Error analysis of a multi-step prediction based blind equalizer

Mannerkoski, J., Koivunen, V.

Error analysis of a multi-step prediction based blind equalizer
Blind equalization is used to compensate the inter-symbol interference caused by a communication channel without using any known training sequences. For many practical channel types, a suitable delay at the output of the equalizer allows for achieving a small estimation error. Blind equalizers may be implemented with linear prediction- \linebreak error filters (PEF), but the delay cannot be controlled with one-step predictors. Consequently, multi-step prediction has been suggested as a solution to the problem. We consider the effects of additive noise at the output of the multi-step PEF. An analytical error bound for a PEF-based blind zero-forcing (ZF) equalizer in the presence of noise is derived. The obtained results are verified with simulations.