IEEE 802.11-15/0577r1 Pilot Design for 11ax
Explore the pilot design aspects for IEEE 802.11-15/0577r1 in the context of 11ax technology, focusing on LTF-related decisions, pilot positioning in OFDM symbols, frequency drift compensation, and pilot design considerations for different LTF modes. The document also discusses pilot placement in different OFDMA Resource Units and relative mapping of pilot tones in those units, highlighting the complexities and optimizations involved.
Download Presentation
Please find below an Image/Link to download the presentation.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author. If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.
You are allowed to download the files provided on this website for personal or commercial use, subject to the condition that they are used lawfully. All files are the property of their respective owners.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author.
E N D
Presentation Transcript
May 2015 doc.: IEEE 802.11-15/0577r1 Pilot Design for 11ax Date: 2015-05-10 Authors: Name Affiliations Address Phone email 9008 Research Dr Irvine, CA 92618 Daewon Lee Newracom daewon.lee at newracom.com 9008 Research Dr Irvine, CA 92618 Sungho Moon Newracom aiden.m at newracom.com 9008 Research Dr Irvine, CA 92618 Yujin Noh Newracom yujin.noh at newracom.com 9008 Research Dr Irvine, CA 92618 minho.cheong at newracom.com Minho Cheong Newracom Yeungnam Univ./ Newracom Heejung Yu Heejung at yu.ac.kr Submission Slide 1 Daewon Lee, Newracom
May 2015 doc.: IEEE 802.11-15/0577r1 Background LTF-related decisions made in previous meetings [1] The HE PPDU shall support the following LTF modes: HE-LTF symbol duration of 6.4us excluding GI Equivalent to modulating every other tone in an OFDM symbol of 12.8 s excluding GI, and then removing the second half of the OFDM symbol in time domain HE-LTF symbol duration of 12.8 s excluding GI Submission Slide 2 Daewon Lee, Newracom
May 2015 doc.: IEEE 802.11-15/0577r1 Pilots in LTF OFDM Symbols Need for phase tracking in beamformed LTF (i.e. VHT-LTF) OFDM symbols was shown in [2]. Frequency drift compensation is also important in HE-LTF OFDM symbols. 11ax will support even longer LTF OFDM symbol durations. This may result in further drift compared that with 11ac. XTAL and LO design used in 11ac is likely to re-used for 11ax. Submission Slide 3 Daewon Lee, Newracom
May 2015 doc.: IEEE 802.11-15/0577r1 Pilots in 2xLTF ??? 2xLTF OFDM Symbol Data OFDM Symbol 2xLTF limits the positions of pilots in certain data subcarriers. 2xLTF and 4xLTF terminology barrowed from [3]. It refers to 6.4us and 12.8us DFT duration of LTF symbols. Potentially, pilots positions designed and optimized for 4xLTF or just regular data subcarriers may result in some pilots missing in the 2xLTF OFDM symbol. Having two different pilot designs for 2xLTF and 4xLTF case should be avoided as it adds implementation complexity. Submission Slide 4 Daewon Lee, Newracom
May 2015 doc.: IEEE 802.11-15/0577r1 Pilots in different OFDMA RUs Some Hypothetical Resource Boundary Some Hypothetical Resource Boundary DC tones -5 -4 -3 -2 -1 0 +1 +2 +3 +4 +5 +81 +82 +83 +84 +85 -85 -84 -83 -82 -81 Same RU size, but one starts with even subcarrier the other starts with odd subcarrier Most likely number of DC tones for 11ax is odd numbered, 1, 3, 5, or 7. Some of the OFDMA resource units (RU) is likely to be mirror symmetric and have even number of subcarriers, This combination results in following characteristics: some RUs of the same size are with position starting with odd numbered subcarrier some RUs of the same size are with position starting with even numbered subcarrier. different relative mapping of 2xLTF signals between RUs of the same size Different relative mapping of pilot tones between RUs of the same size Assuming that pilot tones are only mapped to tones with 2xLTF signals. Submission Slide 5 Daewon Lee, Newracom
May 2015 doc.: IEEE 802.11-15/0577r1 Conclusions Pilot placement in LTF OFDM symbols and Data OFDM symbols in OFDMA requires some thought May have impact on the overall design and numerology itself. To avoid loss in performance, pilot positions should be aligned with tones selected for 2xLTF transmission. To avoid implementation complexity, pilot positions between the 4xLTF case and 2xLTF case should be identical. Submission Slide 6 Daewon Lee, Newracom
May 2015 doc.: IEEE 802.11-15/0577r1 Straw Poll #1 Do you agree to the following concept Number of pilot tones in a LTF symbol, regardless of LTF symbol durations excluding GI, shall be identical to number of pilot tones in a data OFDM symbol for DL HE PPDU? Submission Slide 7 Daewon Lee, Newracom
May 2015 doc.: IEEE 802.11-15/0577r1 References [1] Robert Stacey, Specification Framework for TGax, 11-15/0132r3, March 2015. [2] Youhan Kim, et. al., Phase Tracking During VHT-LTF, 11-10/0770r0, July 2010 [3] Hongyuan Zhan, et. al., HE-LTF Proposal, 11-15/0349r0, March 2015 Submission Slide 8 Daewon Lee, Newracom
