Abstract
We present BigBand, a technology that can capture GHz of spectrum in realtime without sampling the signal at GS/s - i.e., without high speed ADCs. Further, it is simple and can be implemented on commodity low-power radios. Our approach builds on recent advances in the area of sparse Fourier transforms, which show that it is possible to reconstruct a sparse signal without sampling it at the Nyquist rate. To demonstrate our design, we implement it using 3 software radios, each sampling the spectrum at 50 MS/s, producing a device that captures 0.9 GHz - i.e., 6× larger digital bandwidth than the three software radios combined. Finally, an extension of BigBand can perform GHz spectrum sensing even in scenarios where the spectrum is not sparse. © 2014 IEEE.
Cite
CITATION STYLE
Hassanieh, H., Shi, L., Abari, O., Hamed, E., & Katabi, D. (2014). GHz-wide sensing and decoding using the sparse Fourier transform. In Proceedings - IEEE INFOCOM (pp. 2256–2264). Institute of Electrical and Electronics Engineers Inc. https://doi.org/10.1109/INFOCOM.2014.6848169
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