Doc.: IEEE 802.11-12/1361r3 Submission Channel Measurement for IEEE 802.11aj (45 GHz) Date: 2013-4-24 Authors/contributors: Haiming Wang (SEU)Slide 1.

Slides:



Advertisements
Similar presentations
Doc.: IEEE /1196r1 Submission Data Rate and Spectrum Requirements for IEEE aj (45 GHz) Date: Authors: Haiming Wang (SEU)Slide.
Advertisements

Doc.: IEEE /0995r1 Submission September 2009 Tian-Wei Huang, National Taiwan UniversitySlide 1 60 GHz Transmission and Reflection Measurements.
Doc.: IEEE /0116r1 SubmissionYakun Sun, et. al. (Marvell)Slide 1 Long-Term SINR Calibration for System Simulation Date: Authors: NameAffiliationsAddressPhone .
Submission doc.: IEEE /0296r0 March 2015 Cagatay Capar, EricssonSlide 1 Long range indoor channel measurements for the 60 GHz band Date:
Doc.: IEEE /0630r0 Submission May 2015 Intel CorporationSlide 1 Verification of IEEE ad Channel Model for Enterprise Cubical Environment.
May 2015 Submission doc.: aj Shiwen He, Haiming Wang PPDU Format for IEEE aj (45GHz) Authors/contributors: Date: Presenter:
May 2015 Submission doc.: aj Shiwen He, Haiming Wang PPDU Format for IEEE aj (45GHz) Authors/contributors: Date: Presenter:
May 2015 Submission doc.: aj Shiwen He, Haiming Wang PPDU Format for IEEE aj (45GHz) Authors/contributors: Date: Presenter:
CSI Feedback for MIMO-OFDM Transmission in IEEE aj (45 GHz)
Doc.:IEEE /0206r0 Submission January 2015 Shiwen He, Haiming Wang Pilot Design for OFDM PHY for aj(45 GHz) Authors/contributors: Date:
July 2015 doc.: IEEE /XXXXr0 July 2015
Submission doc.: IEEE 11-12/0844r0 Slide 1 Non-linear Multiuser MIMO for next generation WLAN Date: Authors: Shoichi Kitazawa, ATR.
Doc.: IEEE /0489r1 Submission May 2010 Alexander Maltsev, IntelSlide 1 PHY Performance Evaluation with 60 GHz WLAN Channel Models Date:
Doc.: IEEE /0116r0 SubmissionYakun Sun, et. Al.Slide 1 Long-Term SINR Calibration for System Simulation Date: Authors: NameAffiliationsAddressPhone .
Doc.: IEEE /1399r0 Submission November 2014 Multi-Carrier Training Field for OFDM Transmission in aj (45GHz) Authors/contributors: Date:
Doc.: IEEE /0721r0 Submission WLAN Access Network Using RoF Authors/contributors: Date: May 2014 Wenjing Xu, et al. (BUPT)Slide 1 Name.
Doc.: IEEE /1360r0 Submission DSRC PER versus RSS Profiles Date: Nov. 8, 2013 November 2013 Slide 1 Authors: Brian Gallagher (Denso DIAM ), John.
Doc.: IEEE c Submission January 2006 Slide 1 Hiroyo Ogawa, NICT Project: IEEE P Working Group for Wireless Personal Area Networks.
Doc.: IEEE /0402r2 Submission May 2012 Haiming Wang, Xiaoming PengSlide 1 Date: Authors: Overview of CWPAN SG5 QLINKPAN.
Doc.: IEEE /1152r0 Submission November 2009 Tian-Wei Huang, National Taiwan UniversitySlide 1 60-GHz Living-Room Channel Measurements Date:
Doc.: IEEE /0364r1 SubmissionEldad Perahia, Intel CorporationSlide 1 Date: Authors: Antenna Array Gain from Measured Data for n/ac.
Submission doc.: IEEE /0416r1 Slide 1 Broadband Indoor TVWS Channel Measurement and Characterization at 670 MHz Date: Mar 2012 Ming-Tuo.
Doc.: IEEE /1081r0 SubmissionSayantan Choudhury HEW Simulation Methodology Date: Sep 16, 2013 Authors: Slide 1.
Doc.: IEEE d_Intra-Device_Propagation_Measuremets Submission March 2015 Slide 1 Project: IEEE P Working Group for Wireless Personal.
Submission doc.: /1320r00 Bo, Sun (ZTE Corp), et al Slide 1 11aj 45GHz Link Budget for use cases discussion Date: Authors: Nov 2012.
Doc.: IEEE /0553r1 Submission May 2009 Alexander Maltsev, Intel Corp.Slide 1 Path Loss Model Development for TGad Channel Models Date:
Doc.: IEEE c Submission January 2006 C. Liu et.alSlide 1 Project: IEEE P Working Group for Wireless Personal Area Networks.
Doc.: IEEE /1401r0 Submission November 2014 Slide 1 Shiwen He , Haiming Wang Quasi-Orthogonal STBC for SC-PHY in IEEE aj (45GHz) Authors/contributors:
Doc.: IEEE c Submission March 2006 Slide 1 Chang-Soon Choi, NICT Project: IEEE P Working Group for Wireless Personal Area Networks.
Doc.: IEEE /0553-r1 Submission April 2011 James Wang, et al, Mediatek COST231 Walfish Ikegame Model for for 11ah Date: Authors: Slide.
Doc.: IEEE /0799r2 Submission June 2014 Nihar Jindal, Broadcom Modifications to Simulation Scenarios and Calibration Process Date:
Submission doc.: IEEE /1094 Overview and discussion about the next steps for ay channel modeling Date: Authors: Slide 1.
Doc.: IEEE /0161r1 Submission doc.: IEEE /0087r0 January 2010 R. Kudo, K. Ishihara and Y. Takatori (NTT) Slide 1 Measured Channel Variation.
May 2006 Zhiguo Lai, University of Massachusetts - Amherst Slide 1 doc.: IEEE c Submission Project: IEEE P Working Group for.
Doc.: IEEE /1044r0 Submission September 2008 Alexander Maltsev, IntelSlide 1 60 GHz WLAN Experimental Investigations Date: Authors:
Doc.: IEEE /1398r0 Submission November 2014 Slide 1 Shiwen He, Haiming Wang Preamble Sequence for IEEE aj (45GHz) Authors/contributors:
Doc.: IEEE /278r1-SG3a Submission 7/04/ :52 PM Saeed S. Ghassemzadeh, Vahid Tarokh Slide 1 Project: IEEE P Working Group for Wireless.
Doc.: IEEE /0161r1 Submission doc.: IEEE /1031r0 Measurement results for OBSS in home network scenarios Date: September 2009.
Submission doc.: IEEE /0092r0 Chen Sun, Sony ChinaSlide 1 Adjustment of energy detection threshold over IP-network Date: Authors: November.
Doc.: IEEE /166r0 Submission March 2005 Slide 1 Hiroyuki Nakase, Tohoku Univ. Project: IEEE P Working Group for Wireless Personal Area Networks.
Doc.: IEEE /0632r0 Submission May 2008 Vinko Erceg, BroadcomSlide 1 VHT 60 GHz Channel Model Recommendation Date: Authors:
Doc.: IEEE /0205r0 Submission Jan 2015 Shiwen He, Haiming Wang Slide 1 Time Domain Multiplexed Pilots Design for IEEE802.11aj(45 GHz) SC PHY Authors/contributors:
Doc.: IEEE /0112r2 Submission January, 2010 Hirokazu Sawada, Tohoku UniversitySlide 1 [Intra-cluster response model and parameter for channel.
Doc.: IEEE /0176r0 Submission Jan 2013 Bo Sun, ZTE/CWPANSlide 1 Date: Presenter: Proposal of Channelization for aj.
Doc.: IEEE /1364r2 Submission Distributed Timeslot Allocation (DTA) Mechanism for aj (60GHz) Authors/contributors: Date: Presenter:
Interdigital Communications Submission doc.: IEEE /1333r1 November 2015 Feasibility of SU-MIMO under Array Alignment Method Date: Slide.
Doc.: IEEE /0372r0 Submission March, 2010 Hirokazu Sawada, Tohoku UniversitySlide 1 [Intra-cluster response model and parameter for the enterprise.
Submission doc.: IEEE /0871r1 Jul Jiyong Pang, et. al. Huawei Further Calibration Results towards Integrated System Level Simulation Date:
Doc.: IEEE /0015r1 Submission Large-Scale Characteristics of 45 GHz Based on Channel Measurement Authors/contributors: Date: Presenter:
Submission doc.: IEEE 11-13/1383r0 November 2013 Wookbong Lee, LG ElectronicsSlide 1 System Level Simulation Parameters Date: Authors:
Doc.: IEEE /1209r0 Submission Hotel lobby SU-MIMO channel modeling: 2x2 golden set generation Date: September 2016 Alexander Maltsev,
Doc.: IEEE /0664r0 Submission May 2010 Alexander Maltsev, Intel TGad Channel Model Update Authors: Date:
doc.: IEEE <doc#>
Channel Measurement for IEEE aj (45 GHz)
January, 2006 January 2006 Project: IEEE P Working Group for Wireless Personal Area Networks (WPANs) Submission Title: [Indoor Corridor Measurements.
Small-Scale Characteristics of 45 GHz Based on Channel Measurement
60 GHz Cubicle Wall Reflectivity
Large-Scale Characteristics of 45 GHz Based on Channel Measurement
45 GHz Spectrum Allocation in China
Enhanced Beam Tracking Against Blockage: Resolution to CID 145
Large-Scale Characteristics of 45 GHz Based on Channel Measurement
60 GHz Transmission and Reflection Measurements
Update on “Channel Models for 60 GHz WLAN Systems” Document
Overview of CWPAN SG5 QLINKPAN
Channel Generation of aj (45GHz) Based on Channel Measurement
doc.: IEEE <doc#>
January, 2010 [Intra-cluster response model and parameter for channel modeling at 60GHz (Part 3)] Date: Authors: Hirokazu Sawada, Tohoku University.
STBC in Single Carrier(SC) for IEEE aj (45GHz)
Channel Generation of aj (45GHz) Based on Channel Measurement
LDPC Tone Mapping for IEEE aj(45GHz)
Presentation transcript:

doc.: IEEE /1361r3 Submission Channel Measurement for IEEE aj (45 GHz) Date: Authors/contributors: Haiming Wang (SEU)Slide 1

doc.: IEEE /1361r3 Submission Outline Haiming Wang (SEU) 1.Transmission Scenario 2.Measurement Setup 3.Channel Measurement Results Slide 2

doc.: IEEE /1361r3 Submission Transmission Scenarios Conference room Cubicle room Living room Haiming Wang (SEU)Slide 3

doc.: IEEE /1361r3 Submission Conference Room Haiming Wang (SEU)Slide 4

doc.: IEEE /1361r3 Submission Outline Haiming Wang (SEU) 1.Transmission Scenario 2.Measurement Setup 3.Channel Measurement Results Slide 5

doc.: IEEE /1361r3 Submission Channel Measurement Setup Haiming Wang (SEU)Slide 6 A PC is used to not only control the rotary table with an RS-232 port but also control the signal generator and network analyzer with LAN ports. The signal generator transmits CW signal at each frequency, then Rx power and channel frequency response are obtained by the network analyzer. The positions of Tx and Rx antennas and measured data are simultaneously recorded.

doc.: IEEE /1361r3 Submission Parameters of Q-band Channel Measurement Haiming Wang (SEU)Slide 7 ParameterValue Frequency band45 GHz ( ~ GHz) MethodSignal Generator and VNA Sweep Frequency Subcarrier Spacing MHz (adjustable) Bandwidth270 MHz (adjustable, 540, 1080 MHz) Sweep Frequency Points64 (128, 256) Sweep Frequency Duration80 ms (adjustable) Tx Power0 dBm (adjustable, max 10 dBm) Cable Length2 m at both ends AntennaHorn antenna / Open ended waveguide antenna Measurement ScenarioConference room (Cubicle room, Living room)

doc.: IEEE /1361r3 Submission Antennas for Channel Measurement Type II: Open-ended waveguide (OEW) antenna with 6-dBi gain Haiming Wang (SEU)Slide 8 Type I: Horn antenna with dBi gain Angle (degree) Pattern (dB) H-Plane E-Plane

doc.: IEEE /1361r3 Submission Power Delay Profile (PDP) of STA-STA Haiming Wang (SEU)Slide 9 Fig. 1 STA-STA Transmission d TR = 3.47 m, h T =h R = 1.04 m, φ T =φ R = 0 0, P T = 0 dBm BW: 270 MHz, f c : 45 GHz Tx Ant: Type I, Rx Ant: Type I Fig.2 STA-STA Transmission d TR = 3.47 m, h T = h R = 1.04 m, φ T = φ R = 0 0 P T = 0 dBm, BW: 270 MHz, f c : 45 GHz Tx Ant: Type II; Rx Ant: Type I

doc.: IEEE /1361r3 Submission Power Delay Profile (PDP) of AP-STA Haiming Wang (SEU)Slide 10 Fig. 1 AP-STA Transmission d TR = 5.59 m, h T = 2.72m, h R = 1.04 m, φ T = -15 0, φ R = 0 0 BW: 270 MHz, f c : 45 GHz Tx Ant: Type I, Rx Ant: Type I Fig.2 AP-STA Transmission d TR = 5.59 m, h T = 2.72m, h R = 1.04 m, φ T = -15 0, φ R = 0 0 P T = 0 dBm, BW: 270 MHz, f c : 45 GHz Tx Ant: Type II; Rx Ant: Type I

doc.: IEEE /1361r3 Submission Power Angle Profile (PAP) of STA-STA Haiming Wang (SEU)Slide 11 Fig. 1 PAP of STA-STA Transmission d TR = 3.47 m, h T =h R = 1.04 m, φ T =φ R = 0 0, P T = 0 dBm BW: 270 MHz, f c : 45 GHz Tx Ant: Horn antenna or OEW antenna Rx Ant: Horn antenna For horn antenna, For OEW antenna,

doc.: IEEE /1361r3 Submission Power Angle Profile (PAP) of AP-STA Haiming Wang (SEU)Slide 12 Fig. 1 PAP of STA-STA Transmission h T = 2.7m, h R = 1.3 m, d TR = 5.83 m φ T = -15 0, φ R = 0 0 P T = 0 dBm BW: 270 MHz, f c : 45 GHz Tx Ant: Horn antenna or OEW antenna Rx Ant: Horn antenna For horn antenna, For OEW antenna,

doc.: IEEE /1361r3 Submission More Measurement Positions in a Conf. Room Haiming Wang (SEU)Slide 13 Fig 1. Meas. Positions of STA-STA Fig 2. Meas. Positions of AP-STA

doc.: IEEE /1361r3 Submission Statistical Parameters Haiming Wang (SEU)Slide 14 TABLE I STA-STATABLE II AP-STA

doc.: IEEE /1361r3 Submission Joint AoA and AoD Measurement Setup Haiming Wang (SEU)Slide 15 A PC is used to not only control two rotary tables with two RS-232 ports but also control the signal generator and the vector network analyzer (VNA) with LAN ports. The signal generator transmits CW signal at each frequency, then Rx power and channel frequency response are obtained by the network analyzer. The positions and angles of Tx and Rx antennas and measured data are simultaneously recorded.

doc.: IEEE /1361r3 Submission PAP of STA-STA Transmission Haiming Wang (SEU)Slide 16

doc.: IEEE /1361r3 Submission Future Works The 45 GHz band channel will be measured in cubicle room and living room, additionally; More measurement data will be obtained, which will be used for statistical channel modeling; Penetration losses for different kinds of walls and blockage objects will also be measured; Some parameters, for example penetration losses, PAP and PDP of multipath will be compared between 45 GHz and 60 GHz bands. Haiming Wang (SEU)Slide 17

doc.: IEEE /1361r3 Submission Revision History RevCommentsDateRemark R0Initial version of Channel Measurement for IEEE aj (45 GHz) 12-Nov-2012 R11)Add more results of one-direction measurement 2)Add joint AoA and AoD measurement 23-Apr-2013 R21)Add revision history 2)Editorial revision 23-Apr-2013 R3Change the authors’ companies23-Apr-2013 Haiming Wang (SEU)Slide 18

doc.: IEEE /1361r3 Submission Thank you very much for your attention! Haiming Wang (SEU)Slide 19

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

© 2024 SlidePlayer.com Inc. All rights reserved.