Content for TS 36.213 Word version: 16.4.0
7 Physical downlink shared channel related procedures
7.1 UE procedure for receiving the physical downlink shared channel
7.1.1 Single-antenna port scheme
7.1.2 Transmit diversity scheme
7.1.3 Large delay CDD scheme
7.1.4 Closed-loop spatial multiplexing scheme
7.1.5 Multi-user MIMO scheme
7.1.5A Dual layer scheme
7.1.5B Up to 8 layer transmission scheme
7.1.6 Resource allocation
7.1.7 Modulation order and transport block size determination
7.1.8 Storing soft channel bits
7.1.9 PDSCH resource mapping parameters
7.1.10 Antenna ports quasi co-location for PDSCH
7.1.11 PDSCH subframe assignment for BL/CE UE
7.2 UE procedure for reporting Channel State Information (CSI)
7.3 UE procedure for reporting HARQ-ACK
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7 Physical downlink shared channel related procedures Word‑p. 68
7.1 UE procedure for receiving the physical downlink shared channel Word‑p. 69
7.1.1 Single-antenna port scheme Word‑p. 88
7.1.2 Transmit diversity scheme
7.1.3 Large delay CDD scheme Word‑p. 89
7.1.4 Closed-loop spatial multiplexing scheme
7.1.5 Multi-user MIMO scheme
7.1.5A Dual layer scheme |R9|
7.1.5B Up to 8 layer transmission scheme |R10|
7.1.6 Resource allocation
7.1.6.1 Resource allocation type 0 Word‑p. 91
7.1.6.2 Resource allocation type 1 Word‑p. 92
7.1.6.3 Resource allocation type 2 Word‑p. 93
7.1.6.4 PDSCH starting position |R10| Word‑p. 96
7.1.6.4A PDSCH starting position for BL/CE UEs |R13| Word‑p. 98
7.1.6.5 Physical Resource Block (PRB) bundling |R10|
7.1.7 Modulation order and transport block size determination Word‑p. 100
7.1.7.1 Modulation order and redundancy version determination Word‑p. 103
7.1.7.2 Transport block size determination Word‑p. 109
7.1.7.2.1 Transport blocks not mapped to two or more layer spatial multiplexing Word‑p. 114
7.1.7.2.2 Transport blocks mapped to two-layer spatial multiplexing Word‑p. 123
7.1.7.2.3 Transport blocks mapped for DCI Format 1C and DCI Format 6-2
7.1.7.2.4 Transport blocks mapped to three-layer spatial multiplexing |R10| Word‑p. 124
7.1.7.2.5 Transport blocks mapped to four-layer spatial multiplexing |R10|
7.1.7.2.6 Transport blocks mapped for BL/CE UEs configured with CEModeB and PDSCH bandwidth up to 1.4MHz |R13| Word‑p. 125
7.1.7.2.7 Transport blocks mapped for BL/CE UEs SystemInformationBlockType1-BR |R13| Word‑p. 126
7.1.7.2.8 Transport blocks mapped for UEs configured with ce-pdsch-maxBandwidth-config value of 5 MHz or with pdsch-MaxBandwidth-SC-MTCH value of 24 PRBs |R14|
7.1.7.3 Redundancy Version determination for Format 1C
7.1.8 Storing soft channel bits |R10| Word‑p. 127
7.1.9 PDSCH resource mapping parameters |R11|
7.1.10 Antenna ports quasi co-location for PDSCH |R11| Word‑p. 129
7.1.11 PDSCH subframe assignment for BL/CE UE |R13| Word‑p. 130
7.2 UE procedure for reporting Channel State Information (CSI) Word‑p. 132
7.2.1 Aperiodic CSI Reporting using PUSCH Word‑p. 142
7.2.2 Periodic CSI Reporting using PUCCH Word‑p. 167
7.2.3 Channel Quality Indicator (CQI) definition Word‑p. 208
7.2.4 Precoding Matrix Indicator (PMI) definition Word‑p. 221
7.2.5 Channel-State Information - Reference Signal (CSI-RS) definition |R10| Word‑p. 249
7.2.6 Channel-State Information - Interference Measurement (CSI-IM) Resource definition |R11| Word‑p. 251
7.2.7 Zero Power CSI-RS Resource definition |R11|
7.2.8 CSI-RS Activation / Deactivation |R14|
7.3 UE procedure for reporting HARQ-ACK Word‑p. 252
7.3.1 FDD HARQ-ACK reporting procedure |R11| Word‑p. 256
7.3.2 TDD HARQ-ACK reporting procedure |R11| Word‑p. 261
7.3.2.1 TDD HARQ-ACK reporting procedure for same UL/DL configuration
7.3.2.2 TDD HARQ-ACK reporting procedure for different UL/DL configurations Word‑p. 277
7.3.3 FDD-TDD HARQ-ACK reporting procedure for primary cell frame structure type 1 |R12| Word‑p. 284
7.3.4 FDD-TDD HARQ-ACK reporting procedure for primary cell frame structure type 2 |R12| Word‑p. 286
