1-3_Intel_IEEE Proposal for IMT-Advaned
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Transcript of 1-3_Intel_IEEE Proposal for IMT-Advaned
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IEEE 802.16 Proposalfor IMT-Advanced
Sep. 11th, 2009
(Brian) Bong Youl ChoMobility Group, Intel Corporation
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Appreciation
• The speaker appreciate the opportunity toparticipate in this workshop and thanks TTA for
organizing it.
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IEEE 802.16 is:
• A Working Group (WG):
– IEEE 802.16 Working Group on Broadband Wireless Access
– Develops and maintain a set of standards
• A standard
– IEEE Standard 802.16: Air Interface for Broadband Wireless Access
Systems
– The WirelessMAN® standard for Wireless Metropolitan AreaNetworks
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IEEE 802.16: Key Evolution Steps
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IEEE 802.16m Project
• amendment project, initiated 2006
• “Advanced Air Interface”
– Amend IEEE 802.16 WirelessMAN-OFDMA specification toprovide an advanced air interface
– meet the cellular layer requirements of IMT-Advanced next
generation mobile networks– support for legacy WirelessMAN-OFDMA equipment (i.e.,
backward compatibility)
– provide performance improvements to support futureadvanced services and applications
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IEEE Participation in IMT-2000
• IMT-2000
– Under ITU-R Study Group 5/Working Party 5D
– Since 1998, 5 evolving terrestrial air interfaces
• including 3GPP (W-CDMA) & 3GPP2 (cdma2000)
• M.1457 Rev 7 (2007) adds “OFDMA TDD WMAN”
– Based on IEEE Std 802.16 (including 802.16e)
– Implementation profile developed by WiMAX Forum
• M.1457 Rev 9 (2009) completed by WP 5D
– Updated reference to IEEE Std 802.16-2009
– Included FDD as well as TDD
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IEEE Participation in IMT-Advanced
• Document 8F/1083 (3 January 2007):– “New IEEE Project to Develop a Standard to Meet the Cellular
Layer Requirements of IMT-Advanced”
– Notified ITU-R that 802.16m project is intended for future
contributions on IMT-Advanced
• Presented and discussed IEEE 802.16m Project during IMT-Advanced Workshops in Kyoto (May 2007) and Seoul (October2008)
• Developed and closely followed a workplan (L802.16-08/058)to meet ITU-R timeline (next slide)
• WG Chair and several members actively participated in, andcontributed to, WP 5D discussions on IMT-Advancedrequirements, evaluation methodology, and processes
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Planning for inputs
• Solicited input material towards development of candidate RIT:
– Call for comments and contributions over the past year
– Correspondence Group in between IEEE 802.16 sessions
– Liaison activity with the external organizations (e.g. WiMAX Forum)
• Multi-company contributions were received containing
calibration/simulation results as well as text for descriptiontemplates and other elements of the submission
– ASB, ETRI, Fujitsu, Hitachi, Intel, KDDI, LG Electronics, Mediatek,
Mitsubishi Electric, Motorola, NEC, Samsung, Toshiba, UQ
Communications
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Communication with SDOs
• Active liaison relationship, including on IMT-Advanced, with
TTA, ARIB, and the WiMAX Forum has been quite fruitful
– Contributions from Korea and Japan to WP 5D
supporting/endorsing inclusion of IEEE proposal in IMT-Advanced
– Contributions from the WiMAX Forum on content/endorsement
– MoU and agreement on next steps between IEEE and TTA/ARIB
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IEEE IMT-Advanced Submission
• Made multiple contributions to the ITU-R WP 5D including:
– Contribution #1: “Intention to Submit Candidate IMT-Advanced
RIT based on IEEE Project 802.16m,” submitted to February 2009
meeting of WP 5D
– Contribution #2: “On Submission of Candidate IMT-Advanced RIT
Based on IEEE Project 802.16m,” submitted to June 2009 meeting
of WP 5D
– Contribution #3: “Submission of a Candidate IMT-Advanced RIT
Based on IEEE 802.16,” to be submitted to October 2009 meeting
of WP 5D
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Complete Submission
• In Contributions #1 and #2, IEEE communicated with the ITU-R WP 5D its
intent to submit 802.16m as a candidate IMT-Advanced technology
consisting of the following elements:
– Technology description template (4.2.3.2)
– Link budget template (4.2.3.3)
– Self evaluation report including:
• Services compliance template (4.2.4.1)
• Spectrum compliance template (4.2.4.2)
• Performance compliance template (4.2.4.3)
– Indication of ITU IPR policy compliance– Version of minimum technical requirements and evaluation criteria, pointing to
Reports ITU-R M.2133, M.2134, and M.2135, as appropriate.
– Any additional material that in our view could assist with the evaluation process.
• WP 5D confirmed [5D/TEMP/206] that above content “w o u l d , i n
p r i n c i p l e , s e r v e a s a c om p l e t e s u bm i ss io n .”
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IMT-Advanced Requirements
• IEEE is proposing a single RIT (inclusive of TDD and FDD)
to meet or exceed all IMT-Advanced requirements in all test
environments
Test
Environment
IMT-Advanced
Proposal
Indoor Hotspot
Urban Microcell
Urban Macrocell
Rural Macrocell
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Overview of Submission• Contribution #3 consists of four parts:
– Part 1: cover page, overview, proposal
– Part 2: background, future plans, IPR statement, version
– Part 3: general description, technology description templates:characteristics and link budget
– Part 4: self-evaluation report and compliance templates
• Latest documents
– L802.16-09/0101r1: [DRAFT] SUBMISSION OF A CANDIDATE IMT-ADVANCED RIT BASED ON IEEE 802.16 (PART 1)
– L802.16-09/0102r1: [DRAFT] SUBMISSION OF A CANDIDATE IMT-ADVANCED RIT BASED ON IEEE 802.16 (PART 2)
– L802.16-09/0103r1: [DRAFT] SUBMISSION OF A CANDIDATE IMT-ADVANCED RIT BASED ON IEEE 802.16 (PART 3)
– L802.16-09/0104r1: [DRAFT] SUBMISSION OF A CANDIDATE IMT-ADVANCED RIT BASED ON IEEE 802.16 (PART 4)
These documents will be submitted for broader IEEE review during
IEEE Session #63.5 (21–24 September in Hawaii, USA) to conclude.
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Summary of Results
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Cell Spectral Efficiency
Table 7-9: Uplink cell spectral efficiency in bit/s/Hz/cell for TDD
INH UMI UMA RMA
Cell spectral efficiency 5.47 2.49 2.50 2.55
ITU-R requirement 2.25 1.8 1.4 0.7
Table 7-7: Downlink cell spectral efficiency in bit/s/Hz/cell for FDD
INH UMI UMA RMA
Cell spectral efficiency 5.90 3.13 2.44 3.12
ITU-R requirement 3.0 2.6 2.2 1.1
Table 7-11: Uplink cell spectral efficiency in bit/s/Hz/cell for FDD
INH UMI UMA RMA
Cell spectral efficiency 5.53 2.47 2.46 2.58
ITU-R requirement 2.25 1.8 1.4 0.7
Table 7-5: Downlink cell spectral efficiency in bit/s/Hz/cell for TDD
INH UMI UMA RMA
Cell spectral efficiency 5.90 3.24 2.51 3.17
ITU-R requirement 3.0 2.6 2.2 1.1
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Cell Edge User Spectral EfficiencyTable 7-6: Downlink cell edge user spectral efficiency in bit/s/Hz/cell for TDD
INH UMI UMA RMA
Cell spectral efficiency 0.254 0.097 0.070 0.094
ITU-R requirement 0.1 0.075 0.06 0.04
Table 7-10: Uplink cell edge user spectral efficiency in bit/s/Hz/cell for TDD
INH UMI UMA RMA
Cell spectral efficiency 0.380 0.122 0.113 0.115
ITU-R requirement 0.07 0.05 0.03 0.015
Table 7-8: Downlink cell edge user spectral efficiency in bit/s/Hz/cell for FDD
INH UMI UMA RMA
Cell spectral efficiency 0.255 0.096 0.068 0.092
ITU-R requirement 0.1 0.075 0.06 0.04
Table 7-12: Uplink cell edge user spectral efficiency in bit/s/Hz/cell for FDD
INH UMI UMA RMA
Cell spectral efficiency 0.386 0.122 0.112 0.117
ITU-R requirement 0.07 0.05 0.03 0.015
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Mobility Requirements
Table 7-15: Mobility requirement data for TDD
Test environment Median SINR
(in dB)
Achieved spectral
efficiency (in bit/s/Hz)
Required spectral
efficiency (in bit/s/Hz)
InH (10 km/h) 15.0 2.87 1.0
UMi (30 km/h) 4.0 1.16 0.75
UMa (120 km/h) 3.7 1.08 0.55
RMa (350 km/h) 4.9 1.03 0.25
Table 7-16: Mobility requirement data for FDD
Test environment Median SINR
(in dB) Achieved spectral
efficiency (in bit/s/Hz) Required spectral
efficiency (in bit/s/Hz)
InH (10 km/h) 15.0 2.95 1.0
UMi (30 km/h) 4.0 1.28 0.75
UMa (120 km/h) 3.7 1.06 0.55
RMa (350 km/h) 4.9 1.03 0.25
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VoIP Capacity
Table 7-13: VoIP capacity (users/sector/MHz) for TDD
Test environment DL UL Minimum {DL,
UL} ITU required
Indoor (InH) 145 157 145 50
Microcellular (UMi) 80 105 80 40
Base coverage urban (UMa) 75 90 75 40
High speed (RMa) 87 103 87 30
Table 7-14: VoIP capacity (users/sector/MHz) for FDD
Test environment DL UL Minimum {DL,
UL} ITU required
Indoor (InH) 136 156 136 50
Microcellular (UMi) 75 100 75 40
Base coverage urban (UMa) 70 94 70 40
High speed (RMa) 93 102 93 30
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Latency & Handover Interruption Times
• The RIT meets all categories of latencies andhandover interruption times
(please refer to Part 4 of the submission)
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