IMPROVED RECEIVER FOR WIRELESS COMMUNICATIONS NETWORKS

An iterative receiver is proposed for receiving in a cell a signal (A) and for providing information carried on said signal (A) by the execution of at least one processing iteration. The receiver comprises: an estimate assembly for receiving the signal (A) and providing, at each one of said processing iterations, a respective information estimate ; a regeneration assembly for receiving, at each processing iteration, said information estimate provided by the estimate assembly at that iteration, and for providing a regenerated signal (B) therefore based on said information estimate and on attenuation of radio channels over which the signal (A) has been transmitted; an interference estimate unit for providing, at each iteration, an interference estimate (C) based on the signal (A) and the regenerated signal (B), the estimate assembly providing, starting from a second processing iteration of said processing iterations, said information estimate based on said interference estimate; and an extraction unit for extracting said information from said information estimate

Simulation and Complexity Analysis of Iterative Interference Cancellation Receivers for LTE/LTE-Advanced

The paper details the simulation of a single user MIMO receiver operating according to the 3GPP/LTE standard applying a Parallel or Successive Interference Cancellation (PIC/SIC) strategy to a multicarrier (OFDMA/SC-FDMA) scheme. The algorithm details are analyzed and the PIC and SIC cancellation strategies are simulated and compared on random MIMO selective fading channels, considering limited complexities. The best PIC and SIC schemes for a given limited complexity (8 turbo decoding iterations per codeword) are compared for different codeblock lengths and spatial correlation scenarios over an EPA channel model. The 2 cycles SIC scheme shows the best performance over the selected scenarios, offering gains over the non-iterative schemes (measured at BLER values of 0.1) ranging from 1 to 4 dB in the considered cases. Larger gains are obtained with higher spatial correlation and shorter codeblock lengths. Better overall performance are obtained with lower spatial correlation and longer codeblock lengths

IMPROVED RECEIVER FOR WIRELESS COMMUNICATIONS NETWORKS

An iterative receiver is proposed for receiving in a cell a signal (A) and for providing information carried on said signal (A) by the execution of at least one processing iteration. The receiver comprises: an estimate assembly for receiving the signal (A) and providing, at each one of said processing iterations, a respective information estimate ; a regeneration assembly for receiving, at each processing iteration, said information estimate provided by the estimate assembly at that iteration, and for providing a regenerated signal (B) therefore based on said information estimate and on attenuation of radio channels over which the signal (A) has been transmitted; an interference estimate unit for providing, at each iteration, an interference estimate (C) based on the signal (A) and the regenerated signal (B), the estimate assembly providing, starting from a second processing iteration of said processing iterations, said information estimate based on said interference estimate; and an extraction unit for extracting said information from said information estimate