Application-Specific
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
- 5G NR Synchronization Signal Capture Using Software-Defined Radio (5G Toolbox)
Use a software-defined radio to capture an SS burst. Analyze the capture and identify the strongest SSB. (Since R2024a) - 5G NR Waveform Capture and Analysis Using Software-Defined Radio (5G Toolbox)
Generate and transmit a 5G NR waveform continuously over the air using a supported software-defined radio.
ADS-B and AIS
- 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. - 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.
AMR
- Automatic Meter Reading
Read utility meters by processing standard consumption message (SCM) and interval data message (IDM) signals from encoder-receiver-transmitter (ERT) compatible meters with options for using recorded data or receiving signals in real time with an RTL-SDR or ADALM-PLUTO radio. - Automatic Meter Reading in Simulink
Read utility meters by processing standard consumption message (SCM) and interval data message (IDM) signals from encoder-receiver-transmitter (ERT) compatible meters with options for using recorded data or receiving signals in real time with an RTL-SDR or ADALM-PLUTO radio.
Bluetooth
- Bluetooth BR/EDR Waveform Generation and Transmission Using SDR (Bluetooth Toolbox)
Generate and transmit Bluetooth BR/EDR waveform by using SDR. - Bluetooth BR/EDR Waveform Reception Using SDR (Bluetooth Toolbox)
Capture and decode Bluetooth BR/EDR waveform by using SDR. - Bluetooth LE Waveform Generation and Transmission Using SDR (Bluetooth Toolbox)
Generate and transmit Bluetooth LE waveform. - Bluetooth LE Waveform Reception Using SDR (Bluetooth Toolbox)
Demodulate and decode Bluetooth LE waveform.
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. - Image Transmission and Reception Using LTE Waveform and SDR (LTE Toolbox)
This example shows how to transmit and receive an image using an LTE waveform and a software-defined radio (SDR). - Spectrum Sensing with Deep Learning to Identify 5G and LTE Signals
Train a semantic segmentation network for spectrum monitoring to characterize spectrum occupancy and identify 5G NR and LTE signals in wideband spectrograms using deep learning. - 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
- DVB-S2 Transmitter Using Software-Defined Radio (Satellite Communications Toolbox)
Generate DVB-S2 PL frames and transmit them using SDR. - DVB-S2 Receiver Using Software-Defined Radio (Satellite Communications Toolbox)
Capture DVB-S2 waveform using SDR. - GPS Signal Transmission, Acquisition and Tracking Using PlutoSDR (Satellite Communications Toolbox)
Perform GPS signal acquisition and tracking using an ADAM-PLUTO SDR.
WLAN
- Image Transmission and Reception Using 802.11 Waveform and SDR (WLAN Toolbox)
Transmit and receive images encoded in IEEE® 802.11™ waveforms using SDR. - 802.11 OFDM Beacon Frame Generation (WLAN Toolbox)
Generate IEEE 802.11 packets containing MAC beacon frames. - WLAN Beacon Receiver Using Software-Defined Radio (WLAN Toolbox)
Retrieve information about WiFi networks on the 5 GHz band using a software-defined radio. - Recover and Analyze Packets in 802.11 Waveform (WLAN Toolbox)
Blindly detect, decode, and analyze IEEE 802.11 packets in a waveform. - Detect Human Presence Using Wireless Sensing with Deep Learning (WLAN Toolbox)
Perform wireless sensing to detect human presence using a CNN and the channel state information in wireless local area networks. - Test a Deep Neural Network with Captured Data to Detect WLAN Router Impersonation (WLAN Toolbox)
Train an RF fingerprinting CNN with data captured from an SDR to detect WLAN router impersonation.