Submission doc.: IEEE 11-12/0657r1 May 2012 Panasonic Slide 1 Target PER at receiver sensitivity power level for use case 1g Date: 2012-05-15 Authors:

Slides:



Advertisements
Similar presentations
Doc.: IEEE /0204r2 Submission March 2010 David Halasz, AclaraSlide 1 Comments on Sub 1 GHz license-exempt operation Date: Authors:
Advertisements

Doc.: IEEE Submission January 2010 Rick Roberts (Intel)Slide 1 Project: IEEE P Working Group for Wireless Personal Area Networks.
Sounding and P Matrix Proposal
Doc.: IEEE /0104r1 SubmissionLiwen Chu Etc.Slide 1 Fragmentation with A-MPDU Date: Authors: Date: Jan, 2012.
Doc.: IEEE /0338r1 Submission March 2012 Hung-Yu Wei, National Taiwan UniversitySlide 1 DeepSleep: Power Saving Mode to Support a Large Number.
Doc.: IEEE /1392r0 Submission November 12, 2008 De Vegt (Qualcomm)Slide 1 Inputs for a VHT Selection Procedure Date: Authors:
IEEE g Submission Sangsung Choi & Cheolho Shin, ETRI Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs)
Doc.: IEEE /0237r0 Submission February 12, 2009 Rolf de Vegt (Qualcomm)Slide 1 Inputs for a ac Spec Framework Methodology Date:
Doc.: IEEE /301R0 Submission May 2002 Terry Cole, AMDSlide 1 A More Efficient Protection Mechanism Terry Cole AMD Fellow +1.
1Runcom Technologies Ltd. Submission Eli Sofer, Runcom March 2007 Doc.: IEEE /0202r0 Slide 1 Runcom Preamble vs. Phillips Proposed Sequences IEEE.
Doc.: IEEE /1290r0 Submission November 2010 Allert van Zelst, QualcommSlide 1 VHT-SIG-B in NDPs Date: Authors:
Doc.: IEEE /0156r0 Submission January 2010 Ashish Shukla, MarvellSlide 1 Reorganizing Mesh Channel Switch Announcement Text Date: Authors:
Doc.: IEEE /0018r1 Submission January 2006 Patrick Pirat, France TelecomSlide 1 OQAM performances and complexity IEEE P Wireless RANs Date:
Doc.: IEEE g TG4g - SUN November 2009 Phil Beecher, Beecher Communications Consultants Ltd Slide 1 Project: IEEE P Working Group.
Nov 2004 doc:IEEE b Slide 1 Submission Liang Li, WXZJ Inc. Project: IEEE P Working Group for Wireless Personal Area Networks.
Doc.: IEEE /1043 Submission NameAffiliationsAddressPhone Giwon ParkLG Electronics LG R&D Complex 533, Hogye- 1dong, Dongan-Gu, Anyang, Kyungki,
Submission doc.: IEEE /0325r0 March 2012 Slide 1 TIM Enhancement With Group Bits Date: Authors: Zhong-Yi Jin, Nokia.
Submission doc.: IEEE /0244r0 March 2012 Panasonic Slide 1 Experimental results of indoor path-loss in actual European houses Date:
Doc.: IEEE /0301r2 Submission March 2011 David Halasz, OakTree WirelessSlide 1 Categories of TGah Use Cases and Straw Polls Date: Authors:
PHY Abstraction for TGax System Level Simulations
Doc.:IEEE /0859r0 July 2012 Simone Merlin, Qualcomm Inc Short Block Ack Date: Authors:
Submission doc.: IEEE /0852r0 July 2014 Lee Armstrong, Armstrong Consulting, Inc.Slide 1 ITU/ETSI Liaison Action Needed Date: Authors:
Doc.: IEEE Submission May 2010 Slide 1 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Comments.
Doc.: IEEE Submission July 2010 Slide 1 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Comments.
Doc.: IEEE /1363r0 Submission November 2013 Ron Porat, Broadcom Evaluation Methodology Open Items Date: Authors: Slide 1.
Doc.: IEEE /0092r1 January 2012 Shimada, Yokogawa Electric Corp. Submission Proposed US Channelization for IEEE ah Slide 1 Authors: Date:
Doc.: IEEE /0613r0 Submission May 2012 Ron Porat, Broadcom US Channelization Date: Authors: Slide 1.
Doc.: IEEE /1516r0 Submission November 2011 Huai-Rong Shao, et.al. Samsung ElectronicsSlide ah Channelization Proposal for US Date:
Doc.: IEEE /1550r1 Submission Nov 2011 Zander, I2R SingaporeSlide 1 Extension of AID and TIM to Support 6000 STAs in ah Date:
Doc.: IEEE /1205r1 Submission September 2011 ZTE CorporationSlide 1 Consideration on battery power alarm mechanism for IEEE ah framework.
Doc.: IEEE /1106r0 Submission September 2012 Osama Aboul-Magd, Huawei TechnologiesSlide 1 A Short-Header Frame Format Date: Authors:
Doc.: IEEE /0273r0 February 2011 Stefan Aust, NEC Communication Systems Submission Slide 1 TGah Use Case: AP Power Saving in Smart Grid Authors:
Doc.: IEEE /1329r1 Submission September 2011 Rolf de Vegt, QualcommSlide 1 Motions and Strawpoll on Channelization for 11ah Date: Authors:
March 2013 doc.: IEEE m Submission 1 (ETRI) Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission.
Doc.: IEEE /1294r0 Submission September 2011 Rolf de Vegt, QualcommSlide 1 Spec Framework Text for.11ah Bandwidth Modes Date: Authors:
Doc.: IEEE /1345r0 Submission November 2013 Jiamin Chen, HuaweiSlide 1 Dynamic Channel Transfer(DCT) Procedure for IEEE aj ( 60GHz New Technique.
ZTE corporation doc.: IEEE /1086r2 September 2012 Submission TIM Compression for No Buffered Unicast Traffic Date: Slide 1 Authors:
Doc.: IEEE /0810r0 Submission May 2011 Minho Cheong, ETRISlide 1 Selection of Key Requirement Elements for Baseline FR-EM Document Date:
Doc.:IEEE /0439r0 March 2012 Switching between DCF and PP-MAC Date: Slide 1 Authors:
Doc.: IEEE /0608r2 Submission May 2012 Shoukang Zheng et. al, I2R, SingaporeSlide 1 Low-Power PS-Poll Date: Authors:
Doc.: IEEE /0665r1 Submission May 2012 Anh Tuan Hoang et al (I2R) Slide 1 Prioritized PS-Polls Date: Authors:
Submission doc.: IEEE /0328r0 Nokia Internal Use Only March 2012 Slide 1 Date: Authors: PS-Poll Enhancements Chittabrata Ghosh, Nokia.
Doc.: IEEE /1457r0 Submission December 2010 David Halasz, OakTree WirelessSlide 1 Frequency Hopping Review and IEEE ah Date:
Doc.: IEEE /0983r0 Submission September 2008 Carl Kain, Noblis/USDOTSlide 1 Response to Various Clause 17 Comments LB 125 Date: Authors:
Doc.: IEEE /0517r0 May 2013 Submission Slide 1 Authors: Combining Process in Virtual CS Mechanism for ah Date: Lv kaiying, ZTE.
Doc.: IEEE /0309r1 Submission March 2012 Hongyuan Zhang, et. Al.Slide 1 1MHz Waveform in Wider BW Date: Authors:
Doc.: IEEE /0371r0 Submission March 2012 Ron Porat, Broadcom BF Feedback and Protocol Date: Authors: Slide 1.
Doc.: IEEE /0373r0 Submission March 2012 Ron Porat, Broadcom BF Frame Format Date: Authors: Slide 1.
Doc.: IEEE m Nov NICT Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs)‏ Submission Title: [Proposal.
Doc.: IEEE /1278r0 Submission BSS load balancing for MU-MIMO Date: Authors: Nov 2010 Slide 1Daewon Lee, LG Electronics.
Doc.: IEEE /1277r0 Submission MU-MIMO support for Heterogeneous Devices Date: Authors: Nov 2010 Slide 1Byeongwoo Kang, LG Electronics.
Doc.: IEEE /1123r0 Submission September 2010 Zhu/Kim et al 1 Date: Authors: [TXOP Sharing for DL MU-MIMO Support]
Doc.: IEEE /0606r1 Submission Uplink Channel Access Date: Authors: May 2012 Minyoung Park, Intel Corp.Slide 1.
Doc.: IEEE /0440r1 Submission July 2013 Jiamin Chen, HuaweiSlide 1 Dynamic Channel Transfer(DCT) procedure for IEEE aj ( 60GHz ) Date:
Cyclic Shift Diversity Design for IEEE aj (45GHz)
TIM Compression Date: Authors: January 2012 Month Year
Doc.: IEEE /1489r0 Submission Nov Heejung Yu, ETRISlide 1 Green-Field 11ac Packet for TGah Date: Authors:
Submission doc.: IEEE /1357r3 Nov Slide 1 Dynamic TIM and Page Segmentation Date: Authors: Weiping Sun, Seoul National University.
Discussions on the Definition of CCA Threshold
Submission doc.: IEEE /1326r0 Extend Submission Panasonic Nov 2012 PSDU Size For Receiver Sensitivity Power Level Date: Authors:
Doc.: IEEE /0819r1 Submission July 2012 Hongyuan Zhang, et. Al.Slide 1 Preamble Discussions Date: Authors:
Doc.: IEEE /1484r4 Submission January 2012 Hongyuan Zhang, et. Al.Slide 1 11ah Data Transmission Flow Date: Authors:
DMG Base MCS and Length Supplementary Slides
Bandwidth Indication Design for 120MHz
MIMO Coding for SC PHY in 11ay
Discussion concerning MC-OOK and CIDs 212 and 665
Target PER at receiver sensitivity power level for use case 1g
Dynamic TIM and Page Segmentation
TGah Coexistence Assurance
Discussion concerning MC-OOK and CIDs 212 and 665
Presentation transcript:

Submission doc.: IEEE 11-12/0657r1 May 2012 Panasonic Slide 1 Target PER at receiver sensitivity power level for use case 1g Date: Authors:

Submission doc.: IEEE 11-12/0657r1 Slide 2Panasonic May 2012

Submission doc.: IEEE 11-12/0657r1 Slide 3Panasonic May 2012 Abstract Propose target PER at receiver sensitivity power level for use case 1g [1].

Submission doc.: IEEE 11-12/0657r1 Slide 4Panasonic May 2012 Background and motivation Straw poll result of DCN r0 at the last F2F meeting was “Do you agree that in addition to MCS0 rep2 other technique to improve link margin should to be devised and included in Spec Framework?” RESULT: YES: 28 NO: 0 ABSTAIN: 21 A comment “Link budget depends on target PER.” was received about DCN r0 at IEEE802 Plenary Meeting Mar Target PER should be clarified for fair comparison to decide the above other techniques in simulation.

Submission doc.: IEEE 11-12/0657r1 Slide 5Panasonic May 2012 Basic policy to decide target PER Target PER for ah should be equal to or better than the IEEE g Why? a.Use case 1g (i.e. HEMS, BEMS) [1] is similar to one target application of IEEE g. b.Devices of 11ah might not be used if 11ah devices’ performance is worse than devices of 15.4g for sensor networks.

Submission doc.: IEEE 11-12/0657r1 Slide 6Panasonic May 2012 IEEE g target PER g-2012.pdf (official version) specifies the following PER. SUN stands for Smart Utility Network  A few 100 octets packet size is needed for use case 1g [1].  PER specification of IEEE g at receiver sensitivity power level is PER < 10 % for a packet length = 250 octets.

Submission doc.: IEEE 11-12/0657r1 Slide 7Panasonic May 2012 TGah target PER for use case 1g Target PER at receiver sensitivity level should be better or equal to the IEEE g PER for use case 1g. Therefore, PER at receiver sensitivity level shall be less than 10% for PSDU length 250 octets for use case 1g.

Submission doc.: IEEE 11-12/0657r1 Slide 8Panasonic May 2012 Straw Poll Do you agree that for determining receiver sensitivity level requirements PER shall be less than 10% and PSDU length 250 octets for use case 1g? Yes: No: Abstain:

Submission doc.: IEEE 11-12/0657r1 Slide 9Panasonic May 2012 [1]DCN r0 References

Submission doc.: IEEE 11-12/0657r1 Slide 10Panasonic May 2012 Annex

Submission doc.: IEEE 11-12/0657r1 Slide 11Panasonic May 2012 Definition of SUN PHY (15.4g) Sub-carrier modulation techniques defined by 15.4g is very close to MCSs defined by TGah.

Submission doc.: IEEE 11-12/0657r1 Slide 12Panasonic May Forward error correction (FEC) (d7P g_Draft_Standard.pdf) The DATA field shall be coded with a convolutional encoder of coding rate R = 1/2 or 3/4, corresponding to the desired data rate. The convolutional encoder shall use the generator polynomials expressed in octal representation, g0 = and g1 = 171 8, of rate R = ½, as shown in Figure 125. The convolutional encoder shall be initialized to the all zeros state before encoding the PHR and then reset to the all zeros state before encoding the PSDU. FEC technique of IEEE g when coding rate R is ½ is as same as the MCS0 defined by TGah. Difference between 15.4g and TGah is repetition technique. 15.4g: frequency domain repetition, TGah: time domain repetition Comparison with 15.4g target PER can be reasonable. R=1/2 K = 7 FEC of 15.4g OFDM

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.