International audienceThis paper addresses a novel frequency-domain (FD) derivation of the Minimum Mean Square Error (MMSE) Turbo Equalizer for ST-BICM systems. The receiver consists of a FD MMSE Equalizer and a Time Domain (TD) decoder with iterative information exchange between the two functions. In particular, we propose a FD MMSE equalizer derivation improved from previous approaches, in that feedback and feedforward filters are directly derived in the frequency-domain. The accuracy of the proposed approach is confirmed by comparing the lower bound of the iterative equalizing process with the corresponding analytical results proposed in previous paper. Simulations over multi-path Rayleigh block fading channels show that the resulting al...
Transmission of digital information through a wireless channel with resolvable multipaths or a bandw...
This paper investigates two typical frequency-domain turbo equalization (FDTE) schemes, i.e., freque...
Turbo equalization provides excellent performance but the complexity associated with this technique ...
International audienceThis paper addresses a novel frequency-domain (FD) derivation of the Minimum M...
In this paper, we study the design of frequency domain turbo equalization (FDTE) in single carrier (...
International audienceThis paper deals with a low complexity recevier scheme where equalization and ...
In this paper, conventional and turbo-channel-equalization algorithms processing two samples of the ...
International audienceThis paper presents a simple approach to assess performance that can be achiev...
This paper deals with a low complexity receiver scheme where equalization and channel decoding are j...
In this paper, a new time-domain soft-decision feedback (TDSDF) aided frequency domain turbo equaliz...
Abstract—We propose low-complexity block turbo equalizers for orthogonal frequency-division multiple...
In this paper, channel equalization algorithms processing two samples of the received signal per cha...
We propose low-complexity block turbo equalizers for orthogonal frequency-division multiplexing (OFD...
In this paper, a new class of equalization and channel estimation techniques, using the turbo freque...
In this work various channel equalization algorithms operating in the frequency domain are described...
Transmission of digital information through a wireless channel with resolvable multipaths or a bandw...
This paper investigates two typical frequency-domain turbo equalization (FDTE) schemes, i.e., freque...
Turbo equalization provides excellent performance but the complexity associated with this technique ...
International audienceThis paper addresses a novel frequency-domain (FD) derivation of the Minimum M...
In this paper, we study the design of frequency domain turbo equalization (FDTE) in single carrier (...
International audienceThis paper deals with a low complexity recevier scheme where equalization and ...
In this paper, conventional and turbo-channel-equalization algorithms processing two samples of the ...
International audienceThis paper presents a simple approach to assess performance that can be achiev...
This paper deals with a low complexity receiver scheme where equalization and channel decoding are j...
In this paper, a new time-domain soft-decision feedback (TDSDF) aided frequency domain turbo equaliz...
Abstract—We propose low-complexity block turbo equalizers for orthogonal frequency-division multiple...
In this paper, channel equalization algorithms processing two samples of the received signal per cha...
We propose low-complexity block turbo equalizers for orthogonal frequency-division multiplexing (OFD...
In this paper, a new class of equalization and channel estimation techniques, using the turbo freque...
In this work various channel equalization algorithms operating in the frequency domain are described...
Transmission of digital information through a wireless channel with resolvable multipaths or a bandw...
This paper investigates two typical frequency-domain turbo equalization (FDTE) schemes, i.e., freque...
Turbo equalization provides excellent performance but the complexity associated with this technique ...