MathWorks has shared their schedule of events happening during this year's IMS. At their booth, 1853, the company has planned a number of demos, workshops and seminars, see below for details. 

Demos at MathWorks Booth #1853

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  • Antenna-to-bits: RF System design from Antenna-to-bits
    • Speaker: Giorgia Zucchelli, MathWorks
    • Model and simulate wireless communications and radar systems from antenna to bits, including large antenna arrays, RF transceivers, PCB boards, data converters, digital signal processing algorithms and control logic. Learn how to build a digital twin of your system to evaluate different propagation scenarios and explore implementation tradeoffs. Integrate measurements, data sheet specifications, and circuit-level simulation results for antennas and RF components in your system-level model for rapid analysis and simulation.
  • 5G Waveform Validation: 5G waveform design and validation using MATLAB and Keysight test equipment
    • Speaker: Eric Wetjen, MathWorks
    • Use MATLAB apps and command line functions to generate 5G NR test waveforms and transmit them OTA (over-the-air) using a signal generator.  Validate the OTA-transmitted waveforms in MATLAB by visualizing and analyzing the IQ data collected from a Keysight signal analyzer.   You can use the Wireless Waveform Analyzer, a built-in MATLAB app, to visualize the spectrum, display constellation plots, calculate overall EVM measurements and analyze the subcarrier EVM of your captured signal.  You can also build custom apps and visualizations for your 5G data.

Workshops

  • WEMA1: Wednesday, June 18 9:30 - 9:45, Location: Microapps Theater, Booth 5423
    • Non-Terrestrial Networks (NTNs): Where Cellular and SatCom Converge
    • Speaker: Mike McLernon, MathWorks
    • Ubiquitous internet connectivity using satellites is no longer a dream, as demonstrated by the 3GPP investment in 5G NTNs. This microapp will describe the challenges of NTN links, which significantly differ from those of terrestrial links, as they must deal with larger propagation delays and high Doppler. It will also describe the modeling and simulation required to design these links. We will discuss MATLAB simulations of orbit propagation, power amplifier (PA) models, Doppler compensation, 5G OFDM processing and link throughput as a function of SNR.