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Full-duplex Technology for HEW

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Presentation on theme: "Full-duplex Technology for HEW"— Presentation transcript:

1 Full-duplex Technology for HEW
Month Year doc.: IEEE yy/xxxxr0 July 2013 Full-duplex Technology for HEW Date: Authors: André Bourdoux, IMEC John Doe, Some Company

2 Month Year doc.: IEEE yy/xxxxr0 July 2013 Abstract As part of the effort to develop a PAR and 5C for High Efficiency WLAN (HEW), the IEEE HEW Study Group is collecting inputs from the WG members on new PHY and MAC technologies to increase the spectrum efficiency and area throughput of WLANs. This presentation introduces the full-duplex (FD) technology that makes it possible to double the instantaneous PHY spectral efficiency. The goal of this presentation is to start a reflexion process in the HEW SG about the relevance/timeliness of this technology for HEW. André Bourdoux, IMEC John Doe, Some Company

3 Motivation (1) 2.4 and 5GHz spectrum scarcity
July 2013 Motivation (1) 2.4 and 5GHz spectrum scarcity Steady, seemingly unstoppable increase in throughput requirements Existing extensions cannot “stretch” infinitely: Higher bandwidth and/or more frequency bands Larger constellation size More spatial streams Innovative solutions needed at PHY, MAC and topology level André Bourdoux, IMEC

4 July 2013 Motivation (2) Most (TDD) wireless bi-directional links deployed today are half-duplex (HD): Throughput can significantly be increased if the two nodes are able to transmit simultaneously. Full-duplex is an emerging radio transmission paradigm. ? Considered in HEW SG ? TX data (from STA1 to STA2) RX data (from STA2 to STA1) TX data (from STA1 to STA2) RX data (from STA2 to STA1) André Bourdoux, IMEC

5 Motivation (3) Pros Cons Increased spectral efficiency
July 2013 Motivation (3) Pros Increased spectral efficiency Up to 100% link capacity improvement over traditional half- duplex system More flexibility in spectrum usage Reduced air interface delay May ease / solve the hidden node problem . . . Cons More complex antenna / transceiver / DSP design Simpler for SISO than for MIMO MAC and protocol must be adapted André Bourdoux, IMEC

6 Taxonomy (1) July 2013 AP is full-duplex STA is full-duplex
STAs are half-duplex André Bourdoux, IMEC

7 Taxonomy (2) Device start transmitting, then receives
July 2013 Taxonomy (2) Device start transmitting, then receives Device starts receiving, then transmits Synchronous Impacts the estimation of desired channel / self- interference channel TX data (from STA1 to STA2) RX data (from STA2 to STA1) TX data (from STA1 to STA2) RX data (from STA2 to STA1) TX data (from STA1 to STA2) RX data (from STA2 to STA1) André Bourdoux, IMEC

8 Challenges and solutions (1)
July 2013 Challenges and solutions (1) Self-interference mechanisms in full-duplex transceiver Example budget: 20MHz bandwidth and 10+5 dB NF: noise floor at -86dBm/20MHz PT = +10dBm  roughly = 96 dB of self-interference rejection needed Observations: Self-interference rejection requirement is harder for higher PT Self-interference rejection requirement is easier for larger bandwidth André Bourdoux, IMEC

9 Challenges and solutions (2)
July 2013 Challenges and solutions (2) [DUPLO-D1.1] André Bourdoux, IMEC

10 Challenges and solutions (3)
July 2013 Challenges and solutions (3) Three main cancellation techniques At the antenna level Antenna layout minimizes leakage from TX antenna into RX antenna Circulator with high isolation if common TX and RX antenna RF/IF/analog baseband cancellation Sample of (non-ideal) transmitted signal is injected with opposite phase (and delay?) into the receiver Digital baseband cancellation Scaled/delayed/rotated version of ideal TX baseband signal is subtracted from received baseband Can be implemented per sub-carrier In practice combination of above techniques is needed to achieve dB self-interference cancellation André Bourdoux, IMEC

11 Challenges and solutions (4)
July 2013 Challenges and solutions (4) Cancellation requires some form of “channel estimation” from TX to RX Can be implicit for RF/IF/analog cancellation Probably explicit for digital cancellation SISO transceiver needs to cancel ONE TX leakage NTX x NRX MIMO transceiver needs to cancel NTX leakages into all NRX RX branches:  more complex André Bourdoux, IMEC

12 July 2013 State-of-the-Art (1) Many groups and oganizations are very active on FD and have demonstrators at various levels of maturity Rice Univ.: Stanford Univ.: Princeton Univ.: Univ. Waterloo: IMEC . . . European FP7 project DUPLO Partners: Renesas Mobile, Univ. Twente, Univ. Oulu, Univ. Surrey, IMEC, Thales, TTI See also upcoming CFP for JSAC on FD: André Bourdoux, IMEC

13 July 2013 State-of-the-Art (2) Self-interference rejection requirements: 80 to 110 dB Antenna-level cancellation: 25 to 40 dB (a) RF/IF/analog: 20 to 30 dB (b) Digital baseband: 20 to 30 dB (c) Numbers from: (a): Univ. Waterloo, (b): Stanford Univ. (active balun), (c): Stanford Univ. (time dependent) André Bourdoux, IMEC

14 Example of FD in access coordination
July 2013 Example of FD in access coordination [DUPLO-D1.1] André Bourdoux, IMEC

15 Example of FD in access coordination
July 2013 Example of FD in access coordination [DUPLO-D1.1] André Bourdoux, IMEC

16 Example of FD in access coordination
July 2013 Example of FD in access coordination But interference regions are different André Bourdoux, IMEC

17 Qualitative impact on metrics
July 2013 Qualitative impact on metrics PHY layer signal-to-noise-and-interference ratio (  ) MAC layer MAC delay (  ) Link reliability (  ) Network layer Achievable throughput (  ) End-to-end delays (  ) Node buffer space (  ) Delay jitter (  ) Packet loss ratio (  ) Energy expended per packet (  ) Route lifetime (  ) André Bourdoux, IMEC

18 Best use cases Full-duplex is more suitable for
July 2013 Best use cases Full-duplex is more suitable for Short range wireless links (because of lower PT) Ad hoc links Relaying Small cells André Bourdoux, IMEC

19 July 2013 Conclusions Full-duplex is an emerging radio paradigm that has the potential to improve the efficiency of future WLANs. Good results have been booked by several organizations and more to come from research projects. Full-duplex can be beneficial to certain HEW use cases. André Bourdoux, IMEC

20 References 13/0339r10 “High-efficiency WLAN Straw poll”
Month Year doc.: IEEE yy/xxxxr0 July 2013 References 13/0339r10 “High-efficiency WLAN Straw poll” 13/0331r5 “High-Efficiency WLAN”, Laurent Cariou (Orange) FP7 DUPLO project: [DUPLO-D1.1]: INFSO-ICT DUPLO-Report D1.1, System Scenarios and Technical Requirements for Full-Duplex Concept, April 2013, André Bourdoux, IMEC John Doe, Some Company

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