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Standards-Based Modeling

Use your software defined radio to transmit and receive compliant with various standards

Your SDR can transmit and receive signals compliant with various standards. Use Communications Toolbox™ to generate and recover various over-the-air waveforms.

Topics

5G

ADS-B and AIS

  • Ship Tracking Using AIS Signals
    Track ships by processing automatic identification system (AIS) signals, using either previously captured signals or real-time reception with an RTL-SDR, ADALM-PLUTO, or USRP™ radio, and display the tracked ships on a map with the Mapping Toolbox™.
  • Airplane Tracking Using ADS-B Signals
    Track planes by processing automatic dependent surveillance-broadcast (ADS-B) signals, using either previously captured signals or real-time reception with an RTL-SDR, ADALM-PLUTO, or USRP radio, and visualize them on a map with the Mapping Toolbox.
  • Airplane Tracking Using ADS-B Signals in Simulink
    Track planes by processing automatic dependent surveillance-broadcast (ADS-B) signals, using either previously captured signals or real-time reception with an RTL-SDR, ADALM-PLUTO, or USRP radio, and visualize them on a map with the Mapping Toolbox.

FM

  • FM Broadcast Receiver
    Build an FM mono or stereo receiver using recorded data or real-time signals with an RTL-SDR, ADALM-PLUTO, or USRP radio.
  • FM Broadcast Receiver in Simulink
    Build an FM mono or stereo receiver using recorded data or real-time signals with an RTL-SDR, ADALM-PLUTO, or USRP radio.
  • RDS/RBDS and RadioText Plus (RT+) FM Receiver
    Extract program or song information from FM radio stations using RDS or RBDS, and optionally RT+, standards by processing previously captured signals or receiving over-the-air signals in real time with an RTL-SDR, ADALM-PLUTO, or USRP radio.
  • RDS/RBDS and RadioText Plus (RT+) FM Receiver in Simulink
    Extract program or song information from FM radio stations using RDS or RBDS, and optionally RT+, standards by processing previously captured signals or receiving over-the-air signals in real time with an RTL-SDR, ADALM-PLUTO, or USRP radio.

LTE

  • LTE Transmitter Using Software Defined Radio (LTE Toolbox)
    This example shows how to generate a reference measurement channel (RMC) downlink (DL) LTE waveform suitable for over-the-air transmission.
  • LTE Receiver Using Software-Defined Radio (LTE Toolbox)
    This example shows how to recover the master information block (MIB) and basic system information from an over-the-air LTE downlink (DL) waveform.
  • Scan and Decode LTE Waveform (LTE Toolbox)
    This example shows how to capture and decode an LTE signal obtained either from a file or from radio by using LTE Toolbox™ software and various hardware support packages (HSPs).

Satellite Communication

WLAN

Featured Examples