2013  •   Engineering and Technology

CRUSH: Cognitive Radio Universal Software Hardware

Lead Presenter: Jonathon Pendlum

Cognitive radio algorithms require low latency, high performance signal processing to make real time decisions for spectrum sharing. Researchers have turned to software defined radios (SDR) to implement their algorithms due to SDRÍs dynamic configurability and ease of programming. However, state of the art software defined radios, such as Ettus ResearchÍs Universal Software Radio Peripheral (USRP), rely on a host computer to perform the signal processing at the cost of data transfer latency. Our architecture, called CRUSH (Cognitive Radio Universal Software Hardware), reduces the data transfer latency by coupling a field programmable gate array (FPGA) with the USRP. The USRP forwards sampled data at full rate over a high-speed serial interface to the FPGA on a Xilinxs ML605 board. This creates a hybrid software defined radio where the time critical signal processing is offloaded to the FPGA while the host computer implements higher level decisions. To demonstrate our platform we implemented spectrum sensing, a key step in cognitive radio algorithms that determines spectrum availability before transmitting. Spectrum sensing is inheriently sensitive to data delay; less latency reduces the chance for transmitting in an occupied channel. CRUSHÍs implementation improves latency enabling faster response to changing wireless channel conditions.