Title :
Delay processing vs. per survivor techniques for equalization with fading channels
Author :
Gao, Shan ; Collings, Iain B.
Author_Institution :
Dept. of Electr. & Electron. Eng., Melbourne Univ., Parkville, Vic., Australia
Abstract :
This paper analyses the performance of equalizers for unknown fading channels. We compare two versions of a delay processing equalizer, with a per-survivor equalizer, and with a Viterbi algorithm with known channel information. New adaptive algorithms are developed which adjust the decision delay based on the trellis path metric ratios and the path merging lag. The analysis focuses on the trade-off between computational complexity and achievable bit error rate. The crucial factors include fading rate, noise, equalization trellis size, and accuracy of channel estimates. Simulations are used to determine the effect of each of these factors on algorithm performance.
Keywords :
adaptive equalisers; adaptive signal processing; computational complexity; delays; digital radio; error statistics; fading channels; land mobile radio; mobile satellite communication; multipath channels; noise; LEO satellites; Viterbi algorithm; adaptive algorithms; algorithm performance; bit error rate; channel estimates accuracy; channel information; computational complexity; delay processing equalizer; digital mobile communication systems; equalization trellis size; equalizer performance; fading channels; fading rate; fast-fading channels; high speed trains; low Earth orbit satellites; multipath channel; noise; path merging lag; per survivor techniques; per-survivor equalizer; simulations; trellis path metric ratios; Adaptive algorithm; Bit error rate; Computational complexity; Computational modeling; Delay; Equalizers; Fading; Merging; Performance analysis; Viterbi algorithm;
Conference_Titel :
Global Telecommunications Conference, 1999. GLOBECOM '99
Print_ISBN :
0-7803-5796-5
DOI :
10.1109/GLOCOM.1999.831714
