Data Rate Selection for Wake-up Receiver

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Presentation transcript:

Data Rate Selection for Wake-up Receiver doc.: IEEE 802.11-yy/XXXXr0 Month Year Data Rate Selection for Wake-up Receiver Date: 2017-07-08 Authors: Name Affiliation Address Email Ning Wei ZTE Corp. Kaiying Lv lv.kaiying@zte.com.cn Bo Sun

Introduction 11ba group has agreed that the payload part of a wake-up packet shall support multiple data rates for a higher efficiency or wider coverage[1,2] Wake up link information is useful for AP to select an appropriate transmission rate to transmit wake-up packet rather than blind selection However, how to measure the WUR link is still TBD In this proposal, we discuss WUR link measuring method for WUR data rate selection.

Analysis There could be two approaches: Based on main radio’s measurement Main radio needs to support SNR measurement SNR of main radio link does not precisely reflect WUR link status due to different signal design PER performance on main radio link cannot precisely reflect WUR link status either. Based on WUR radio’s measurement SNR is typically not precisely estimated in most algorithms We prefer to directly measure WUR link with dedicated data rate Should be simple Less time consuming

Proposal of WUR Link Quality Measurement A wake-up packet is transmitted for link quality measurements, as shown in Fig 1, at wake-up receiver side WUR measurement signal is encoded in Manchester encoding and modulated with OFDM+OOK Multiple rates could be measured with the wake-up measurement packet Setting the bits in the WUR signal to all '1's, or '0's maximizing the measurement reliability Legacy preamble WUR preamble WUR measurement signal Fig1 wake-up measurement packet format

Proposal of WUR Link Quality Measurement(Cont.) A wake-up receiver is required to decode measurement signal in multiple measurement periods for acquiring link performances of multiple date rates, as shown in Fig 2 The received bit stream of '1111…’ is encoded by Manchester encoding, the symbol duration is 16us, and noise is ignored for simplicity A first measurement is performed over each 16 us symbol to measure 62.5 kbps link performance A second measurement is performed over each 8 us symbol [A1,A2], [A2,A3], etc, to measure 125 kbps link performance, with corresponding bit sequences are ‘101010…’ A third measurement is performed over each 4 us symbol [B1, B2],...[B13, B14] , etc, to measure 250 kbps link performance, with corresponding bit sequences are ‘101010…’ Calculate the BERs or PERs for each data rate for WUR data rate selection. Fig2 multiple data rate measurement

Proposal of WUR measurement protocol(Cont.) Finally, as a respond, STA should feedback the WUR link performance measurement Include the measurement results of multiple data rate to assist AP on WUR transmission rate selection; Or Inform AP the preferred data rate

Conclusion In this contribution, we proposed an approach to achieve link performance measurement for multiple data rates with one WUR measurement packet: The measurement sequence of all '1's or '0's at a single data rate is proposed to maximize the measurement reliability Wake-up receiver is required to decode received signal several times with different measurement periods

Straw Poll #1 Do you agree to add the following to the 11ba SFD? WUR measurement protocol should be defined in 11ba Y/N/A :

Straw Poll #2 Do you agree to add the following to the 11ba SFD? A WUR measurement packet supporting multi-rate measurement should be defined in 11ba as shown in slide 4 Y/N/A :

Straw Poll #3 Do you agree to add the following to the 11ba SFD? A WUR measurement procedure supporting multi-rate measurement should be defined in 11ba as shown in slide 5 Y/N/A :

References 11-17-0654-01-00ba-multiple-data-rates-for-wur 11-17-0575-01-00ba-spec-framework