersymbol interference due to multipath on indoor radio channels: the use of narrower signalling pulses (duty cycle less than 100%), and the use of FEC coding. Using the GWSSUS channel model, and assuming an exponential power-delay profile, the effect of intersymbol interference on the irreducible BER is calculated for both techniques, both for Rayleigh fading, and for a non-fading line-of-sight path. In the non-fading case, narrowing the signalling pulse is more effective than coding, but less robust in the presence of thermal noise, while in the fading case coding is more effective. The appropriate technique allows a maximum data rate, normalised to 1/(delay spread), of 0.62 in the non-fading case and 0.32 in Rayleigh fading, for irreducible BER 10-6
Keywords :
Rayleigh channels; coding errors; delays; error correction codes; error statistics; fading; forward error correction; indoor radio; intersymbol interference; modulation; multipath channels; telecommunication signalling; thermal noise; wireless LAN; FEC coding; GWSSUS channel model; Rayleigh fading; data rate; duty cycle; exponential power-delay profile; indoor radio channels; intersymbol interference; irreducible BER; multilevel coding; multilevel modulation; multipath; non-fading line-of-sight path; radio LANs; signalling pulses; thermal noise;
