Cellular Networks and Mobile Computing COMS 6998-8, Spring 2012 Instructor: Li Erran Li (lierranli@columbia.edu) http://www.cs.columbia.edu/~coms6998-8/ 1/30/2012: Cellular Networks: LTE

Iyappan Ramachandran Agilent Technologies May 20, 2010 A Deeper Look at LTE Iyappan Ramachandran Agilent Technologies May 20, 2010

Cellular Comms Evolution 3GPP – collaboration for 3G based on GSM 3GPP2 – collaboration for 3G based on IS-95 GSM GPRS EDGE WCDMA HSPA HSPA+ LTE TD-SCDMA TD-HSPA TD-HSPA+ IS-95 CDMA2000 EV-DO

LTE PHY Basics Six bandwidths Two modes 1.4, 3, 5, 10, 15, and 20 MHz Two modes FDD and TDD 100 Mbps DL (SISO) and 50 Mbps UL Transmission technology OFDM for multipath resistance DL OFDMA for multiple access in frequency/time UL SC-FDMA to deal with PAPR ratio problem

Frame Structure Frame Structure Type 1 (FDD) Frame Structure Type 2 (TDD)

Resource grid 6 or 7 OFDM symbols in 1 slot One downlink slot, Tslot 6 or 7 OFDM symbols in 1 slot Subcarrier spacing = 15 kHz Block of 12 SCs in 1 slot = 1 RB 0.5 ms x 180 kHz Smallest unit of allocation 6 or 7 OFDM symbols : Resource block Transmission BW Resource element 12 subcarriers l=0 l=6

2-D time and frequency grid #19 #18 #17 #16 1 radio frame = 10 msec (307200 x Ts) #5 Time #4 #3 #2 Sub-frame #1 NscRB subcarriers (=12) #0 Power 1 slot = 0.5 msec Frequency NBWDL subcarriers

DL PHY Channels and Signals Signals: generated in PHY layers P-SS: used for initial sync S-SS: frame boundary determination RS: pilots for channel estimation and tracking Channels: carry data from higher layers PBCH: broadcast cell-specific info PDCCH: channel allocation and control info PCFICH: info on size of PDCCH PHICH: Ack/Nack for UL blocks PDSCH: Dynamically allocated user data

DL Channel Mapping P-SCH - Primary Synchronization Signal S-SCH - Secondary Synchronization Signal PBCH - Physical Broadcast Channel PDCCH -Physical Downlink Control Channel PDSCH - Physical Downlink Shared Channel Reference Signal – (Pilot) 16QAM 64QAM QPSK Frequency Time

DL signal demo (1) DL 5 MHz FDD signal in AWGN channel

DL signal demo (2) DL 5 MHz FDD signal in frequency-selective channel

UL PHY Signals and Channels Signals: generated in the PHY layer Demodulation RS : sync and channel estimation SRS: Channel quality estimation Channels: carry data from higher layers PUSCH: Uplink data PUCCH: UL control info PRACH: Random access for connection establishment

UL Channel Mapping 64QAM 16QAM QPSK PUSCH Demodulation Reference Signal (for PUSCH) PUCCH Demodulation Reference Signal (for PUCCH format 0 or 1, Normal CP) QPSK BPSK Time Frequency

UL signal demo UL 5 MHz FDD signal in AWGN channel

MIMO in LTE Rel 8 defines MIMO only for DL 1, 2 and 4 transmit antennas defined for Transmit Diversity (TxDiv) Spatial Multiplexing (SpMux) Control channels undergo TxDiv based on SFBC Data channels may undergo TxDiv or SpMux

Orthogonal RS locations channel matrix needs to be known in advance for equalization

DL MIMOsignal demo DL 5 MHz TDD 4x2 MIMO signal in frequency-selective channel

Thank you!

Backup slides

SC-FDMA