Software Defined Radio Using Matlab. Back in January 2014 the MATLAB team released an update which enabled the RTL-SDR to be used as an RF input device. It can be used as an RFFE to a MATLAB script or Simulink model or it can be programmed and used as a complete stand-alone radio.
For example you can receive and process wireless signals such as FM radio airplane surveillance signals ADS-B and signals from smart meters water or energy metering devices. If you have a second SDR platform the transmitted signal can be captured and the broadcast channel decoded using the companion example LTE Receiver using Zynq-based Software-Defined Radio SDR. Back in January 2014 the MATLAB team released an update which enabled the RTL-SDR to be used as an RF input device.
Back in January 2014 the MATLAB team released an update which enabled the RTL-SDR to be used as an RF input device.
Getting Started with Software-Defined Radio using MATLAB and Simulink Noam Levine MathWorks Robin Getz Analog Devices Luc Langlois Avnet Electronics Marketing Join engineers from MathWorks Analog Devices and Avnet who will show a single hardwaresoftware development and deployment environment for Software-Defined Radio. It is similar to GNU Radio in terms of its digital signal processing DSP capabilities. Use the Xilinx Zynq-based radio support package with MATLAB and LTE Toolbox to generate an LTE transmission. The RTL-SDR dongle features the Realtek RTL2832U chip which can be used to acquire and sample RF signals transmitted in the frequency range 25MHz to 175GHz.