Doc.: IEEE 802.11-15/86r0 Submission January 2015 Uplink MU Transmission and Legacy Coexistence Date: 2015-01-12 Authors: Slide 1 NameAffiliationsAddressPhoneemail.

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Presentation transcript:

doc.: IEEE /86r0 Submission January 2015 Uplink MU Transmission and Legacy Coexistence Date: Authors: Slide 1 NameAffiliationsAddressPhone Reza Hedayat Young Hoon Kwon Yongho Seok Vida Ferdowsi NEWRACOM9008 Research Drive, Irvine, CA reza.hedayat at newracom.com younghoon.kwon at newracom.com yongho.seok at newracom.com vida.ferdowsi at newracom.com Reza Hedayat, NEWRACOM

doc.: IEEE /86r0 Submission Summary Slide 2 TGax SFD considers UL MU transmissions such as UL OFDMA and UL MU MIMO, which is expected to offer good medium utilization Compared to existing SU and DL MU, UL MU transmission is unique due to multiple STAs participating in forming a single PPDU This contribution focuses on the issues that should be considered for UL MU in order to obtain best coexistence with legacy devices and OBSS scenarios. Particularly, the focus is on channel sensing in presence of UL MU frames

doc.: IEEE /86r0 Submission SU vs UL MU Transmission Slide 3 TGax is considering UL MU transmissions such as UL OFDMA and UL MU MIMO While UL MU transmissions are expected to increase medium utilization, they also bring many challenges since multiple STAs participate in forming a single PPDU Things become more complicated since some of the PPDU attributes may not a priori known to all of the STAs participating in forming UL MU PPDU

doc.: IEEE /86r0 Submission SU vs UL MU Transmission Slide 4 An important aspect in operation is CSMA/CA where all nodes sense the medium and verify whether the medium is busy or idle based on which they decide whether to prepare to access the medium or not In SU transmission and DL MU transmission, since the frame is sent by a single node, it is straightforward how the neighboring nodes interpret the state of the medium However, in UL MU transmission, multiple nodes participate in forming the UL MU frame, hence the assessment of the status of the medium could become tricky. Thus an important aspect in UL MU transmissions is to make sure that legacy STAs have proper channel sensing regarding the ongoing UL MU frame on the entire BW

doc.: IEEE /86r0 Submission Channel sensing in presence of UL MU MIMO frames Slide 5 In the case of UL MU MIMO if each STA occupies the same bandwidth as others then there would be no channel sensing ambiguity from the neighborhood of each participating STA, even if a STA starts sensing the medium in the middle of the PPDU However if an UL MU MIMO PPDU is formed in a way that some STAs sends their PSDU in narrower bandwidth, depending on the location of STAs forming the PPDU, there could be ambiguity in channel sensing since some unintended neighboring STAs sense energy on narrower bandwidth than others and might assume the medium is available For instance, assume that an 80MHz UL MU PPDU is formed by several STAs where one or more of those send their PSDU with 40MHz bandwidth. In this case if there are OBSS STAs whose primary channel is different that the primary of the BSS they could sense the medium is idle and attempt to access the medium

doc.: IEEE /86r0 Submission Channel sensing in presence of UL OFDMA frames Slide 6 In the case of UL OFDMA, depending on the sub-band assignment of the UL OFDMA PPDU, there could be ambiguity in channel sensing in the neighborhood of each participating STA Since a participating STA in an UL OFDMA PPDU could transmit less or no energy on some 20MHz sub-bands, the coverage area of the STA differs from one 20MHz sub-channel to another –A STA within the coverage of a transmitting UL OFDMA STA assesses the 20MHz channel the STA occupies is busy; the rest might be assessed as idle –If this happens to the primary channels then STAs in the BSS might assess the medium is available even though there is an ongoing UL MU OFDMA frame –If this happens to the non-primary channels then STAs in OBSSs (whose primary channel is different than primary channel of the BSS) might assess the medium is available even though there is an ongoing UL MU OFDMA frame

doc.: IEEE /86r0 Submission Channel sensing in presence of UL OFDMA frames Slide 7 For instance in the case of UL SU transmission, all the nodes in the coverage area of the transmitter would have correct assessment of status of the medium even if they start assessing the medium in the middle of the frame –While it is true that some nodes outside of the coverage area of the transmitter might see the medium is available, this case is considered the classic hidden node problem However, in the case of UL OFDMA things could be different. For instance, in the case of an 80MHz UL OFDMA PPDU with four participating STAs where each STA is assigned one of the 20MHz sub- channels, only the cross-coverage of the four STAs would sense the medium properly (see next slide) –In other words, the hidden nodes for each participating STA add to the set of the hidden nodes where some subsets of it appears hidden to some portions of the bandwidth of the UL OFDMA frame

doc.: IEEE /86r0 Submission Channel sensing in presence of UL OFDMA frames Slide 8 LEG STF LTF SIG 11ax STF LTF SIG 20MHz sub-band AP LEG STF LTF SIG 11ax STF LTF SIG 20MHz sub-band LEG STF LTF SIG 11ax STF LTF SIG 20MHz sub-band LEG STF LTF SIG 11ax STF LTF SIG 20MHz sub-band Only STAs in the intersection of the coverage area of all STAs have proper CS of the whole bandwidth Legacy STAs inside the RED area sense the channel busy for the RED 20MHz sub-band. STAs outside of the RED coverage are hidden nodes wrt the RED sub-band

doc.: IEEE /86r0 Submission Slide 9 Channel sensing in presence of UL OFDMA frames One solution to obtain correct channel sensing is to manage the sub- band allocation such that a minimum TBD bandwidth is assigned to each STA in each of the 20MHz bands –This allows each unintended STA to sense the medium correctly across all the 20MHz bands that the UL OFDMA frame occupies –Additionally, each STA may boost power in each assigned sub-band in each 20MHz channel to partially adjust any possible coverage shrinkage For instance, in the case of an 80MHz UL OFDMA PPDU with four participating STAs where each STA is assigned total of 20MHz bandwidth, the assigned bandwidth to each STA is distributed to all four 20MHz sub-channels. In such case almost the union of the coverage areas of the four STAs would sense the medium properly (compared to single 20MHz band assignment where only the intersection of the coverage areas sense the medium properly)

doc.: IEEE /86r0 Submission Slide 10 Channel sensing in presence of UL OFDMA frames The method described in previous slide makes sure that the neighborhood of each participating STA in the UL OFDMA frame has correct channel sensing whether they belong to BSS or OBSS However the minimum bandwidth assignment per STA per each 20MHz sub-channel can be relaxed so that is applied only to the primary 20MHz channel, or to the primary 40 MHz channel By above relaxation, at least it is made sure that the STAs of the same BSS interrupt the status of the medium correctly in presence of an ongoing UL OFDMA frame Also, STAs belonging to OBSS that happen to have their primary 20MHz channel on the same primary channel of the BSS would sense the status of the medium correctly

doc.: IEEE /86r0 Submission Conclusion Slide 11 CSMA/CA is an important aspect of operation that needs to be observed in presence of UL MU MIMO and UL OFDMA frames UL MU transmissions require additional considerations so that the unintended nodes properly sense the status of the medium across the whole bandwidth (or at least across the primary channel) in presence of UL MU PPDUs