5G NR Physical Layer Modeling with MATLAB : vTools Events

IEEE.org | IEEE Xplore Digital Library | IEEE Standards | IEEE Spectrum | More Sites

5G NR Physical Layer Modeling with MATLAB

#5G #NR #Modeling #of #uplink #and #downlink #physical #channels #MATLAB

Overview

Attend this technical session to learn how 5G Toolbox provides 3GPP New Radio (NR) standard-compliant models to explore behavior of 5G physical layer systems or components with MATLAB.

Highlights

Uplink and downlink 5G NR waveform generation
- Including pre-defined (test models, FRCs) and full custom waveforms
Modeling of 5G uplink and downlink physical channels and signals such as PDSCH/PUSCH, PDCCH/PUCCH, synchronization burst, DMRS (demodulation reference signals), CSI-RS, SRS, PT-RS
LDPC and Polar channel coding schemes
Channel models as specified in TR 38.901 including tapped delay line (TDL) and clustered delay line (CDL)
Link-level simulation reference design, enabling you to measure throughput of a downlink (PDSCH) or an uplink (PUSCH) 5G link over 2-D or 3-D channel model
- Compare perfect and actual channel estimation
- Write MAC packets to PCAP file
Synchronization procedures including cell search and MIB decoding
Downlink ACLR measurement
Beamforming applied to mmWave transmission

Date and Time

Location

Hosts

Registration

Date: 01 Oct 2020
Time: 05:00 PM UTC to 06:00 PM UTC
Add Event to Calendar
iCal
Google Calendar

If you are not a robot, please complete the ReCAPTCHA to display virtual attendance info.

Contact Event Host
Co-sponsored by Mathworks: Frank Vincze, fvincze@mathworks.com

Link to External Registration

Agenda

Uplink and downlink 5G NR waveform generation
- Including pre-defined (test models, FRCs) and full custom waveforms

Modeling of 5G uplink and downlink physical channels and signals such as PDSCH/PUSCH, PDCCH/PUCCH, synchronization burst, DMRS (demodulation reference signals), CSI-RS, SRS, PT-RS

LDPC and Polar channel coding schemes

Channel models as specified in TR 38.901 including tapped delay line (TDL) and clustered delay line (CDL)

Link-level simulation reference design, enabling you to measure throughput of a downlink (PDSCH) or an uplink (PUSCH) 5G link over 2-D or 3-D channel model
- Compare perfect and actual channel estimation
- Write MAC packets to PCAP file

Synchronization procedures including cell search and MIB decoding

Downlink ACLR measurement

Beamforming applied to mmWave transmission