Doc.: IEEE 802.11-03/567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 1 Throughput Enhancement via Frame Aggregation – A Sequel.

Slides:

Advertisements

Similar presentations

Slide 1 Insert your own content. Slide 2 Insert your own content.

Advertisements

Reconsidering Reliable Transport Protocol in Heterogeneous Wireless Networks Wang Yang Tsinghua University 1.

Interference of Bluetooth and IEEE , MSWIM01 July 21, 01 1 Interference of Bluetooth and IEEE : Simulation Modeling and Performance Evaluation.

Doc.: IEEE /037 Submission January 2001 Khaled Turki et. al,Texas InstrumentsSlide 1 Simulation Results for p-DCF, v-DCF and Legacy DCF Khaled.

Doc.: IEEE /037r1 Submission March 2001 Khaled Turki et. al,Texas InstrumentsSlide 1 Simulation Results for p-DCF, v-DCF and Legacy DCF Khaled.

Doc.: IEEE /0338r1 Submission March 2012 Hung-Yu Wei, National Taiwan UniversitySlide 1 DeepSleep: Power Saving Mode to Support a Large Number.

Doc.: IEEE /567r0 Submission May 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 1 Throughput Enhancement via Frame Aggregation – A Sequel.

Doc.: IEEE /1392r0 Submission November 12, 2008 De Vegt (Qualcomm)Slide 1 Inputs for a VHT Selection Procedure Date: Authors:

Doc.: IEEE wng Submission November 2006 Thanasis Korakis, Polytechnic UniversitySlide 1 CoopMAC: A cooperative MAC compliant with IEEE.

Doc.: IEEE /327r0 Submission May 2003 Adrian Stephens, Intel et alSlide 1 A Proposed Usage Model Methodology for High Throughput Task Group Adrian.

Doc.: IEEE /080r0A Submission January 2003 Black/Kasslin/Sinivaara, NokiaSlide 1 A Framework for RRM Simon Black, Mika Kasslin, Hasse Sinivaara.

Doc.: IEEE /412r0 Submission S. Choi, Philips Research July 2001 Slide 1 Aligning e HCF and h TPC Operations Amjad Soomro, Sunghyun.

Scrambler Mismatch and MAC FEC: Is there a problem?

Doc.: IEEE /301R0 Submission May 2002 Terry Cole, AMDSlide 1 A More Efficient Protection Mechanism Terry Cole AMD Fellow +1.

An approach to the problem of optimizing channel parameters March 2001 Vlad Oleynik, Umbrella Technology Slide 1 doc.: IEEE /152 Submission.

Doc.: IEEE /0534r1 Submission Duration in L-SIG Date: Youhan Kim, et al.Slide 1 Authors: May 2010.

A Bandwidth Allocation/Sharing/Extension Protocol for Multimedia Over IEEE Ad Hoc Wireless LANs Shiann-Tsong Sheu and Tzu-fang Sheu IEEE JOURNAL.

Dept. of computer Science and Information Management

Doc.: IEEE /0328r2 Submission Dense Apartment Complex Throughput Calculations Channel Selection and DSC Date: Authors: Graham Smith, DSP.

Wi-Fi interference measurements in Korea (Part II)

IEEE DRAFT RECOMMENDED PRACTICE Clause 14: Collaborative Coexistence Mechanism – IEEE and Steve Shellhammer (Symbol Technologies)

Submission doc.: IEEE 11-14/0xxx March 2014 Giwon Park, LG ElectronicsSlide 1 Discussion on power save mode for real time traffic Date: Authors:

Doc.: IEEE /0015r2 Submission January 2004 Yang-Seok Choi et al., ViVATOSlide 1 Comments on Ergodic and Outage Capacity Yang-Seok Choi,

Doc.: IEEE /1515r0 Submission November 2011 Timo Koskela, Renesas Mobile CorporationSlide ah Wi-Fi Offloading Considerations Date:

Doc.:IEEE /525Ar0 Submission September 2002 Mathilde Benveniste, Avaya Labs Slide 1 Simplifying Polling Mathilde Benveniste

Doc.:IEEE /223r1 Submission March 2002 J. del Prado and S. Choi, Philips Slide 1 CC/RR Performance Evaluation - Revisited Javier del Prado and.

Doc.: IEEE /080r1 Submission January 2001 Jie Liang, Texas InstrumentsSlide 1 Jie Liang Texas Instruments Incorporated TI Blvd. Dallas,

Doc.: IEEE /543r0 Submission April 2006 Richard van Nee, Airgo NetworksSlide 1 Transmitter CCA Issues in 2.4 GHz April /543r0 Richard van.

Submission doc.: IEEE 11-14/0868r0 July 2014 Johan Söder, Ericsson ABSlide 1 UL & DL DSC and TPC MAC simulations Date: Authors:

Submission doc.: IEEE /0166r0January 2011 Barbara Staehle, Uni WürzburgSlide 1Barbara Staehle, Uni WürzburgSlide 1Barbara Staehle, Uni Würzburg.

Doc.: IEEE / hew Submission March 2014 Raja Banerjea, CSRSlide 1 A Simplified Simultaneous Transmit and Receive Mechanism Date:

Doc.: IEEE /1377r0 Submission November 2013 Jeongki Kim, LG ElectronicsSlide 1 DL efficiency enhancement in high dense network Date:

Doc.: IEEE /222r4 Submission March 2003 Bruce Kraemer, Intersil; Colin Lanzl, Aware; Sean Coffey, TISlide 1 Proposed wording revisions to HT PAR.

Doc.: IEEE /0765 r1 Submission Co-time Co-frequency Full Duplex for WLAN July 2013 Hongliang Bian (China Telecom) Slide 1 Date:

Doc.: IEEE /0018r0 Submission May 2004 Steve Shellhammer, Intel CorporationSlide 1 IEEE Wireless Coexistence TAG Steve Shellhammer

Doc.: IEEE /0071r1 Submission January 2004 Aleksandar Purkovic, Nortel NetworksSlide 1 LDPC vs. Convolutional Codes for n Applications:

Doc.: IEEE MHz-11n-impact-on-bluetooth Submission July 2008 Texas InstrumentsSlide 1 IEEE n 40 MHz Impact on BT Performance.

Doc.: IEEE /0849r1 Submission July 2013 Brian Hart (Cisco Systems) Slide 1 New Technique: Enabling Real World Improvement By Exposing Internal.

Interference Cancellation for Downlink MU-MIMO

Submission March 2012 doc.: IEEE Slide 1 SINR and Inter-STA Interference Indication Feedback in DL MU-MIMO Date: Authors:

Submission doc.: IEEE /1409r0 November 2013 Adriana Flores, Rice UniversitySlide 1 Dual Wi-Fi: Dual Channel Wi-Fi for Congested WLANs with Asymmetric.

Doc.: IEEE /0324r0 Submission Slide 1Michelle Gong, Intel March 2010 DL MU MIMO Error Handling and Simulation Results Date: Authors:

Doc.: IEEE /0567r0 Submission Slide 1Michelle Gong, Intel May 2010 DL MU MIMO Analysis and OBSS Simulation Results Date: Authors:

Doc.: IEEE /630r4a Submission S. Choi, Philips Research January 2002 Slide 1 HC Recovery and Backoff Rules Sunghyun Choi and Javier del Prado.

Doc.: IEEE /289r0 Submission Bobby Jose,Slide 1 March 2002 CC/RR Alternatives HCF Adhoc Discussion Work Sheet V00.04 Bobby Jose, et.al

Doc.: IEEE /0782r0 Submission July 2010 Daewon Lee, LG ElectronicsSlide 1 STA MU-MIMO Group Management Signaling Design Date: Authors:

Doc.: IEEE /1234r0 Submission November 2009 Sameer Vermani, QualcommSlide 1 Interference Cancellation for Downlink MU-MIMO Date: Authors:

Submission doc.: IEEE /0148r0 Nokia Internal Use Only January 2012 Chittabrata Ghosh, Nokia Slide 1 Date: Authors: Uplink Throughput.

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)

Doc.: IEEE /0044r0 Submission Proposed Changes to Simulation Scenario Date: 2015/01/12 Takeshi Itagaki, Sony CorporationSlide 1 Authors: January.

TIM Compression Date: Authors: January 2012 Month Year

Improving IEEE WLAN: QoS and Throughput Perspective Sunghyun Choi, Ph.D. Assistant Professor School of Electrical Engineering Seoul National University.

Submission doc. IEEE /0392r0 March 2014 Takayuki Nishio, Kyoto UniversitySlide 1 Traffic Separation Scheme for Optimizing WLANs using PHY and.

Doc.: ax Submission July 2014 Slide 1 Proposed Calibration For MAC simulator Date: Authors:

Doc.: IEEE /1032r1 Submission September 2004 Hiroyuki Nakase, Tohoku Univ.Slide 1 Enhanced MAC proposal for high throughput. Tohoku University.

Doc.: IEEE /601r0 Submission Harada Yasuo, Matsushita Electric Ind. Slide 1 November20 01 Delayed Acknowledgement v.s. Normal Acknowledgement.

Doc.: IEEE / ax Submission Eduard Garcia-Villegas Drivers of the dynamic CCA adaptation Authors: Nov Date:

Doc.: IEEE / ax Submission M. Shahwaiz Afaqui DSC calibration results with NS-3 Authors: Nov

Doc.: IEEE /1032r1 Submission September 2004 Hiroyuki Nakase, Tohoku Univ.Slide 1 Enhanced MAC proposal for high throughput. Tohoku University.

Doc.: IEEE /00144r0 Submission 3/01 Nada Golmie, NISTSlide 1 IEEE P Working Group for Wireless Personal Area Networks Dialog with FCC Nada.

Doc.: IEEE /229r1 Submission March 2004 Alexandre Ribeiro Dias - Motorola LabsSlide 1 Multiple Antenna OFDM solutions for enhanced PHY Presented.

On the Performance Characteristics of WLANs: Revisited S. Choi, K. Park and C.K. Kim Sigmetrics 2005 Banff, Canada Presenter - Bob Kinicki Presenter -

IEEE e Performance Evaluation

Throughput Enhancement via Frame Aggregation

Enhanced MAC proposal for high throughput.

Maximizing MAC Throughputs by Dynamic RTS-CTS Threshold

A novel hidden station detection mechanism

802.11g Contention Period – Solution for Co-existence with Legacy

Presentation transcript:

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 1 Throughput Enhancement via Frame Aggregation – A Sequel Youngsoo Kim *+, Sunghyun Choi *, Hyosun Hwang +, and Kyunghun Jang + + Samsung Advance Institute of Technology (SAIT) and * Seoul National University (SNU)

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 2 Contents Introduction Frame aggregation New Results –Numerical throughput analysis with channel error –Performance measurement using TCP and UDP traffic Conclusion

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 3 Introduction Objective –To achieve high throughput/efficient schemes to improve the current MAC/PHY Background – MAC/PHY has fixed overheads irrespective of packet size –The small-size packet can cause more throughput degradation –To reduce the overheads is the one of main concerns to enhance current WLAN

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 4 Throughput Performance Analysis Assumptions –There are a single transmitter and a single receiver –The DCF is used –All the datagrams have a fixed size –The transmitter has infinite number of datagrams –Channel error is not considered –Throughput is determined at the LLC SAP between LLC and IP

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 5 Theoretical Throughput for 54 Mbps Preferred Operation Range

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 6 Packet Size Statistics This statistics is from the measurement taken in this room in the morning of July 22 nd 2003

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 7 Frame Aggregation Aggregation of multiple frames in order to reduce the fixed overheads relatively! Our frame aggregation approach was originally presented at the May 2003 meeting –Ref r0-HTSG-Throughput Enhancement via Frame Aggregation r0-HTSG-Throughput Enhancement via Frame Aggregation Multiple frames are aggregated above the MAC SAP –The aggregated frame is transmitted via a data frame

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 8 Frame Formats (Example) Original With aggregation

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 9 Numerical Analysis with Channel Error Compare throughput performance vs. distance –Without aggregation One 1000 bytes frame (IP datagram size) –With aggregation Two 1000 bytes frames are aggregated Assumptions –Ideal rate-adaptation (maximizing throughput) Path loss exponent = 4 & Tx_power = 200 mW –Based on error performance analysis assuming Hard-decision Viterbi decoding with AWGN at the receiver

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 10 Numerical Analysis Result

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 11 Some Lessons from Error Performance Short distance (high Tx rate) Long distance (low Tx rate) Throughput gainHighLow Error performance loss LowHigh Frame aggregation seems always a good solution to improve throughput when the distance between sender and receiver is relatively short !

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 12 Performance Measurement Implement frame aggregation in real platform Linux & Intersil-based platform (11b) Measure the throughput performance of UDP and TCP traffic Note: Frame aggregation is only applied when there are multiple frames in the queue Traffic generator AP STA

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 13 New Measurement Results - UDP Throughput performance of packet aggregation with fixed rate UDP

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 14 New Measurement Results - TCP Throughput performance of packet aggregation with TCP

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 15 Conclusion Shown via analysis that frame aggregation is a good way to improve MAC efficiency Measurements from real implementation also show the performance enhancement Frame aggregation can be done above the MAC SAP very easily Frame aggregation can be considered an enhanced mechanism

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 16 Future Work Measurement/simulations with more realistic traffic scenarios –Considering usage scenarios developed in this group Incorporating the PHY channel error performance –Based on a more realistic simulation, not an analysis (given here)

doc.: IEEE /567r1 Submission July 2003 Youngsoo Kim, Samsung/SNU and S. Choi, SNU Slide 17 Any Comments or Questions ?