Presentation is loading. Please wait.

Presentation is loading. Please wait.

Submission doc.: IEEE 802.11-12/0656r1 Slide 1Panasonic September 2012 Extended Sleep mode for battery powered STAs Date: 2012-09-07 Authors: NameAffiliationsAddressPhoneEmail.

Published byCornelia Andrews Modified over 8 years ago

Similar presentations

Presentation on theme: "Submission doc.: IEEE 802.11-12/0656r1 Slide 1Panasonic September 2012 Extended Sleep mode for battery powered STAs Date: 2012-09-07 Authors: NameAffiliationsAddressPhoneEmail."— Presentation transcript:

1 Submission doc.: IEEE 802.11-12/0656r1 Slide 1Panasonic September 2012 Extended Sleep mode for battery powered STAs Date: 2012-09-07 Authors: NameAffiliationsAddressPhoneEmail Rojan ChitrakarPanasonic R&D center Singapore Blk1022 Tai Seng Ave #06-3530 Singapore +65-65505347Rojan.Chitrakar@sg.panasonic.com Ken MoriPanasonic Corp Mori.ken1@jp.panasonic.com Chittabrata GhoshNokiaBerkeley, CA+1 650 200 7566chittabrata.ghosh@nokia.com Klaus DopplerNokia Taejoon KimNokia Sayantan ChoudhuryNokia Minyoung ParkIntelHillsboro, OR+1 503 712 4705minyoung.park@intel.com Tom TetzlaffIntel Emily QiIntel Thomas KenneyIntel Yongho SeokLG Electronics Jinsoo ChoiLG Electronics Jeongki KimLG Electronics Jin Sam KwakLG Electronics ChaoChun WangMediaTek James WangMediaTek Jianhan LiuMediaTek Vish PoonampalamMediaTek James YeeMediaTek Thomas PareMediaTek Kiran UlnMediaTek

2 Submission doc.: IEEE 802.11-12/0656r1 Slide 2Panasonic September 2012 Authors: NameAffiliationsAddressPhoneEmail Huai-Rong Shao Samsung Electronics Chiu NgoSamsung Electronics Yong LiuMarvell Hongyuan ZhangMarvell Sudhir SrinivasaMarvell Simone MerlinQualcommSan Diego, CA+1 858 845 1243smerlin@qualcomm.com Santosh AbrahamQualcomm Menzo WentinkQualcomm Alfred AsterjadhiQualcomm Amin JafarianQualcomm Hemanth SampathQualcomm VK JonesQualcomm Osama Aboul-MagdHuawei George CalcevHuaweiRolling Meadows,IL Young Hoon KwonHuawei Betty ZhaoHuawei David YangxunHuawei Bin ZhenHuawei Minho CheongETRI Jae Seung LeeETRI Hyoungjin KwonETRI Heejung YuETRI Jaewoo ParkETRI Sok-kyu LeeETRI Sun, Bo ZTE Lv, KaiyingZTE

3 Submission doc.: IEEE 802.11-12/0656r1 Slide 3Panasonic September 2012 Authors: NameAffiliationsAddressPhoneEmail Eric WongBroadcomSunnyvale, CA+1 408 922 6672ewong@broadcom.com Matthew FischerBroadcommfischer@broadcom.com Haiguang WangI2R Shoukang ZhengI2R Yeow Wai LeongI2R Zander LeiI2R Jaya ShankarI2R Anh Tuan HoangI2R Joseph Teo Chee MingI2R

4 Submission doc.: IEEE 802.11-12/0656r1 Slide 4Panasonic September 2012 Background 12-0069r5 introduced mechanism to extend the Max Idle Period to days and even months and also added capability for the AP to support multiple Max Idle Periods extension in order to support multiple device categories.

5 Submission doc.: IEEE 802.11-12/0656r1 Slide 5Panasonic September 2012 Prior Proposals In 12-0656r0, we introduced mechanism to extend the WNM- Sleep Interval of battery powered STAs by using different scaling factors. Fair amount of support was received in the two straw polls:  SP1: Do you agree that mechanisms must be considered to extend the WNM-Sleep Interval? 14 Y: 0 N: 22 A  SP2: Do you support having different scaling factors for WNM-Sleep Interval (using one or two bits to represent different types of units for WNM-Sleep Interval and the remaining bits for the actual value)? 9 Y: 0 N: 22 A In this presentation, we follow up on our earlier work and propose unified mechanism to extend BSS Max Idle Period, Listen Interval and WNM-Sleep Interval.

6 Submission doc.: IEEE 802.11-12/0656r1 Slide 6Panasonic September 2012 Scaling Factor All of the concerned fields: BSS Max Idle Period, Listen Interval and WNM-Sleep Interval are two bytes long. In order to extend the range of BSS Max Idle Period, Listen Interval and WNM-Sleep Interval, we propose using the first two MSB to represent the Scaling Factor (SF) and the remaining 14 bits to indicate the actual value. B1B2Scaling Factor (SF) 001 0110 1000 1110000 16151413121110987654321 ValueScaling

7 Submission doc.: IEEE 802.11-12/0656r1 Slide 7Panasonic September 2012 Minimum and Maximum Value UnitMin. Step Size (SF = 1) Max. Value (SF = 10000) BSS Max Idle Period 1000TU1000TU = 1.024s 16383*10000*1000TU = 4660hrs ~ 1941 days Listen Interval BI 16383*10000*BI (4550 hrs ~189 days if BI = 100ms) WNM-Sleep Interval DI 16383*10000*DI (13652 hrs ~ 568 days if BI = 100ms & DI = 3*BI) The minimum step size as well as the Maximum value achievable with the proposed scaling method is described in the table below:

8 Submission doc.: IEEE 802.11-12/0656r1 Slide 8Panasonic September 2012 Benefits Benefits of using the 2 + 14 bits method: 1.No additional signaling required between AP and STAs to negotiate the Scaling Factor. 2.No changes required to the current frame formats; only the interpretation of certain fields are different. 3.Since the Scaling Factors are carried together with the Intervals, there is no need for AP to store the Scaling Factor used by different STAs thereby saving AP’s resources.

9 Submission doc.: IEEE 802.11-12/0656r1 Slide 9Panasonic September 2012 Conclusion By using unified Scaling Factors for BSS Max Idle Period, Listen Interval and WNM-Sleep Interval, we can extend the sleep duration of both TIM and non-TIM STAs.

10 Submission doc.: IEEE 802.11-12/0656r1 Slide 10Panasonic September 2012 References [1] 12-127r1 Low Power Medium Access [2] 12-615r0 Non-TIM Stations in 11ah [3] 12-0069r5 Consideration on max-idle period extension for 11ah power-save [4] 12-0618r0 Listen interval for sensor devices

11 Submission doc.: IEEE 802.11-12/0656r1 Slide 11Panasonic September 2012 Straw Poll 1 Do you support extending the BSS Max Idle Period, Listen Interval and WNM-Sleep Interval by introducing unified Scaling Factors i.e.. using the first two MSB bits to represent the Scaling Factor (SF) and the remaining 14 bits to indicate the actual value? Y: N: A: 16151413121110987654321 ValueScaling

12 Submission doc.: IEEE 802.11-12/0656r1 Slide 12Panasonic September 2012 Straw Poll 2 Do you support using the Scaling Factors as shown in the table below? Y: N: A: B1B2Scaling Factor (SF) 001 0110 1000 1110000

13 Submission doc.: IEEE 802.11-12/0656r1 Slide 13Panasonic September 2012 Annex

14 Submission doc.: IEEE 802.11-12/0656r1 Slide 14Panasonic September 2012 Background: WNM Sleep Mode APSTA Association Request Association Response WNM Sleep Mode Request WNM Sleep Mode Response 1) Max Idle Period negotiation: STA indicates to the AP that it supports WNM-Sleep Mode by setting the WNM-Sleep Mode field to 1 in the Extended Capabilities IE in the Association Request Frame. AP decides the Max Idle Period it can support based on the available resources and notifies the STA in the Association Response Frame. 2) WNM-Sleep Mode Setup: STA requests permission to enter WNM-Sleep Mode and optionally also indicates the actual wake up time in the “WNM-Sleep Interval” field in the WNM-Sleep Mode Request frame if the STA wishes to receive group-addressed traffic indicated in the DTIM. AP grants/denies permission to enter WNM-Sleep Mode. WNM-Sleep mode enables a non-AP STA to signal to an AP that it will be sleeping for a specified length of time. This enables a non-AP STA to reduce power consumption and remain associated while the non-AP STA has no traffic to send to or receive from the AP.

15 Submission doc.: IEEE 802.11-12/0656r1 Slide 15Panasonic September 2012 WNM Sleep Mode Setup The WNM-Sleep Interval field (16 bits) indicates to the AP how often a STA in WNM-Sleep Mode wakes up to receive Beacon frames, defined as the number of DTIM intervals. According to 802.11-2012 Base Specification, the WNM-Sleep Interval field shall be less than BSS Max idle period.

16 Submission doc.: IEEE 802.11-12/0656r1 Slide 16Panasonic September 2012 Motion 1 Move to add to SFD mechanism to extend the BSS Max Idle Period, Listen Interval and WNM-Sleep Interval by introducing Unified Scaling Factors i.e. using the first two MSB to represent the Scaling Factor (SF) and the remaining 14 bits to indicate the actual value. Y: N: A: 16151413121110987654321 ValueScaling

17 Submission doc.: IEEE 802.11-12/0656r1 Slide 17Panasonic September 2012 Motion 2 Move to add to SFD the definition of the Unified Scaling Factors as shown in the table below: Y: N: A: B1B2Scaling Factor (SF) 001 0110 1000 1110000

Download ppt "Submission doc.: IEEE 802.11-12/0656r1 Slide 1Panasonic September 2012 Extended Sleep mode for battery powered STAs Date: 2012-09-07 Authors: NameAffiliationsAddressPhoneEmail."

Similar presentations

Doc.: IEEE 802.11-13/0507r0 Submission Synch Frame Follow Up Date: 2013-5-13 Authors: May 2013 NameAffiliationsAddressPhoneemail Young Hoon KwonHuawei.

Doc.: IEEE /0507r0 Submission Synch Frame Follow Up Date: Authors: May 2013 NameAffiliationsAddressPhone Young Hoon KwonHuawei.
NDP Type PS-Poll Frame Date: Authors: July 2012 Month Year

NDP Type PS-Poll Frame Date: Authors: July 2012 Month Year
Doc.: IEEE 802.11-12/0612r0 Submission Serivice Type Indication in Association Date: 2012-05-xx Authors: May 2012 Wu Tianyu, HuaweiSlide 1 NameAffiliationsAddressPhoneemail.

Doc.: IEEE /0612r0 Submission Serivice Type Indication in Association Date: xx Authors: May 2012 Wu Tianyu, HuaweiSlide 1 NameAffiliationsAddressPhone .
Submission doc.: IEEE 802.11-12/1357r3 Nov. 2012 Slide 1 Dynamic TIM and Page Segmentation Date: 2012-11-08 Authors: Weiping Sun, Seoul National University.

Submission doc.: IEEE /1357r3 Nov Slide 1 Dynamic TIM and Page Segmentation Date: Authors: Weiping Sun, Seoul National University.
Restricted Access Window Signaling for Uplink Channel Access

Restricted Access Window Signaling for Uplink Channel Access
Doc.: IEEE 802.11-12/376r1 Submission March 2012 Anna Pantelidou, Renesas Mobile CorporationSlide 1 On The BSS Max Idle Period Date: 2012-03-13 Authors:

Doc.: IEEE /376r1 Submission March 2012 Anna Pantelidou, Renesas Mobile CorporationSlide 1 On The BSS Max Idle Period Date: Authors:
Submission Jan 2012 doc.: IEEE 11-12/69r2 ZTE CorporationSlide 1 Consideration on Max Idle Period Extension for 802.11ah Power Save Date: 2012-01-19 Authors:

Submission Jan 2012 doc.: IEEE 11-12/69r2 ZTE CorporationSlide 1 Consideration on Max Idle Period Extension for ah Power Save Date: Authors:
Doc.: IEEE 802.11-12/0816r0 Submission July 2012 Channel Selection for 802.11ah Date: 2012-07-16 Slide 1 Name AffiliationsAddressPhoneemail Huai-Rong Shao.

Doc.: IEEE /0816r0 Submission July 2012 Channel Selection for ah Date: Slide 1 Name AffiliationsAddressPhone Huai-Rong Shao.
TGah Submission Doc:11-12-0852-00-00ah July, 2012 Sectorization for hidden node mitigation NameAffiliationsAddressPhoneemail George Calcev Huawei3601 Algonquin.

TGah Submission Doc: ah July, 2012 Sectorization for hidden node mitigation NameAffiliationsAddressPhone George Calcev Huawei3601 Algonquin.
Doc.: IEEE 802.11-11/0060r1 Submission January 2011 Minyoung Park, Intel Corp.Slide 1 Low Power Capability Support for 802.11ah Date: 2011-01-17 Authors:

Doc.: IEEE /0060r1 Submission January 2011 Minyoung Park, Intel Corp.Slide 1 Low Power Capability Support for ah Date: Authors:
Submission doc.: IEEE 802.11-12/0834r0 Speed Frame Exchange Date: 2012-07-16 Slide 1 Authors: July 2012 Eric Wong, Broadcom NameAffiliationsAddressPhoneEmail.

Submission doc.: IEEE /0834r0 Speed Frame Exchange Date: Slide 1 Authors: July 2012 Eric Wong, Broadcom NameAffiliationsAddressPhone .
Doc.: IEEE 802.11-13/0508r0 Submission May 2013 Ron Porat, Broadcom Modulation Accuracy Date: 2013-05-13 Authors: Name AffiliationsAddressPhoneemail Ron.

Doc.: IEEE /0508r0 Submission May 2013 Ron Porat, Broadcom Modulation Accuracy Date: Authors: Name AffiliationsAddressPhone Ron.
Doc.: IEEE 802.11-13/0285r0 March 2013 Submission Resource Allocation Frame Format for RAW- based Medium Access Date: 2013-03-18 Authors: Chittabrata Ghosh,

Doc.: IEEE /0285r0 March 2013 Submission Resource Allocation Frame Format for RAW- based Medium Access Date: Authors: Chittabrata Ghosh,
Doc.: IEEE 802.11-12/1302r0 Submission November 2012 Yongho Seok, LG ElectronicsSlide 1 TXOP Truncation Date: 2012-11-12 Authors: NameAffiliationsAddressPhoneEmail.

Doc.: IEEE /1302r0 Submission November 2012 Yongho Seok, LG ElectronicsSlide 1 TXOP Truncation Date: Authors: NameAffiliationsAddressPhone .
TGah Submission Doc:11-12-0610-00-00ah May, 2012 Non-TIM Stations in 11ah NameAffiliationsAddressPhoneemail George Calcev Huawei3601 Algonquin Road, Rolling.

TGah Submission Doc: ah May, 2012 Non-TIM Stations in 11ah NameAffiliationsAddressPhone George Calcev Huawei3601 Algonquin Road, Rolling.
Doc.: IEEE 802.11-13/0089r0 Submission Listen interval update Jan 2013 Slide 1 Date: 2013-01-13 Authors: Jinsoo Choi, LG Electronics.

Doc.: IEEE /0089r0 Submission Listen interval update Jan 2013 Slide 1 Date: Authors: Jinsoo Choi, LG Electronics.
Doc.: IEEE 802.11-15/0880r2 Submission Scheduled Trigger frames July 2015 Slide 1 Date: 2015-07-04 Authors: A. Asterjadhi, H. Choi, et. al.

Doc.: IEEE /0880r2 Submission Scheduled Trigger frames July 2015 Slide 1 Date: Authors: A. Asterjadhi, H. Choi, et. al.
Doc.: IEEE 802.11-12/0102r2 SubmissionLiwen Chu Etc.Slide 1 TGah Power Saving Date: 2012-01-16 Authors: Date: Jan, 2012.

Doc.: IEEE /0102r2 SubmissionLiwen Chu Etc.Slide 1 TGah Power Saving Date: Authors: Date: Jan, 2012.
Doc.:IEEE 802.11-12/01122r0 September 2012 Simone Merlin Short MAC Header Signaling Slide 1 Authors:

Doc.:IEEE /01122r0 September 2012 Simone Merlin Short MAC Header Signaling Slide 1 Authors:
Doc.: IEEE 802.11-12/0831r0 Submission July 2012 Yongho Seok, LG ElectronicsSlide 1 Uplink Channel Access General Procedure Date: 2012-07-12 Authors: NameAffiliationsAddressPhoneEmail.

Doc.: IEEE /0831r0 Submission July 2012 Yongho Seok, LG ElectronicsSlide 1 Uplink Channel Access General Procedure Date: Authors: NameAffiliationsAddressPhone .

Similar presentations

Ads by Google