doc.: IEEE /0231r3 Submission March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 1 Efficient Methods for Coexistence with Other 60GHz Systems Date: Authors:

doc.: IEEE /0231r3 Submission March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 2 Abstract Overview of coexistence requirements for ad and suggestions for efficient methods for satisfying those requirements.

doc.: IEEE /0231r3 Submission March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 3 Outline Coexistence Requirements Assumptions Scanning for Existence of other 60GHz Systems Beacons to Prevent Interference by IEEE c Systems Straw Poll Questions

doc.: IEEE /0231r3 Submission March 2010 John R. Barr, JRBarr, Ltd. & NiCT TGad Coexistence Requirements From the TGad PAR: –It is in the best interest of users and the industry to strive for a level of coexistence between wireless systems. VHT will investigate coexistence with other systems in the 60 GHz band. One approach will be to investigate a common PHY between VHT and c, and adopt if feasible. Another approach is a common coexistence mechanism that may be used by other 60 GHz systems From TGad Functional Requirements: –[Req08] The system is required to support mechanisms that enable coexistence with other systems in the band including IEEE c systems. Slide 4

doc.: IEEE /0231r3 Submission Evaluation Criteria 42.3 Coexistence for FR Section 2.3 (Req08) –Proposers shall describe mechanisms by which coexistence of an ad AP and other 60 GHz systems and standards in the band is covered by the proposal. This should include coexistence with IEEE c. Those mechanisms may include energy detection, preamble detection or the use of some universal mode to communicate between the ad AP and the devices of the other 60GHz systems and standards. Once an interferer is detected, the ad AP should avoid interference through the use of beamforming, use of alternate available channel or other means to coexist. If the ad AP and the devices of the other 60GHz systems and standards operate co-channel, the performance of the coexistence mechanism can be measured by the effective throughput of the device in the presence of the interferer operating within the band. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 5

doc.: IEEE /0231r3 Submission 60 GHz Coexistence Assumptions TGad will use same channel frequencies as c, ECMA-387, and WirelessHD; and avoid using a channel that is “occupied” c systems using a channel will broadcast superframe beacons/sync frames using CMS (Common Mode Signaling) at least once every 66 mS identifying the piconet and when channel will be used during each superframe c, ECMA-387, and WirelessHD devices transmit without LBT in a variety of modulation modes when CTA (Channel Time Allocation) designated for their use. (TDMA MAC) Other systems may use beamforming or other methods to limit interference from other 60GHz devices. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 6

doc.: IEEE /0231r3 Submission March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 7 Scanning for Existence of Other 60 GHz Systems Prior to establishing a new BSS in one of the available 60 GHz channels, the initiator of the action (e.g., AP) needs to determine whether other 60 GHz systems are currently operating on any of the channels and which channel is best suited for handling a new BSS. Existing specifications for other 60 GHz systems all include the concept of a beacon transmitted at a consistent rate to inform devices of the existence of that 60 GHz system. ( c, ECMA-387, & WirelessHD). Detecting these beacons or significant energy in the channel is an indicator of the channel being occupied.

doc.: IEEE /0231r3 Submission ECMA-387 Beacons Regular beacon period with beacons from all devices using the channel. Three types of devices that all use same signal frequency (1.728 Gsps) and symbol duration ( ns). Maximum superframe length is 16 mS. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 8

doc.: IEEE /0231r3 Submission IEEE c Beacons Beacon or sync frame sent by piconet controller once per superframe. Maximum superframe length is 66 mS. Common Mode Signaling (CMS) used for beacon or sync frame. CMS has a chip rate of 1760 Mchip/s and a chip duration of ns. Sync frames may be sent by other devices in the piconet to inform other devices of channel activity. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 9

doc.: IEEE /0231r3 Submission WirelessHD Beacons Current version of WirelessHD was established prior to finalization of IEEE c. The AV OFDM mode defined in IEEE c was submitted by SiBEAM. At some point, the WirelessHD specifications may be updated to conform to the IEEE c standard. If future WirelessHD specifications conform to the IEEE c standard, they will transmit and detect CMS sync frames to enable coexistence with other 60 GHz systems. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 10

doc.: IEEE /0231r3 Submission IEEE c Coexistence Model Developed to handle multiple PHY modes with an efficient mechanism for coexistence in the multi- channel 60GHz spectrum. Approved by sponsor ballot with a broad cross section of IEEE 802 members. Primary component for consideration by TGad is transmission/reception of beacons/sync frames using CMS. –Beacon/sync frame will be sent at least once every 66 mS –Beacons/sync frames sent by other 60 GHz systems will be received during channel scan periods and will prevent establishment of another piconet in the same channel. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 11

doc.: IEEE /0231r3 Submission Recommended Text Add sub clause to (or other appropriate clause) regarding 60 GHz DFS: –Before a 60GHz STA starts a BSS in one of the 60GHz channels it shall perform a “60GHz scan operation” of the channel. If the “60GHz scan operation” indicates the channel is occupied, an alternate channel should be used for the BSS. If no 60GHz channel is free of other systems, the 60GHz STA may select a channel and enable other methods of coexistence. “60GHz scan operation” is currently TBD. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 12

doc.: IEEE /0231r3 Submission Protection from other 60GHz Systems Other 60GHz systems may also be attempting to utilized one or more of the available 60GHz channels, and some of these systems will avoid using a 60GHz channel occupied by another 60GHz system. However, there must be some indication provided by an GHz BSS that the channel is being used that can be detected by the other 60GHz system. Sync frames sent using CMS as defined in IEEE c is an accepted method: –All conforming IEEE c systems will avoid channels with a CMS sync frame –Future WirelessHD systems may also recognize CMS sync frames and avoid those channels March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 13

doc.: IEEE /0231r3 Submission IEEE c CMS Sync Frame CMS defined in clause of IEEE c-2009 –1760 Mchips/s modulated with π/2 BPSK/precoded (G)MSK as specified in –A sync frame for GHz systems could be a predefined sequence of symbols that would notify c systems that the channel is occupied and not available for use by other systems. An GHz CMS sync frame would need to be generated by the owner of a 60GHz BSS on a regular basis for detection by other 60GHz systems during channel scanning periods. Adoption of this portion of the IEEE c coexistence policy would drive similar adoption by other 60GHz systems. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 14

doc.: IEEE /0231r3 Submission IEEE c Sync Frame Overhead Sync Frame Consists of: (references to IEEE c) –Preamble – 944 octet fixed sequence as defined in –CMS PHY Header – 5 octet fixed values as defined in –MAC Header – 10+2(HCS) octet fixed values as defined in 7.2 –MAC Frame Body: Defined in Syncronization Parameters – 4 octet fixed values CTA – 4 octet fixed values –FCS: 32-bit CRC equivalent to ANSI X (See in IEEE ) –RS Parity – 16 octets fixed Total Octets = 944+(32*64)=2,992 (about 3 μS) Sync Frame Overhead for 66mS repetition is % March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 15

doc.: IEEE /0231r3 Submission Recommended Text Add a clause to section 11 regarding 60GHz coexistence methods: –The 60GHz AP shall protect the BSS from other 60GHz systems by transmitting CMS sync frames according to the dot11SyncFramePeriod parameter of the STA. –STAs in an IBSS shall protect the BSS from other 60GHz systems by transmitting CMS sync frames according to the dot11SyncFramePeriod parameter of the STA and following the rules for beacon generation in an IBSS ( ). Add a clause to section defining the 60GHz Sync Frame format: –Similar to clause with only one CTA block field hard coded to cover the entire superframe duration. Can also include clauses defining exact symbol sequence required for fixed sync frame definition. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 16

doc.: IEEE /0231r3 Submission Conclusion Adding 60GHz channel scanning and sync frame generation will provide for simple coexistence methods that should eventually be adopted by all other 60GHz systems. Use of pre-coded symbol sequences reduces impact on MAC/PHY implementation of 1760 Mchips/s single carrier PHY mode for coexistence. Completely satisfies TGad PAR requirements for coexistence. March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 17

doc.: IEEE /0231r3 Submission Straw Poll Questions Do you support inclusion of the technique, –pre-BSS establishment channel scanning for 60GHz BSS as described in 10/0231r3 in the TGad draft amendment? Do you support inclusion of the technique, –CMS sync frame transmission for 60GHz APs as described in 10/0231r3 in the TGad draft amendment? Do you support inclusion of the technique, –CMS sync frame transmission for IBSS STAs as described in 10/0231r3 in the TGad draft amendment? March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 18

doc.: IEEE /0231r3 Submission March 2010 John R. Barr, JRBarr, Ltd. & NiCTSlide 19 References ad-evaluation-methodology.doc ad-functional-requirements.doc vht-60-ghz-par-nescom-form-plus-5cs.doc ad-response-to c.ppt ad-common-mode-signaling-cms-for-intersystem- coexistence-enhancement.ppt ad-tg3c-dev-sync-frame-transmission-for-adjacent- piconet-coexistence.ppt ad-topology-considerations-on-contention-based- directional-mac-simulation.ppt ad-wirelesshd-coexistence.ppt IEEE Std c™-2009 ECMA-387