We propose an iterative receiver architecture which allows for adjusting the complexity of estimating the channel frequency response in OFDM systems. This is achieved by approximating the exact Gaussian channel model assumed in the system with a Markov model whose state-space dimension is a design parameter. We apply an inference framework combining belief propagation and the mean field approximation to a probabilistic model of the system which includes the approximate channel model. By doing so, we obtain a receiver algorithm with adjustable complexity which jointly performs channel and noise precision estimation, equalization and decoding. Simulation results show that low-complexity versions of the algorithm - obtained by selecting low st...
Abstract In this paper we present extremely low-complexity adaptive infinite impulse response (IIR) ...
International audienceIn this paper, the authors describe and compare two low-complexity approximati...
This thesis addresses low-complexity algorithms in digital receivers. This includes algorithms for e...
Iterative information processing, either based on heuristics oranalytical frameworks, has been shown...
International audienceOrthogonal frequency-division multiplexing with cyclic prefix enables low-cost...
In this letter, a message-passing algorithm that combines belief propagation and expectation propaga...
We design iterative receiver schemes for a generic communication system by treating channel estimati...
With a unified belief propagation (BP) and mean field (MF) framework, we propose an iterative messag...
textIn many modern wireless and wireline communication networks, the interference power from other c...
We propose an iterative algorithm for OFDM receivers operating over fast time-varying channels. The ...
This thesis addresses the problem of designing a receiver for an Orthogonal FrequencyDivisionMultip...
In this paper, we investigate receivers for Vehicular to Vehicular (V2V) and Vehicular to Infrastruc...
Propagation channels with maximum excess delay exceeding the duration of the cyclic prefix (CP) in O...
International audienceThis paper proposes a LMMSE-based channel estimator which, unlike the classica...
A low complexity decision-directed channel estimation method is proposed, which is suitable for a wi...
Abstract In this paper we present extremely low-complexity adaptive infinite impulse response (IIR) ...
International audienceIn this paper, the authors describe and compare two low-complexity approximati...
This thesis addresses low-complexity algorithms in digital receivers. This includes algorithms for e...
Iterative information processing, either based on heuristics oranalytical frameworks, has been shown...
International audienceOrthogonal frequency-division multiplexing with cyclic prefix enables low-cost...
In this letter, a message-passing algorithm that combines belief propagation and expectation propaga...
We design iterative receiver schemes for a generic communication system by treating channel estimati...
With a unified belief propagation (BP) and mean field (MF) framework, we propose an iterative messag...
textIn many modern wireless and wireline communication networks, the interference power from other c...
We propose an iterative algorithm for OFDM receivers operating over fast time-varying channels. The ...
This thesis addresses the problem of designing a receiver for an Orthogonal FrequencyDivisionMultip...
In this paper, we investigate receivers for Vehicular to Vehicular (V2V) and Vehicular to Infrastruc...
Propagation channels with maximum excess delay exceeding the duration of the cyclic prefix (CP) in O...
International audienceThis paper proposes a LMMSE-based channel estimator which, unlike the classica...
A low complexity decision-directed channel estimation method is proposed, which is suitable for a wi...
Abstract In this paper we present extremely low-complexity adaptive infinite impulse response (IIR) ...
International audienceIn this paper, the authors describe and compare two low-complexity approximati...
This thesis addresses low-complexity algorithms in digital receivers. This includes algorithms for e...