Title :
Adaptive DFE with regularization for indoor wireless data communications
Author :
Lee, Yumin ; Cox, Donald C.
Author_Institution :
Stanford Univ., CA, USA
Abstract :
Recursive least-squares adaptive decision-feedback equalizers (DFE) can be classified into the direct adaptation (DA) and channel-estimation-based adaptation (CEBA) approaches. The CEBA provides better performance than DA when the channel length is known exactly. However, for wireless channels, the channel length is a random unknown quantity. We evaluate the performance of the DA and CEBA DFE without assuming knowledge of the channel length. We find that the DA DFE is more robust with respect to delay-spread variations than the CEBA DFE. We also use a regularization technique for the fractionally-spaced CEBA DFE, which achieves a gain as large as 6 dB. Since we did not assume knowledge of the channel length, these results apply for wireless communication systems
Keywords :
adaptive equalisers; data communication; decision feedback equalisers; delays; fading; indoor radio; intersymbol interference; least squares approximations; multipath channels; parameter estimation; recursive estimation; signal sampling; adaptive DFE; channel estimation based adaptation; channel length; delay-spread variations; direct adaptation; fractionally-spaced CEBA DFE; gain; indoor wireless channel; indoor wireless data communications; intersymbol interference; multipath fading; performance evaluation; recursive least-squares; regularization; signal samples; wireless communication systems; Baseband; Data communication; Decision feedback equalizers; Fading; Power system modeling; Pulse modulation; Quadrature phase shift keying; Resonance light scattering; Robustness; Wireless communication;
Conference_Titel :
Global Telecommunications Conference, 1997. GLOBECOM '97., IEEE
Conference_Location :
Phoenix, AZ
Print_ISBN :
0-7803-4198-8
DOI :
10.1109/GLOCOM.1997.632510
