1. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 1 An Access Mechanism for Periodic Contention-Free Sessions Mathilde Benveniste AT&T Labs, Research

2. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 2 CFS and PCFS: Definitions Definitions Contention free session (CFS) Any frame exchange sequence that may occur without contention following a successful channel access attempt. A CFS may involve one or more stations. A CFS may be initiated by any station. –A Contention-Free Burst and an RTS/CTS exchange are both examples of a CFS Periodic contention free period (PCFS) A CFS that must occur at regular time intervals. –A Contention-Free Period is an example of a PCFS Both PCFSs and CFSs are needed; the former for periodic traffic, the latter in order to use channel time efficiently, as channel availability permits. –When restricting the time to the next access attempt, the channel cannot be used sooner, even if needed and available; it limits efficiency of channel re-use

3. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 3 Overview This is one of 5 independent submissions relating to HCF access and OBSS mitigation. These are: (1)CPMA: An Access Mechanism for Contention-Free Sessions CPMA a protocol for prioritized contention-based access (2) An access mechanism for Periodic Contention-Free Sessions  Regularly spaced sessions (3) ‘Shield’: Protecting High-Priority Channel Access Attempts Prevents CFS/PCFS corruption in case of collision with an (E)STA (4) ‘Neighborhood capture’ in wireless LANs Preventing a capture effect (5) HCF Access Mechanisms: Inter-BSS NAV protection Virtual carrier sense for CFP/CFBs

4. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 4 Introduction A PCFS is a special case of a CFP –For simplicity, but without loss of generality, we assume that PCFSs are initiated by APs Ideally we want: –PCFSs to have priority access over (E)DCF transmissions –(E)DCF transmissions to access channel at assigned priority –PCFSs to be able to regain control of the channel periodically conflict-free at pre-specified time intervals No conflicts with PCFSs or CFSs from other BSSs or (E)DCF transmissions PCFSs can be generated by the PCF method in the present standard However, additional measures are needed to avoid collisions with either PCFSs or CFSs from other BSSs An optional feature is presented that eliminates the need for stations to keep track of Target Beacon Transmission Time

5. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 5 PCFS Channel Access Mechanism: Key features This prioritized distributed medium access protocol consists of 3 features 1Fixed Cycle Time Reduces conflicts with PCFSs from other BSSs 2Interleaving PCFSs/CFSs Reduces conflicts with CFSs from other BSSs 3Staggered Start-up (optional) Contiguous sequences of PCFSs to deter collisions with (E)STAs Assumption: We assume that there exists a mechanism for ‘busy’ channel detection (detection of the start and end of a CFS)

6. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 6 Fixed Cycle Time Repeating in cycles of length CP (CFPPeriod*DTIM), –Periodic contention-free sessions (PCFSs) are generated, one from each overlapping BSS PCFS attempts occur at the fixed specified time spacing since the start of the previous cycle –Each active AP sets a timer at CP; a PCFS is initiated when the timer expires –The timer is reset to CP (if there is no data to transmit); this starts a new cycle –Access is attempted with the shortest AIFS possible (E)DCF transmissions are attempted by their assigned priority A new HC can get started and, if there is collision, resolve such collisions through a random backoff If channel is busy at designated start time, PCFS is shortened by the time lost PCFS Contention Period PCFS repetition interval Busy channel PCF Foreshortened PCFS PCF Contention Period PCFS

7. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 7 AP2 sets timer=CP PCFS of AP1 PIFS PCFS of AP2 AP1 sets timer=CP PIFS SIFS PCFS of AP1 PIFS PCFS of AP2 PIFS SIFS TImer of AP1 expires & is reset Timer of AP2 expires & is reset PCFS repetition interval Future PCFSs will not conflict, given a sequence of non-conflicting PCFSs –Because their previous PCFSs did not conflict, the follower AP’s starting time is different from that of the leader’s –Provided that the CFPMaxDuration<CP/number of interfering BSS, the PCFSs will not conflict Non-conflicting PCFSs

8. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 8 Interleaving PCFSs/CFSs Both CFSs and PCFSs use the shortest AIFS CFSs and PCFSs from different BSSs may collide To lessen the contention between them, the CFS length sent to update the NAV and IBNAV is increased by a period IBCP (inter-BSS contention period) APs will attempt to access the channel during the IBCP only for a PCFS, while they will wait for NAV and IBNAV expiration before attempting a CFS IBCP duration >= slot time to enable carrier sensing NAV IBCP PCFS Contention Period CFS Contention Period PCFS

9. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 9 Option: Contiguous PCFSs Contiguous PCFs [gaps = PIFS] prevent DCF transmissions from conflicting with new PCFSs –This option can eliminate the need for stations to maintain TBTT Assumptions: We assume fully overlapping BSSs or partially overlapping BSSs with IBNAV protection Otherwise, we assume ‘parallel’ backoff [see paper on “Neighborhood Capture”] PCFSs are all the same size [see paper on “Neighborhood Capture” for the value of fixed-size PCFSs] PCFSs from interfering BSSs can be made contiguous by a ‘staggered start-up’ procedure similar to CPMA Given a sequence of contiguous PCFSs (separated by idle gaps = PIFS), future PCFSs will be contiguous if PCFSs are all the same size

10. Submission doc.: IEEE 802.11-01/569r1 November 2001 M. Benveniste -- AT&T Labs, ResearchSlide 10 QoS Management PCFSs provide regular access to the channel for periodic traffic The use of PCFSs alone cannot not provide efficient dynamic bandwidth allocation; CFSs generated on a contention-basis must complement PCFSs PCFSs and CFSs access the channel with the shortest AIFS To be assured timely access, only PCFSs will attempt access of the channel during the IBCP - the time interval added at the close of the NAV QoS requirements are met by each AP scheduling its traffic as follows: –Periodic traffic is transmitted in PCFSs –Non-periodic traffic is placed either in a PCFSs or in its allotted CFS according to traffic priority –Delay-sensitive traffic is scheduled first, followed by traffic of lower priorities