We consider a time varying wireless fading channel, equalized by an LMS linear equalizer. We study how well this equalizer tracks the optimal Wiener equalizer. We model the channel by an Auto-regressive (AR) process. Then the LMS equalizer and the AR process are jointly approximated by the solution of a system of ODEs (ordinary differential equations). Using these ODEs, the error between the LMS equalizer and the instantaneous Wiener filter is shown to decay exponentially/polynomially to zero unless the channel is marginally stable in which case the convergence may not hold.Using the same ODEs, we also show that the corresponding Mean Square Error (MSE) converges towards minimum MSE(MMSE) at the same rate for a stable channel. We further...
[[abstract]]We consider a practical maximum-likelihood sequence estimation (MLSE) equalizer on multi...
Abstract — Adaptive channel equalization algorithms are commonly used in wireless communications rec...
Abstract — In this paper we have studied channel models (flat fading and frequency selective fading ...
We consider a time varying wireless fading channel, equalized by an LMS Decision Feedback equalizer...
We consider a time varying wireless fading channel, equalized by an LMS linear equalizer in decisio...
A novel channel equalizer algorithm is introduced for wireless communication systems to combat chan...
Abstract—Low-complexity WLMS adaptation algorithms, of use for channel estimation, have been derived...
Effort to estimate unknown time-varying channels as a part of high-speed mobile communication system...
This thesis covers two topics of great interest in wireless communications and signal processing: as...
Abstract. In a high-rate indoor wireless personal communication system, the delay spread due to mult...
In this paper, research on exploring the potential of several popular equalization techniques while ...
The potential presence of fractional delays, nonminimum phase parts, and a colouring of the channel ...
Novel channel equalizer algorithms are introduced for wireless communication systems to combat chan...
Abstract — This paper investigates the Wiener and least mean square (LMS) algorithms in the design o...
[[abstract]]We consider a practical maximum-likelihood sequence estimation (MLSE) equalizer on multi...
[[abstract]]We consider a practical maximum-likelihood sequence estimation (MLSE) equalizer on multi...
Abstract — Adaptive channel equalization algorithms are commonly used in wireless communications rec...
Abstract — In this paper we have studied channel models (flat fading and frequency selective fading ...
We consider a time varying wireless fading channel, equalized by an LMS Decision Feedback equalizer...
We consider a time varying wireless fading channel, equalized by an LMS linear equalizer in decisio...
A novel channel equalizer algorithm is introduced for wireless communication systems to combat chan...
Abstract—Low-complexity WLMS adaptation algorithms, of use for channel estimation, have been derived...
Effort to estimate unknown time-varying channels as a part of high-speed mobile communication system...
This thesis covers two topics of great interest in wireless communications and signal processing: as...
Abstract. In a high-rate indoor wireless personal communication system, the delay spread due to mult...
In this paper, research on exploring the potential of several popular equalization techniques while ...
The potential presence of fractional delays, nonminimum phase parts, and a colouring of the channel ...
Novel channel equalizer algorithms are introduced for wireless communication systems to combat chan...
Abstract — This paper investigates the Wiener and least mean square (LMS) algorithms in the design o...
[[abstract]]We consider a practical maximum-likelihood sequence estimation (MLSE) equalizer on multi...
[[abstract]]We consider a practical maximum-likelihood sequence estimation (MLSE) equalizer on multi...
Abstract — Adaptive channel equalization algorithms are commonly used in wireless communications rec...
Abstract — In this paper we have studied channel models (flat fading and frequency selective fading ...