Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Nov 2014 Slide 1 EPD for IEEE 802.11 5.9GHz Operations Date: 2014-11-5 Authors: Nov 2014 Date: 2014-11-5.

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Presentation transcript:

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Nov 2014 Slide 1 EPD for IEEE GHz Operations Date: Authors: Nov 2014 Date:

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Abstract Background Rationale for switching from LLC Protocol Discrimination (LPD) to EtherType Protocol Discrimination (EPD) in the IEEE GHz bands Current status of implementations and support Slide 2 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Background From their inception, (LLC) and (L/T aka Ethernet) have been and continue to be incompatible layer-2 (LLC-sublayer) protocols. Somewhere between 1999 and 2007, IEEE specifically designated LLC (as defined in 802.2) as the Logical Link Control sublayer protocol to be used in all STAs. Ethernet now dominates the LAN market (FDDI and Token Ring are disappearing) Slide 3 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Background IEEE was withdrawn in 2011 and is no longer supported by IEEE (ISO maintains a “stabilized” version in ISO/IEC :1998) IEEE Overview and Architecture explicitly discourages the use of LLC in the future. –“New IEEE 802 standards shall support protocol discrimination in the LLC sublayer using EPD.” Slide 4 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Background The use of EtherTypes instead of DSAP/SSAP addresses as network layer protocol identifiers means LLC SNAP/RFC1042 has to be used (cf. IEEE ) As a consequence, six (6) octets of fixed content (and therefore useless) are transmitted in every over-the-air stream. Slide 5 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Background Slide 6 LLC-sublayer (LPD) header format (LLC SNAP RFC1042) Length/Type encoding (EPD) header format Length < 1503 (0x05DF) Ethertype > 1535 (0x05FF) Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Rationale There are currently no commercial deployments of IEEE GHz units/systems (only prototype units in trials); hence the 5.9 GHz MAC/PHY can be considered to be “new”. Therefore, EPD should be used because it is: –more efficient (6 bytes saved in every data frame) –“compatible” with ethernet LANs and 802.1Q bridges –compatible with GLK (EPD) operation (when standardization is complete) –IEEE mandates it! Slide 7 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Current Implementations 4 vendors of 5.9 GHz (11p) radio units have made and successfully tested the change (< 2 man-hours of effort) –Q-Free –Commsignia –Savari Networks –Arada Systems Slide 8 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Current Implementations 4 vendors of 5.9 GHz (11p) radio units have made and successfully tested the change (< 2 man-hours of effort) –Q-Free –Commsignia –Savari Networks –Arada Systems Slide 9 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Current Implementations - LPD (before) Slide 10 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Current Implementations - EPD (after) Slide 11 Nov 2014

Submission doc.: IEEE 11-14/1521r0 Dick Roy (SRA) Current Support Several other vendors have indicated support for the change In October 2014, TC 204 passed the following resolution: “Resolution 1072: ISO/TC 204 resolves to support a change from LPD to EPD in the specifications for 5.9 GHz frequency bands. APPROVED” Slide 12 Nov 2014

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