This model shows how to use the ADALM-PLUTO Radio with Simulink® to implement a QPSK transmitter. The ADALM-PLUTO Radio in this model will keep transmitting indexed 'Hello world' messages
Use the ADALM-PLUTO Radio as a data source for downstream spectrum analysis. You can change the radio's center frequency to tune the radio to a band where a signal is present. You can then use
This model shows how to use the the ADALM-PLUTO Radio with Simulink® to implement a QPSK receiver. The receiver addresses practical issues in wireless communications, e.g. carrier
Use the ADALM-PLUTO Radio System objects to implement a QPSK receiver. The receiver addresses practical issues in wireless communications, such as carrier frequency and phase offset,
Transmit and receive WLAN packets on a single PlutoSDR device, using the Communications Toolbox™ Support Package for ADALM-PLUTO Radio and the WLAN Toolbox™. An image file is encoded and
Use the ADALM-PLUTO Radio System objects to implement a QPSK transmitter. The ADALM-PLUTO radio in this system will keep transmitting indexed "Hello world" messages at its specified
Synchronize both the baseband sample rate and the center frequency of two PlutoSDRs by using the FrequencyCorrection property of comm.SDRRxPluto and comm.SDRTxPluto.
These two models show how to determine the relative frequency offset between two ADALM-PLUTO radios.
Track planes by processing Automatic Dependent Surveillance-Broadcast (ADS-B) signals using MATLAB® and Communications Toolbox™. You can either use captured signals or receive
Use the Communications Toolbox™ to read utility meters by processing Standard Consumption Message (SCM) signals and Interval Data Message (IDM) signals which are emitted by
Use MATLAB® and the Communications Toolbox™ to extract program or song information from FM radio stations using the RDS or RBDS standard and, optionally, the RadioText Plus (RT+) standard.