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Submission doc.: IEEE /0316r0 Low Complexity Beamtraining for Hybrid MIMO Date: Slide 1 March 2016 Authors: Dana Ciochina (SONY), Felix.

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Presentation on theme: "Submission doc.: IEEE /0316r0 Low Complexity Beamtraining for Hybrid MIMO Date: Slide 1 March 2016 Authors: Dana Ciochina (SONY), Felix."— Presentation transcript:

1 Submission doc.: IEEE 802.11-16/0316r0 Low Complexity Beamtraining for Hybrid MIMO Date: 2016-03-13 Slide 1 March 2016 Authors: Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

2 Submission doc.: IEEE 802.11-16/0316r0 Abstract Beam training for Hybrid MIMO in 11ay can be expensive as number of possible beam combinations grows exponentially with number of antenna arrays. This contribution proposes a low complexity beam training method for 11ay. The proposed method can be supported with minimal changes in protocols and frame structures of sector level sweep (SLS) and beam refinement phase (BRP) of 11ad. Results show significant reduction in complexity and negligible losses in resulting MIMO capacity compared to exhaustive search. Slide 2Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University) March 2016

3 Submission doc.: IEEE 802.11-16/0316r0 Introduction Slide 3 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

4 Submission doc.: IEEE 802.11-16/0316r0 Motivation Slide 4 March 2016  Minimize amount of necessary training phases / channel estimations  Reuse as much as possible 11.ad frame structures and protocols capacity landscape [6] with 90°HPBW Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

5 Submission doc.: IEEE 802.11-16/0316r0 Two stage approach in 11ad [3] Sector level sweep (SLS) train transmit beamformers by sector sweeps (SSW) vs quasi-omni receive beamformers Beam refinement phase (BRP) improve receive beamformers (optional MID subphase) improve transmit-receive beam combinations (optional BC phase) Slide 5 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

6 Submission doc.: IEEE 802.11-16/0316r0 Overview of proposed approach Slide 6 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

7 Submission doc.: IEEE 802.11-16/0316r0 SLS stage for Hybrid MIMO Slide 7 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

8 Submission doc.: IEEE 802.11-16/0316r0 Beam refinement methods Slide 8 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

9 Submission doc.: IEEE 802.11-16/0316r0 Evolutionary beamtraining Slide 9 March 2016 procedure can be used in different stages of beam training procedure within pairwise search (PS) [2] on top of 11ad-like SLS Drawback: Instant feedback needed after each iteration to determine “best combination” Potential benefit in rich scattering environments Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

10 Submission doc.: IEEE 802.11-16/0316r0 Slide 10 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

11 Submission doc.: IEEE 802.11-16/0316r0 Simulation parameters Slide 11 March 2016 Conference room scenario [5] Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

12 Submission doc.: IEEE 802.11-16/0316r0 Complexity and performance comparison Slide 12 March 2016 -significant reduction in complexity -negligible or no loss in performance Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

13 Submission doc.: IEEE 802.11-16/0316r0 Protocol and frame structure (K-Best) Slide 13 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

14 Submission doc.: IEEE 802.11-16/0316r0 Protocol and frame structure (K-Best) Slide 14 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

15 Submission doc.: IEEE 802.11-16/0316r0 Conclusions Slide 15 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

16 Submission doc.: IEEE 802.11-16/0316r0 References 1.C. Cordeiro et al, “Next Generation 802.11ad”, doc. 11-14-0606r0. 2.C. Capar et al, “Efficient Beam Selection for Hybrid Beamforming”, IEEE doc. 11-15/1131r0. 3.A. Kasher, “Beamforming Training proposals”, doc. 11-16-0103r0. 4.A. Maltsev et al, “Extension of Legacy IEEE 802.11ad Channel Models for MIMO and Channel Bonding”, IEEE doc. 11-15/1356r1. 5.A. Maltsev et al, “Channel Models for IEEE 802.11ay”, IEEE doc. 802.11-15/1150r2. 6.F. Fellhauer et al, “Modelling of Spatial Separation in the 11ay Channel Model”, IEEE doc. 802.11-16/0073r1. Slide 16 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

17 Submission doc.: IEEE 802.11-16/0316r0 APPENDIX March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University) Slide 17

18 Submission doc.: IEEE 802.11-16/0316r0 Slide 18 March 2016 as in slide 12 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

19 Submission doc.: IEEE 802.11-16/0316r0 Performance comparison (continued) Slide 19 March 2016 Dana Ciochina (SONY), Felix Fellhauer (Stuttgart University)

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