Non-linear pre-coding for next generation WLAN

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Non-linear pre-coding for next generation WLAN Date: 2013-09-14 Authors: Zhanji Wu, et. Al.

Outline This contribution provides an overview of nonlinear pre-processing MIMO for PHY in the next-generation WLAN to achieve better system performance. preliminary simulation of linear vs. non-linear MIMO A case of 802.11ac environment was performed in the simulation. FER performance of the non-linear MIMO system were superior to that of linear MIMO. Zhanji Wu, et. Al.

Introduction In July 2012 meeting, some requirements for next 802.11 were presented by Orange to improve the Wi-Fi experience for mobile devices[1]. Higher demand for future WLAN: Higher throughput and data rates. Greater reliability. increased number of mobile devices MIMO is one of the key technologies to improve the throughput. TGn firstly introduce MIMO technology. TGac include SU/MU-MIMO, and expand the number of antenna the above standards use MIMO based on linear precoding. In order to enhance the received performance, we propose to introduce the nonlinear pre-processing as the optional pre-coding scheme for the next generation of 802.11. In this work, we take Tomlinson-Harashima Pre-coding (THP) as an example to show the advantage of nonlinear pre-coding. Zhanji Wu, et. Al.

Non-linear precoding strategy Show a clear advantage over linear preequalization Closer to the channel capacity. Increased computational complexity SVD Pre-coding: SVD decomposition THP Pre-coding: QR decomposition, iteration in transmitter, modulo operation Typical non-linear algorithms: Vector perturbation (VP) [2] ; Tomlinson Harashima precoding (THP) : a compromise between complexity and performance. Zhanji Wu, et. Al.

THP Precoding Assume the channel matrix is H Because of the triangular structure of the feedback matrix B, the channel symbols , are successively generated from the data symbols , is the signal constellation. Zhanji Wu, et. Al.

THP Precoding Since this strategy would increase transmit power significantly, THP modulo reduces the transmit symbols into the boundary region of where In other words, instead of feeding the data symbols into the linear pre-equalization, the effective data symbols are passed into B-1 ,which is implemented by the feedback structure in the dotted line part. The dotted line part can be described in the way of matrix, as follows Zhanji Wu, et. Al.

THP Precoding We use the ZF criterion, GHFB-1=I is required The covariance matrix of is Meanwhile, since the average total transmitted energy per symbol interval can be expressed as : F is a unitary matrix hence is used as in [3], and the value of for different modulations can be found in [4] Zhanji Wu, et. Al.

MIMO Simulation Parameters Values Number of Antennas at TX 4 Number of Antennas/Streams at RX 4(SU) Number of Users (MU case) 1 11ac Channel Model D -Channel is time invariant in the packet duration. MIMO Precoding Tomlinson-Harashima precoding (THP) MIMO Decoding Linear ZF Channel Bandwidth 20 MHz Channel Coding BCC, MAP Modulat type QPSK Code rate 3/4 Synchronization, Channel Est. ideal Zhanji Wu, et. Al.

Sync and channel estimations are ideal SU-MIMO (4x4) No impairments, Sync and channel estimations are ideal Zhanji Wu, et. Al.

Summary Showed simulations regarding current 11ac PHY Proposed non-linear MIMO is one of the key solutions. Performances of the nonlinear pre-coding in ac NLOS environments were better than that of linear pre-coding. Zhanji Wu, et. Al.

Reference [1] 12/0910r0, Carrier oriented WIFI for cellular offload, Orange [2] 11-12-0844-00-Non-linear Multiuser MIMO for next generation WLAN.ppt [3] R.F.H Fischer, Precoding and Signal Shaping for Digital Transmission. New York: Wiley, 2002 Zhanji Wu, et. Al.