Abstract
In this paper, we propose the receiver structure for Multiple Input Multiple Output (MIMO) Interleaved Single Carrier-Frequency Division Multiple Access (SC-FDMA) where the Frequency Domain Equalization (FDE) is firstly done for obtaining the tentative decision results and secondly using them the Inter-Symbol Interference (ISI) is cancelled by ISI canceller and then the Maximum Likelihood Detection (MLD) is used for separating the spatially multiplexed signals. Furthermore the output from MLD is fed back to ISI canceller repeatedly. In order to reduce the complexity, we replace the MLD by QR Decomposition with M-Algorithm (QRD-M) or Sphere Decoding (SD). Moreover, we add the soft output function to SD using Repeated Tree Search (RTS) algorithm to generate soft replica for ISI cancellation. We also refer to the Single Tree Search (STS) algorithm to further reduce the complexity of RTS. By examining the BER characteristics and the complexity reduction through computer simulations, we have verified the effectiveness of proposed receiver structure.
Highlights
Multiple Input Multiple Output (MIMO) transmission techniques with multiple transmit and receive antennas are widely used to achieve the spatially multiplexed transmission and to increase the transmission rate in wireless communications
We have proposed the low BER receiver structure for the interleaved Single Carrier-Frequency Division Multiple Access (SC-FDMA) on the uplink MIMO frequency selective fading channels
In the proposed receiver, using the tentative decision results obtained from the MMSE nulling (FDE), the Inter-Symbol Interference (ISI) components are cancelled and the Maximum Likelihood Detection (MLD) is used for separating the spatially multiplexed signal streams
Summary
MIMO transmission techniques with multiple transmit and receive antennas are widely used to achieve the spatially multiplexed transmission and to increase the transmission rate in wireless communications. For MIMO spatially multiplexed transmission, MLD is known as the optimum signal separation method at the receiver side, which attains the minimum BER. When the number of transmit antenna and the modulation levels are increased, MLD needs very high computational complexity and the reduction of complexity be-. How to cite this paper: Tsukamoto, M. and Iwanami, Y. (2014) Complexity Reduced MIMO Interleaved SC-FDMA Receiver with Iterative Detection. Communications, Network and System Sciences, 7, 508-518.
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