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implement radar and wireless communication applications
use dsp hdl toolbox™ blocks to implement complex applications such as satellite communication, radio detection and ranging (radar), and wireless communication.
topics
wireless communication
design a digital upconverter (duc) for lte on fpgas.- implement digital downconverter for fpga
design a digital downconverter (ddc) for lte on fpgas. - wlan hdl time and frequency synchronization (wireless hdl toolbox)
implement wlan time- and frequency-synchronization algorithm that is optimized for hardware. - (wireless hdl toolbox)
implement a sample rate converter for an lte receiver front end.
radar
develop a beamforming algorithm suitable for implementation on hardware (part 1).
generate hdl code for a beamforming algorithm (part 2).
develop a monopulse technique to perform digital downconversion on hardware (part 1).
generate hdl code for a monopulse digital downconverter (part 2).
develop a range-doppler response suitable for implementation on hardware.- pulse-doppler radar using xilinx rfsoc device (soc blockset support package for xilinx devices)
this example shows how to build, simulate, and deploy a pulse-doppler radar system in simulink® using an soc blockset™ implementation targeted on the xilinx® zynq® ultrascale ™ rfsoc evaluation kit.
design a fpga implementation-ready ca-cfar detector.
implement a fixed-point hdl-optimized minimum-variance distortionless-response beamformer.
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