The examples featured here show you how to connect SDR hardware with the LTE Toolbox™. For more information about supported SDR platforms, see Communications Toolbox Supported Hardware (Communications Toolbox).
Use the Xilinx® Zynq-based radio support package with MATLAB® and LTE Toolbox™ to generate an LTE transmission. 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).
Use the Xilinx® Zynq-based radio support package with MATLAB® and LTE Toolbox™ to decode the master information block (MIB) and recover basic system information from an LTE waveform. If you have a second SDR platform the captured LTE signal can be generated by the companion example LTE Transmitter using Zynq-based Software-Defined Radio (SDR).
Use the Xilinx® Zynq-based radio support package with MATLAB® and LTE Toolbox™ to generate a simultaneous multi-antenna transmission and reception on a single SDR platform.
Use both channels of the USRP® B210, X300 or X310 to transmit a 2 antenna LTE waveform generated by LTE Toolbox™. The generated waveform includes the SIB1 message and all physical channels and signals required to decode it.
Uses both channels of USRP® B210, X300 or X310 to receive an LTE downlink signal. LTE Toolbox™ is used to perform the cell search procedure and to decode the MIB and SIB1 messages if present.
Implement an LTE MIB recovery system on the Xilinx® Zynq® radio platform that is partitioned across the ARM® and the programmable logic fabric.
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