Doc.: IEEE 802.11-10/1305r1 Submission January 2011 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) Slide 1 IEEE.

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doc.: IEEE /1305r1 Submission January 2011 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) Slide 1 IEEE g OFDM PHY Overview Date: Authors:

doc.: IEEE /1305r1 Submission PAR This amendment defines an Orthogonal Frequency Division Multiplexing (OFDM) Physical layer (PHY) operating in the license-exempt bands below 1 GHz, e.g., MHz (Europe), 950 MHz -958 MHz (Japan), MHz, MHz, MHz, and MHz (China), 917 – MHz (Korea) and MHz (USA), and enhancements to the IEEE Medium Access Control (MAC) to support this PHY, and provides mechanisms that enable coexistence with other systems in the bands including IEEE and IEEE P g. The data rates defined in this amendment optimize the rate vs range performance of the specific channelization in a given band. This amendment also adds support for: -transmission range up to 1 km -data rates > 100 kbit/s while maintaining the WLAN user experience for fixed, outdoor, point to multi point applications. January 2011 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) Slide 2

doc.: IEEE /1305r1 Submission Design goals for SUN PHY for outdoor wireless communication High density deployment with up to 3 collocated networks. Low cost device Low power device Robust PHY Data rate up to 1Mbps and higher than 40kbps Frame size up to 1500 bytes 3 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) January 2011

doc.: IEEE /1305r1 Submission OFDM Options g OFDM Option 1Option 2Option 3Option 4Unit Sampling Rate Samp/sec FFT size Tone Spacing Hz FFT Duration96 microsec Guard Interval24 microsec Symbol Duration120 microsec Symbol Rate8.333 kSym/sec Active Tones # Pilots tones8422 # Data Tones # DC null tones1111 Approximate Signal BW kHz Modulation TypeMCS #Data Rates BPSK 1/2 rate coded and 4x repetition kbps BPSK 1/2 rate coded and 2x repetition kbps QPSK 1/2 rate coded and 2x repetition kbps QPSK 1/2 rate coded kbps QPSK 3/4 rate coded kbps 16-QAM 1/2 rate coded kbps 16-QAM 3/4 rate coded kbps 4 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) January 2011

doc.: IEEE /1305r1 Submission Similarities with Same bit-to-symbol mapping Same convolutional encoder (1/2 rate, constraint length K=7, generator polynomial g0=133 and g1 = 171) Same puncturer for ¾ rate coding Same interleaver Option 2 has the same number of active tones (52) and same number of pilot tones (4) Similar STF, LTF, Header, Tail and Pad structure 5 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) January 2011

doc.: IEEE /1305r1 Submission Differences with OFDM narrow band options are based on operating clock shrink: tone spacing reduction, guard interval increase g options are based on different FFT sizes: constant tone spacing and cyclic prefix 6 Active Tones Tone SpacingGuard Interval kHz0.8 us MHz 54Mbps kHz1.6 us MHz 27Mbps kHz3.2 us MHz 13.5Mbps kHz6.4 us MHz 6.75Mbps kHz24 us g 200kHz 300kbps g 300kHz 600kbps g 600kHz 800kbps g 1.2MHz 800kbps ah Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) January 2011

doc.: IEEE /1305r1 Submission Further tasks… Analyze and resolve potential issues around MAC and TG4g PHY interface (CRC, PHY settings, etc.) Potential MAC enhancement requests. Explore some new options with data rates between 800kbps and 6.75Mbpses? Further scaling down of and/or scaling up TG4g options with data rates above 800kbps. TG4g Frequency Hopping, can/should we use it? Recommended not to use it. But need to find a way to make the best use of the spectrum available. TG4g OFDM vs PPDU format issues or conflicts. –Can this cause potential degradation of Rx performance via miss-reads, etc.? –Are there other coexistence issues? Slide 7 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) January 2011

doc.: IEEE /1305r1 Submission Further tasks… PHY practices that should be considered for TG4g. –For determining channel numbers, we would like to propose using a building up data rates from a base of 200khz vs. divide by 2 mechanisms presently proposed. –Faster TG4g OFDM data rates and impact. Should we consider 64-QAM? Channel model characterized including Doppler spread and consideration of MIMO. Slide 8 Monnerie (Landis+Gyr), Buffington (Itron), Shimada (Yokogawa Co.), Waheed (Freescale) January 2011

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