Proposed Changes to MIMO Midamble (15.3.5.4.2) for the IEEE 802.16M/D2
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IEEE C802.16m-09/2590
Project IEEE 802.16 Broadband Wireless Access Working Group
Title Proposed Changes to MIMO Midamble Section (15.3.5.4.2) for the IEEE 802.16m/D2
Date 2009-11-13 Submitted
Source(s) Hujun Yin, [email protected] Alexei Davydov, [email protected] Huaning Niu [email protected] Intel Corporation
Re: Category: LB30a / Area: Chapter 15.3.5 (DL-PHY)
Abstract Corrections to the text that describes DL MIMO midamble
Purpose To be discussed and adopted by TGm for the 802.16m Advanced Air Interface (Draft 3) This document does not represent the agreed views of the IEEE 802.16 Working Group or any of its subgroups. It Notice represents only the views of the participants listed in the “Source(s)” field above. It is offered as a basis for discussion. It is not binding on the contributor(s), who reserve(s) the right to add, amend or withdraw material contained herein. The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, Release and any modifications thereof, in the creation of an IEEE Standards publication; to copyright in the IEEE’s name any IEEE Standards publication even though it may include portions of this contribution; and at the IEEE’s sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts that this contribution may be made public by IEEE 802.16. The contributor is familiar with the IEEE-SA Patent Policy and Procedures: Patent
1 IEEE C802.16m-09/2590
Proposed Changes to MIMO Midamble (15.3.5.4.2) for the IEEE 802.16m/D2 Hujun Yin, Alexei Davydov, Huaning Niu Intel Corporation
1. Motivation In this contribution we propose to fix the mid-amble position as the second DL subframe without relay. The first two downlink subframe shall not be type 3 subframe. In presence of relay, midamble shall be transmitted in the first non-type 3 subframe in relay zone. The proposed midamble transmission has the following advantage: (1) BS only transmits one MIMO midamble in DL with or without relay. This will avoid the problem of not enough type 1 and type 2 subframes in DL frame in presence of relay. It also improve the spectrum efficiency. (2) When no reply is deployed, MS has longer processing time to measure channel, calculate PMI and CQI, prepare feedback report (3) With presence of relay, this proposal maximizes the MS processing time.
The choice of mid-amble position affects the frame configuration. We recommend that (1) First two DL subframes shall not be type 3 (2) DL always end with type 1 subframe except configuration 9 and 19 (3) In presence of relay, midamble in the first non-type 3 subframe in relay zone (4) Do not support relay in configuration 9 and 19 with 5/10/20MHz bandwidth. Do not support relay in configuration 2 and 3 with 7MHz bandwidth (5) Indicate access zone/relay zone partition in S-SFH SP1.
2. Text proposal
------Start of proposed text #1 ------Modify text on page 310 line 50 of section 15.3.5.4.2 MIMO midamble as shown below
MIMO midamble is used for PMI selection in closed loop MIMO. For OL MIMO, midamble can be used to calculate CQI. MIMO midamble shall be transmitted every frame on the second last DL subframe. In presence of relay, midamble shall be transmitted in the first non-type 3 subframe in relay zone. The midamble signal occupies the first OFDMA symbol in a DL type-1 or type-2 sub-frame. For the type-1 6 symbol DL subframe case, the remaining 5 consecutive symbols form a type-3 subframe. For the type-2 subframe case, the remaining 6 consecutive symbols form a type-1 subframe.
------Proposed text 1 end ------
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------Start of proposed text #2 ------Modify text on page 285, Table 765 and Table 767, of section 15.3.3.8
Table 765 – Frame Configuration and Indexing (5/10/20MHz channel bandwidth).
Fr WirelessM am AN- Subframe Type e OFDMA co Support nfi N Du TTG C gu D: o BW ple /RTG P rat U . x DL UL UL (s) io Mi MU Mi #0 #1 #2 #3 #4 #5 #6 #7 n x X x in de x 1/ DL DL DL DL DL DL UL UL 82.85 5/10/ TD 6: N/ N/ N/ 1 1 0 Typ Typ Typ Typ Typ Typ Typ Typ 3 20 D 2 A A A 6 e1 e2 e1 e1 e1 e1 e1 e2 / 60 1/ DL DL DL DL DL UL UL UL 82.85 5/10/ TD 5: N/ N/ N/ 2 1 1 Typ Typ Typ Typ Typ Typ Typ Typ 3 20 D 3 A A A 6 e1 e2 e1 e1 e1 e1 e1 e2 / 60 1/ DL DL DL DL UL UL UL UL 82.85 5/10/ TD 4: N/ N/ N/ 3 1 2 Typ Typ Typ Typ Typ Typ Typ Typ 3 20 D 4 A A A 6 e1 e2 e1 e1 e1 e1 e1 e2 / 60 1/ DL DL DL UL UL UL UL UL 82.85 5/10/ TD 3: N/ N/ N/ 4 1 3 Typ Typ Typ Typ Typ Typ Typ Typ 3 20 D 5 A A A 6 e1 e2 e1 e1 e1 e1 e1 e2 / 60 D/ D/ D/ D/ D/ D/ D/ D/ 1/ 5/10/ FD N/ N/ N/ N/ U U U U U U U U 5 1 4 N/A 20 D C A A A Typ Typ Typ Typ Typ Typ Typ Typ 6 e1 e2 e1 e1 e2 e1 e1 e2 DL DL DL DL DL DL UL UL 105.7 5/10/ 1/ TD 6: N/ N/ N/ Typ 6 0 Typ Typ Typ Typ Typ Typ Typ 14 20 8 D 2 A A A e3 e1 e1 e13 e1 e1 e1 e1 / 60 1 DL DL DL DL DL UL UL UL 105.7 5/10/ 1/ TD 5: N/ N/ N/ Typ Typ 7 1 Typ Typ Typ Typ Typ Typ 14 20 8 D 3 A A A e1 e3 e1 e1 e1 e1 e1 e1 / 60 3 1 DL DL DL DL UL UL UL UL 105.7 5/10/ 1/ TD 4: N/ N/ N/ Typ Typ 8 2 Typ Typ Typ Typ Typ Typ 14 20 8 D 4 A A A e1 e3 e1 e1 e1 e1 e1 e1 / 60 3 1 DL DL DL UL UL UL UL UL 105.7 5/10/ 1/ TD 3: N/ N/ N/ 9 3 Typ Typ Typ Typ Typ Typ Typ Typ 14 20 8 D 5 A A A e1 e1 e3 e1 e1 e1 e1 e1 / 60 D/ D/ D/ D/ D/ D/ D/ D/ 1 5/10/ 1/ FD N/ N/ N/ N/ U U U U U U U U 4 N/A 0 20 8 D C A A A Typ Typ Typ Typ Typ Typ Typ Typ e1 e1 e1 e1 e1 e1 e1 e1 DL DL UL UL UL Not Not Not 105.7 1 5/10/ 1/ TD 5: 3:2 FD 21: 5 Typ Typ Typ Typ Typ use use use 14 1 20 8 D 3 (3) M 14 e1 e1 e1 e1 e1 d d d / 60 DL DL Not Not UL Not Not Not 105.7 1 5/10/ 1/ TD 5: 3:2 TD 6 2:1 Typ Typ use use Typ use use use 14 2 20 8 D 3 (3) M e1 e1 d d e1 d d d / 60 DL DL DL UL UL UL Not Not 105.7 1 5/10/ 1/ TD 5: 2:3 FD 14: 7 Typ Typ Typ Typ Typ Typ use use 14 3 20 8 D 3 (2) M 21 e1 e1 e1 e1 e1 e1 d d / 60 DL DL DL Not UL UL Not Not 105.7 1 5/10/ 1/ TD 5: 2:3 TD 8 1:2 Typ Typ Typ use Typ Typ use use 14 4 20 8 D 3 (2) M e1 e1 e1 d e1 e1 d d / 60 DL DL DL DL UL UL UL Not 105.7 1 5/10/ 1/ TD 5: 1:4 FD 8:2 9 Typ Typ Typ Typ Typ Typ Typ use 14 5 20 8 D 3 (1) M 7 e1 e1 e1 e1 e1 e1 e1 d / 60 1 5/10/ 1/ 10 TD 5: 1:4 TD 1:2 DL DL DL DL Not UL UL Not 105.7 6 20 8 D 3 (1) M Typ Typ Typ Typ use Typ Typ use 14
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e1 e1 e1 e1 d e1 e1 d / 60 DL DL DL DL DL DL UL UL 208.5 1 5/10/ 1/ TD 6: N/ N/ N/ Typ Typ 11 Typ Typ Typ Typ Typ Typ 71 7 20 8 D 2 A A A e 1 e3 e1 e1 e1 e3 e1 e1 / 60 3 1 DL DL DL DL DL UL UL UL 208.5 1 5/10/ 1/ TD 5: N/ N/ N/ Typ Typ 12 Typ Typ Typ Typ Typ Typ 71 8 20 8 D 3 A A A e1 e3 e1 e1 e3 e1 e1 e1 / 60 3 1 DL DL DL DL DL UL UL UL 311.4 1 5/10/ 1/ TD 5: N/ N/ N/ 13 Typ Typ Typ Typ Typ Typ Typ Typ 28 / 9 20 8 D 3 A A A e1 e1 e3 e3 e3 e1 e1 e1 60 DL DL DL DL DL UL UL 139.9 2 5/10/ 1/ TD 5: N/ N/ N/ 0 Typ Typ Typ Typ Typ Typ Typ 88 0 20 4 D 2 A A A e1 e1 e1 e1 e1 e1 e1 / 60 DL DL DL DL UL UL UL 139.9 2 5/10/ 1/ TD 4: N/ N/ N/ 1 Typ Typ Typ Typ Typ Typ Typ 88 1 20 4 D 3 A A A e1 e1 e1 e1 e1 e1 e1 / 60 DL DL DL UL UL UL UL 139.9 2 5/10/ 1/ TD 3: N/ N/ N/ 2 Typ Typ Typ Typ Typ Typ Typ 88 2 20 4 D 4 A A A e1 e1 e1 e1 e1 e1 e1 / 60 D/ D/ D/ D/ D/ D/ D/ 2 5/10/ 1/ FD N/ N/ N/ N/ U U U U U U U 3 N/A 3 20 4 D A A A A Typ Typ Typ Typ Typ Typ Typ e1 e1 e1 e2 e1 e1 e1
Table 767 – Frame Configuration and Indexing (7MHz channel bandwidth). Fr WirelessM am AN- Subframe Type e OFDMA` co Support nfi N Du TTG B C gu D: o ple /RTG W P rat U . x DL UL UL (s) io Mi MU Mi #0 #1 #2 #3 #4 #5 #6 #7 n x X x in de x DL DL 1/ DL DL UL UL TD 4: N/ N/ N/ Typ Typ 180 1 7 1 0 Typ Typ Typ Typ D 2 A A A e1 e3 / 60 6 e1 e1 e1 e1 3 1 1/ DL DL DL UL UL UL TD 3: N/ N/ N/ 180 2 7 1 1 Typ Typ Typ Typ Typ Typ D 3 A A A / 60 6 e1 e1 e3 e1 e1 e1 1/ DL DL UL UL UL UL TD 2: N/ N/ N/ 180 3 7 1 2 Typ Typ Typ Typ Typ Typ D 4 A A A / 60 6 e1 e3 e1 e1 e1 e1 D/ D/ D/ D/ D/ D/ 1/ FD N/ N/ N/ N/ U U U U U U 4 7 1 3 N/A D A A A A Typ Typ Typ Typ Typ Typ 6 e1 e1 e1 e1 e1 e1 1/ DL DL DL UL UL 188 5 7 0 TDD 3:2 N/A N/A N/A 8 Type1 Type2 Type2 Type1 Type2 / 60 1/ DL DL UL UL UL 188 6 7 1 TDD 2:3 N/A N/A N/A 8 Type1 Type2 Type1 Type2 Type2 / 60 1/ D/U D/U D/U D/U D/U 7 7 2 FDD N/A N/A N/A N/A N/A 8 Type1 Type2 Type2 Type2 Type1 1/ DL DL UL UL Not 188 8 7 3 TDD 3:2 1:2 (1) FDM 12:23 8 Type1 Type1 Type1 Type1 used / 60 1/ DL DL Not UL Not 188 9 7 4 TDD 3:2 1:2 (1) TDM 1:1 8 Type1 Type1 used Type1 used / 60 DL DL DL UL UL 1 1/ TD 3: N/ N/ N/ 140 7 0 Typ Typ Typ Typ Typ 0 4 D 2 A A A / 60 e1 e1 e1 e1 e1 DL DL UL UL UL 1 1/ TD 2: N/ N/ N/ 140 7 1 Typ Typ Typ Typ Typ 1 4 D 3 A A A / 60 e1 e1 e1 e1 e1
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D/ D/ D/ D/ D/ 1 1/ FD N/ N/ N/ N/ U U U U U 7 2 N/A 2 4 D A A A A Typ Typ Typ Typ Typ e1 e1 e2 e1 e1
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------Start of proposed text #3 ------Modify text on page 342, Table 791, of section 15.3.6.5.1.2
Table 791 – S-SFH SP1 IE format Syntax Size (bit) Notes S-SFH SP1 IE format () { Start superframe offset where new SP1 2 information is used MSB of superframe number 8 Remaining bit of SFN except LSB of SFN in P-SFH LSB of 48 bit BS MAC ID 12 Specifies the 12 least bit of BS ID Channel numbers represented by the two bits (0, 1,2, 3) are as follows. For 5 MHz band, 6, 12, 18, 24 Number of UL Ack/Nack channel per For 10 MHz band, 6, 12, 24, 30 For 20 MHz band, 12, 24, 48, 60 HARQ feedback region 2 Channel numbers represented by the two bits (0, 1,2, 3) are as follows. For 5 MHz band, 4, 8, 12, 16 Number of DL Ack/Nack channel per HF- For 10 MHz band, 8, 16, 24, 32 For 20 MHz band, 16, 32, 48, 64 A-MAP region 2 Power control channel resource size indicator 2 Non-user specific AMAP location 1 Reuse 1 or reuse 3 A-A-MAP MCS selection 1 DL permutation configuration (CRU, DRU For 20MHz, DL_CAS_SB0(4), DL_CAS_MB0(6), partitioning and signaling related to that) 13 DL CAS_SBi (4x3) UL permutation configuration (CRU, DRU For 20 MHz, UL_CAS_SB0(4), UL_CAS_MB0(6), partitioning and signaling related to that) 13 UL_CAS_SBi (4x3) Unsync ranging allocation interval channel information (ranging region periodicity) 3 Unsync ranging location in the frame (time and frequency) 2 RNG codes information 8 Ranging code subset/partition configuration 3 ABS EIRP 7 Signed in units of 1 dBm If Cell Bar bit = 1, this cell is not allowed for any new initial entry Cell bar information 1
Access zone and relay zone partition configuration 3
Reserved TBD
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}
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