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On the issues with Odd and Even Node Polarity

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Presentation on theme: "On the issues with Odd and Even Node Polarity"— Presentation transcript:

1 On the issues with Odd and Even Node Polarity
September 2016 doc.: IEEE /XXXXr0 November 2017 On the issues with Odd and Even Node Polarity Date: Name Affiliation Address Phone Rob Sun Huawei Yan Xin Edward Au Mengyao Ma Rob Sun, Huawei Intel Corporation

2 Problem Illustration (First TDD period)
November 2017 Problem Illustration (First TDD period) E CN0 1) Link DN1DN2 could be interfered from DN3 (inter-DN interference) 2) Link DN3-DN2 could also be interfered from DN1 (inter-DN interference) E CN1 O E O E DN0 DN1 DN2 DN3 O CN2 CN3 First TDD Sub-frame O DN1DN0 DN1CN2 DN1CN3 Simultaneous DN3DN2 CN0DN0 CN1DN0 DN1DN2 Rob Sun, Huawei

3 November 2017 Motivations FB introduces the “Odd and Even Node Polarity” in [1] which defines the transmission pattern between DNs and CNs in the TDD sub-frames. The benefits are to improve the overall capacity and potentially reduce the interference. However, we found this Odd and Even Node have the scalability and efficiency problem. Sinking Hole Problem (SHP) Uneven Traffic Problem (UTP) Rob Sun, Huawei

4 Precursory Assumptions
November 2017 Precursory Assumptions All the DNs and CNs are within the single BSS. Each DN cannot receive multiple streams from different DNs simultaneously. Realistically, Interference Cancellation is a hard problem. Rob Sun, Huawei

5 September 2016 Intel Corporation

6 Problem Illustration (Second TDD period)
November 2017 Problem Illustration (Second TDD period) E CN0 1) Link DN2 DN1 could be interfered by DN0 (inter-DN interference) 2) Link DN0DN1 could also be interfered by DN2 (inter-DN interference) E CN1 O E O E DN0 DN1 DN2 DN3 O CN2 CN3 O O Second TDD Sub-frame DN0DN1 DN0CN0 DN0CN1 Simultaneous DN2DN3 CN0DN1 CN1DN1 DN2DN1 Rob Sun, Huawei

7 The Sinking Hole Problem (SHP)
November 2017 The Sinking Hole Problem (SHP) Due to the Odd and Even Node polarity settings and the inter-node interference, the Link between DN1 and DN2 can not be active during the both first and second time slots (SPs) The SHP only applies to the backhaul links. One possible solution to avoid the sinking hole problem is to dedicate the time slots (SPs) for the link between DN1 and DN2. However, the latency will be noticeable. and the scheduling will be complex. To generalized this problem, the Odd and Even Node polarity scheme cannot scale up in large network. Rob Sun, Huawei

8 Uneven Traffic Problem (UTP)
November 2017 Uneven Traffic Problem (UTP) In this case, we are assuming DN0 is the end DN, DN1/DN2 are intermediate DNs, and DN3 is the portal to internet. Also, we assume the Sinking Hole Problem could be solved. We assume today’s traffic is uneven in both directions, i.e 80% of traffic are downlink and 20% of traffic are uplink. We will observe the UTP due to the uneven traffic distribution. Rob Sun, Huawei

9 Uneven Traffic Problem (UTP) Illustration
November 2017 Uneven Traffic Problem (UTP) Illustration E CN0 E CN1 DOWNLINK O E O E (Portal) DN0 DN1 DN2 DN3 Internet O CN2 CN3 First TDD Sub-frame O DN1DN0 DN1CN2 DN1CN3 Simultaneous DN3DN2 CN0DN0 CN1DN0 DN1DN2 Unused Rob Sun, Huawei

10 Uneven traffic problem (UTP) illustration
October, 2017 Uneven traffic problem (UTP) illustration E CN0 E CN1 UPLINK O E O E(Portal) DN0 DN1 DN2 DN3 Internet O CN2 CN3 O O Second TDD Sub-frame DN0DN1 Unused DN0CN0 DN0CN1 Simultaneous DN2DN3 Unused CN0DN1 CN1DN1 DN2DN1 Rob Sun, Huawei

11 Potential Solution To UTP
November 2017 Potential Solution To UTP Change the rule of Odd and Even polarity setting for DNs links. For instance, the Odd and Even polarity applies ONLY to DN-CN links. The DN-DN links should not follow the Odd and Even polarity settings. Enable each DN to send and receive simultaneously from different sources (new methods/technologies should be introduced). Rob Sun, Huawei

12 Potential Solution Illustration (Downlink as Example)
November 2017 Potential Solution Illustration (Downlink as Example) E CN0 E CN1 DOWNLINK O E O E (Portal) DN0 DN1 DN2 DN3 Internet O CN2 CN3 First TDD Sub-frame O DN1DN0 DN1CN2 DN1CN3 Simultaneous DN3DN2 CN0DN0 CN1DN0 DN2DN1 Rob Sun, Huawei

13 November 2017 References [1] IEEE /1321r1 “Features for mmW Distribution Network Use Case” Rob Sun, Huawei

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