Fusi PDSCH

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Information about Fusi PDSCH
Technology

Published on October 30, 2013

Author: fusiofficial

Source: slideshare.net

Description

LTE Physical Downlink Shared Channel

PT. Fusi GLobal Teknologi
Indonesia

DL-SCH/PDSCH Astrini Kusumawardhani 1

Outline • • • • Introduction DL-SCH and PDSCH Encoding DL-SCH and PDSCH Decoding Smoke Test PDSCH 2

Introduction 3

Introduction Figure 1. The radio interface protocol architecture and the SAPs between different layers. 4

Introduction Figure 2. Mapping Transport Channel to Physical Channels Figure 3. Mapping Control Information Channels to Physical Channels 5

DL-SCH and PDSCH Encoding 6

DL-SCH/PDSCH Encoding Scheme Figure 4. DL-SCH/PDSCH Processing Scheme 7

Pre-processing before DL-SCH Encoding (1) 1. MAC sends MCS and data to DL-SCH. Example: MCS = 1, Data.data = random, Data.size = 100, BW = 10 Mhz. 2. Determine RBG size (based on Table 7.1.6.1-1 [36.213]) BW = 10 MHz NRB = 50 So, RBG size = 3. 3. Determine RBG bitmap available N_RBG = NRB / RBG_size = 50 / 3 = 17 4. Determine I_TBS and Qm from MCS (based on Table 7.1.7.1-1 [36.213]) MCS = 1 So, Qm = 2, I_TBS = 1 8

Pre-processing before DL-SCH Encoding (2) 5. Determine N_PRB and TBS, from I_TBS and data.size I_TBS = 1 Data.size = 100 Find, TBS near 100 then get TBS = 208. For TBS =208, get N_PRB = 6. 6. Determine allocated RBG RBG_allocated = N_PRB / RBG_size = 6 / 3 = 2. 7. Determine RBG Bitmap 1000000001000000000000000 RBG allocated 8. Encoding PCFICH (to inform UE about how many symbols the DCI spans in that subframe) : CFI = 3 9. Encoding PDCCH (to encode DCI that carries information related to downlink/uplink scheduling assignment ) 9

Review Pre-processing • • • • • • • • • MCS = 1 Data.data = random; Data.size = 100 BW = 10 MHz; NRB = 50 RBG_size = 3 N_RBG = 17 I_TBS = 1; Qm = 2 TBS = 208; N_PRB = 6 RBG_allocated = 2 RBG_bitmap = 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Figure 5. Pre-processing Result 10

DL-SCH Encoding (1) 1. Add CRC CRC24A: B = TBS + CRC = 208 + 24 = 232 bits. 11

DL-SCH Encoding (2) 2. Code Segmentation For this example: B = 232 So, L=0 C+ = 1; K+ = 232 C- = 0; K- = 0 B = 232; Z = 6144 if (B≤Z) { L = 0; C = 1; B’ = B} if (B>Z) { L = 24; if(C==1) {C+ = 1; K+ = B ; C- = 0; K- = 0 } if(C>1) {C*K+ ≥ B’ ; K- < K+ ; ; C+ = C – (C-) } ; B’ = B + C.L} 12

DL-SCH Encoding (3) 3. Channel Coding – Turbo Coding Code Rate = input / output = 1/3 Turbo coding consists of: 1. Constituent Encoders 2. QPP Interleaver = 1* 3 = 3 rows = 0* 3 = 0 rows 13

DL-SCH Encoding (4) 4. Rate Matching – Turbo Rate Matching Turbo rate matching steps: 1. Sub-interleaver 2. Bit-collection 3. Bit-Selection What is desired code-rate? Input : 3*col Output : lte_tch_param.G Code-rate = input / output lte_tch_param.G = ??? For this example: 14

DL-SCH Encoding (5) 5. Code Block Concatenation 15

Review DL-SCH Encoding 16

PDSCH Encoding (1) 1. Scrambling Using pseudo-random sequence generation. Pattern: Scrambling initialization is performed in each frame, using : Total output = 1284 bits. 17

PDSCH Encoding (2) 2. Modulation QPSK, 16QAM, 64QAM MCS = 1 Qm = 2 based on Qm. QPSK Total output = 642 symbols. 18

PDSCH Encoding (3) 3. Resource Element Mapping 19

Review PDSCH Encoding 20

DL-SCH and PDSCH Decoding 21

DL-SCH/PDSCH Decoding Scheme PDSCH DL-SCH 22

PDSCH Decoding 1. Resource Element Demapper 2. Demodulation Mapper Using Soft-Demodulation, which are bit 0 = negative and bit 1 = positive. 3. Descrambling 23

Pre-Processing before DL-SCH Decoding 1. MAC sends MCS, RBG bitmap, RBG size, and BW. MCS = 1; RBG bitmap = 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ; RBG size = 3; BW = 10 MHz. 2. Calculate N_PRB = RBG_allocated * RBG_size = 2 * 3 = 6. 3. Determine I_TBS and Qm from MCS . Then, get TBS. I_TBS = 1 and Qm = 2 TBS = 208 4. Determine code-block segmentation 24

DL-SCH Decoding 25

Smoke Test PDSCH 26

Smoke Test PDSCH Result : 27

References 1. 2. 3. 4. Standard 3GPP TS 36.211 V9.1.0 (2010-03) – Physical Channels and Modulation. Standard 3GPP TS 36.212 V9.3.0 (2010-09) – Multiplexing and Channel Coding. Standard 3GPP TS 36.213 V9.3.0 (2010-09) – Physical Layer Procedures. Jing Zhu, Haitao Li. (2011). “On The Performance of LTE Physical Downlink Shared Channel”. International Conference on Computer Science and Network Technology. 5. http://www.steepestascent.com/content/mediaassets/html/LTE/Help/PDSCH.html 6. http://www.sharetechnote.com/html/BasicProcedures_LTE.html 28

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