IEEE 802.11-16/1636r0 EDMG TRN Subfield Definition for SC PHY
This document from January 2017 introduces the definition of TRN subfields for EDMG SC PHY, focusing on MIMO with CB. It discusses legacy DMG TRN subfields, proposes new definitions for SISO and MIMO scenarios, and outlines the process for selecting Ga/Gb sequences in different spatial streams based on an orthogonal matrix. The proposed design builds upon existing Golay Sequence Sets and aims to enhance channel estimation for advanced wireless communication systems.
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January 2017 doc.: IEEE 802.11-16/1636r0 EDMG TRN Subfields Definition for SC PHY Date: 2017-01-17 Authors: Name Affiliations Address Phone email +7 (831) 2969444 Turgeneva 30, Nizhny Novgorod, 603024, Russia artyom.lomayev@intel.com Artyom Lomayev Intel yaroslav.p.gagiev@intel.com Yaroslav Gagiev Intel alexander.maltsev@intel.com Alexander Maltsev Intel claudio.da.silva@intel.com Claudio da Silva Intel carlos.cordeiro@intel.com Carlos Cordeiro Intel Submission Slide 1 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 Introduction This presentation proposes BRP TRN subfields definition for EDMG SC PHY for MIMO with CB based on the design proposed in [1]. The proposed design reuses the same Golay Sequence Set (GSS) already defined in the SFD for EDMG-STF/CEF/GI, [2]. Submission Slide 2 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 SISO EDMG TRN Subfield Definition The legacy DMG TRN subfield is composed of 5 repetitions of Ga128/Gb128 Golay complementary sequences. The DMG TRN subfield definition is written as follows: TRN640 = {+Ga128, -Gb128, +Ga128, +Gb128, +Ga128}; The sequences are transmitted using /2-BPSK modulation; Applying Golay correlator and combining A and B outputs, one can estimate CIR for given AWV configuration. The cyclic extension of DMG TRN subfield is proposed in [1] to define EDMG TRN subfield as follows: EDMG-TRN6N = {+GaN, -GbN, +GaN, +GbN, +GaN, -GbN}; where N = 128*NCB, 1 NCB 4; Submission Slide 3 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 MIMO EDMG TRN Subfield, NSS = 2 It is proposed to define EDMG TRN subfields for the 1st and 2nd streams as follows: TRN16N = {+Ga1N, -Gb1N, +Ga1N, +Gb1N, +Ga1N, -Gb1N}; TRN26N = {+Ga2N, -Gb2N, +Ga2N, +Gb2N, +Ga2N, -Gb2N}; where N = 128*NCB, 1 NCB 4; Note that the Ga/Gb sequences keep the same sign order in both streams as in the legacy case. To allow MIMO channel estimation, it is assumed that (Ga1N, Gb1N) and (Ga2N, Gb2N) have Zero Cross Correlation (ZCC) property. Submission Slide 4 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 MIMO EDMG TRN Subfield, NSS = 4 To generalize the TRN MIMO subfield definition for NSS = 4, it is proposed to select Ga/Gb sequences signs in different spatial streams based on the orthogonal P matrix defined as follows: P = {+1, +1 +1, -1}; The process illustrating signs assignment for TRN subfields is shown in figure below. Circular extension Original 11ad sequences +Gai -Gbi +Gai +Gbi +Gai -Gbi +Gai +Gbi +Gai -Gbi i = 1, 2 N N N N N N N N N N P(1, 1) = +1 P(1, 2) = +1 P(1, 1) = +1 P(1, 1) = +1 +Gai -Gbi +Gai +Gbi +Gai -Gbi -Gai -Gbi +Gai -Gbi i = 3, 4 N N N N N N N N N N P(2, 1) = +1 P(2, 2) = -1 P(2, 1) = +1 P(2, 1) = +1 Submission Slide 5 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 MIMO EDMG TRN Subfield, NSS = 4 (Cont d) Let s consider an example of Golay correlator outputs combining: Golay correlator output for m-th receive antenna: 1st N samples: +(Ya1N + Ya2N) + (Ya3N + Ya4N); 2nd N samples: -(Yb1N + Yb2N) - (Yb3N + Yb4N); 3rd N samples: +(Ya1N + Ya2N) - (Ya3N + Ya4N); 4th N samples: +(Yb1N + Yb2N) - (Yb3N + Yb4N); 5th N samples: +(Ya1N + Ya2N) + (Ya3N + Ya4N); 6th N samples: -(Yb1N + Yb2N) - (Yb3N + Yb4N); For streams 1 and 2 one combines the outputs starting from the second N samples with the following signs order {-, +, +, +}: (Yb1N + Yb2N) + (Yb3N + Yb4N) + (Ya1N + Ya2N) - (Ya3N + Ya4N) +(Yb1N + Yb2N) - (Yb3N + Yb4N) +(Ya1N + Ya2N) + (Ya3N + Ya4N) = = 2*(Ya1N + Yb1N) + 2*(Ya2N + Yb2N); If we perform Golay correlation matched to the 1st stream, then 2*(Ya1N + Yb1N) survives only due to ZCC property. The same is true for the 2nd stream. Submission Slide 6 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 MIMO EDMG TRN Subfield, NSS = 8 To generalize the TRN MIMO subfield definition for NSS = 8, the orthogonal P matrix is extended to 4x4 size: P = {+1, +1, +1, +1 +1, -1, +1, -1 +1, +1, -1, -1 +1, -1, -1, +1}; The process illustrating signs assignment for TRN subfields is shown on the next slide. Submission Slide 7 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 MIMO EDMG TRN Subfield, NSS = 8 (Cont d) Circular extension TRN subfield: 1, 3, 5 TRN subfield: 2, 4, 6 +Gai -Gbi +Gai +Gbi +Gai -Gbi +Gai -Gbi +Gai +Gbi +Gai -Gbi i = 1, 2 N N N N N N N N N N N N P(1, 1) = +1 P(1, 2) = +1 P(1, 3) = +1 P(1, 4) = +1 +Gai -Gbi -Gai -Gbi +Gai -Gbi +Gai -Gbi -Gai -Gbi +Gai -Gbi i = 3, 4 N N N N N N N N N N N N P(2, 1) = +1 P(2, 2) = -1 P(2, 3) = +1 P(2, 4) = -1 +Gai -Gbi +Gai +Gbi +Gai -Gbi -Gai +Gbi -Gai -Gbi -Gai +Gbi i = 5, 6 N N N N N N N N N N N N P(3, 1) = +1 P(3, 2) = +1 P(3, 3) = -1 P(3, 4) = -1 +Gai -Gbi -Gai -Gbi +Gai -Gbi -Gai +Gbi +Gai +Gbi -Gai +Gbi i = 7, 8 N N N N N N N N N N N N P(4, 1) = +1 P(4, 2) = -1 P(4, 3) = -1 P(4, 4) = +1 NOTE: MIMO with NSS = 8 utilizes 2 adjacent subfields, which is different from the case of NSS = 1, 2, 3, and 4. Submission Slide 8 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 Proposal for MIMO EDMG TRN Subfield The summary of proposed EDMG TRN subfields definition is provided in Table 1 below. Channel estimation exploits 2 EDMG TRN subfields for NSS = 5, 6, 7, and 8. Table 1: Proposed EDMG TRN subfields definition for MIMO. NSS TRN subfield: 1, 3, 5, 2M-1 TRN subfield: 2, 4, 6, , 2M i = 1, 2 {+GaiN, -GbiN, +GaiN, +GbiN, +GaiN, -GbiN} i = 3, 4 {+GaiN, -GbiN, -GaiN, -GbiN, +GaiN, -GbiN} i = 5, 6 {+GaiN, -GbiN, +GaiN, +GbiN, +GaiN, -GbiN} {-GaiN, +GbiN, -GaiN, -GbiN, -GaiN, +GbiN} i = 7, 8 {+GaiN, -GbiN, -GaiN, -GbiN, +GaiN, -GbiN} {-GaiN, +GbiN, +GaiN, +GbiN, -GaiN, +GbiN} Submission Slide 9 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 Golay Sequences Definition The Golay sequence length is defined as follows: EDMG TRN subfield: N = 128*NCB, 1 NCB 4; Hence the following sequence pairs are required: (Gai128, Gbi128); (Gai256, Gbi256); (Gai384, Gbi384); (Gai512, Gbi512); All required sequences are already defined in the SFD for EDMG-STF/CEF/GI fields and can be reused, [2]; Submission Slide 10 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 SP/Motion Do you agree to add to the SFD: EDMG TRN subfield for CB = 1, 2, 3, 4 and MIMO NSS = 1, 2, 8, shall have a structure shown on slide #9. The GaN/GbN sequence length is defined as N = 128 * CB. All sequences GaN/GbN are defined in the SFD. Submission Slide 11 Intel Corporation
January 2017 doc.: IEEE 802.11-16/1636r0 References 1. 2. 3. 11-17-0063-00-00ay-trn-field-cyclic-extension 11-15-1358-09-00ay-11ay Spec Framework Draft P802.11REVmc_D5.4. Submission Slide 12 Intel Corporation
