T. Ragheb, S. Kirolos, J. Laska, A. Gilbert, M. Strauss, Richard Baraniuk, Y. Massoud
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Implementation models for analog-to-information conversion via random sampling
We develop a framework for analog-to-information conversion based on the theory of information recovery from random samples. The framework enables sub-Nyquist acquisition and processing of wideband signals that are sparse in a local Fourier representation. We present the random sampling theory associated with an efficient information recovery algorithm to compute the spectrogram of the signal. Additionally, we develop a hardware design for the random sampling system that demonstrates a consistent reconstruction fidelity in the presence of sampling jitter, which forms the main source of non-ideality in a practical system implementation.
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