Rodrigue Rabineau scite author profile

In this paper, the architecture of a low complex iterative receiver for a 4 × 4 MIMO system is detailed and implementation results are analyzed. An efficient architecture of MMSE iterative receiver for MIMO-OFDM systems is proposed to limit latency and complexity of the iterative process. The implemented receiver is integrated into an hardware testbench and compared in terms of complexity and performance with a non iterative solution.Keywords-MIMO equalization, iterative receiver, hardware implementation.I. INTRODUCTION The next generation of wireless communication systems call for new advanced techniques in order to support ever-increasing data rates. By exploiting spatial diversity, multiple input multiple output (MIMO) systems position themselves as a serious candidate to increase spectral efficiency as demonstrated in [1], [2]. Likewise, OFDM is a widely used solution for highspeed wireless communications thanks to its robustness against multi-path fading by eliminating intersymbol interference (ISI). The combination of MIMO and OFDM thus presents significant interest for high data rate wireless communications. In this context, iterative receivers have been demonstrated to efficiently deal with the presence of co-antenna interference [3]. In spite of their good performance, iterative receivers are not yet widely used because of their high complexity induced by both a complex MIMO detection and a costly iterative process.In consequence solutions have firstly to be found to limit complexity of MIMO detection, where the channel has to be represented by a matrix instead of a single channel coefficient for SISO case. Optimal maximum likelihood (ML) algorithm leads to huge complexity. To limit the cost of the detection, suboptimal approaches exist based on sphere decoding or linear filtering associated with MMSE or ZF algorithms. These solutions remain complex as they have often to include matrix inversion or triangularization.Secondly, an architecture has to be defined to deal with turbo-equalization process, during which MIMO and channel decoders exchange soft information to cancel co-antenna interference. To be competitive, iterative receivers must be able to achieve equivalent data rate to system without turbo-equalization.In this paper, we present an efficient architecture of an iterative receiver for MIMO-OFDM systems. MMSE interference cancellation is considered for MIMO detection and channel coding is realized with a turbo code. Based on a FPGA implementation, a comparison is made between iterative and non iterative schemes in terms of performance and complexity.The paper is organized as follows. Section II describes the system model and the MIMO iterative receiver based on MMSE interference cancellation. In section III, the proposed architecture of the receiver is detailed. We especially focus on the computation of MMSE filtering and on the scheduling between MIMO and channel decoders, the two main challenges to solve in order to get a competitive receiver. We describe the evaluation of the hardware implem...

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DFT Based Channel Estimation Methods for MIMO-OFDM Systems

Diallo¹,

Hélard²,

Cariou³

et al. 2011

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On Improved DCT Based Channel Estimation with Very Low Complexity for MIMO-OFDM Systems

Diallo

Rabineau

Cariou

et al. 2009

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Transform domain channel estimation with null subcarriers for MIMO-OFDM systems

Diallo

Boher

Rabineau

et al. 2008

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This paper deals with transform domain channel estimation (TD-CE) in the MIMO-OFDM system when null carriers are placed at the edges of the spectrum in order to assure band isolation from interfering signals that occupy neighboring frequency bands. Indeed, the presence of these null carriers leads to a degradation of channel estimation because of a "border effect" phenomenon when using a discrete fourier transform (DFT). First, the problems of the conventional DFT based channel estimator are presented as well as a method to reduce the impact of this "border effect". Then, the same method is used to improve the conventional discrete cosine transform (DCT) based channel estimation. Finally the efficiency of these estimators is evaluated within IEEE802.11n system context.

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