J. Treichler scite author profile

Compressive sensing (CS) exploits the sparsity present in many signals to reduce the number of measurements needed for digital acquisition. With this reduction would come, in theory, commensurate reductions in the size, weight, power consumption, and/or monetary cost of both signal sensors and any associated communication links. This paper examines the use of CS in the design of a wideband radio receiver in a noisy environment. We formulate the problem statement for such a receiver and establish a reasonable set of requirements that a receiver should meet to be practically useful. We then evaluate the performance of a CS-based receiver in two ways: via a theoretical analysis of its expected performance, with a particular emphasis on noise and dynamic range, and via simulations that compare the CS receiver against the performance expected from a conventional implementation. On the one hand, we show that CSbased systems that aim to reduce the number of acquired measurements are somewhat sensitive to signal noise, exhibiting a 3dB SNR loss per octave of subsampling, which parallels the classic noise-folding phenomenon. On the other hand, we demonstrate that since they sample at a lower rate, CS-based systems can potentially attain a significantly larger dynamic range. Hence, we conclude that while a CS-based system has inherent limitations that do impose some restrictions on its potential applications, it also has attributes that make it highly desirable in a number of important practical settings.

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New processing techniques based on the constant modulus adaptive algorithm

Treichler¹,

Larimore

1985

IEEE Trans. Acoust., Speech, Signal Process.

232

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Transient and convergent behavior of the adaptive line enhancer

Treichler

1979

IEEE Trans. Acoust., Speech, Signal Process.

201

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Fractionally spaced equalizers

Treichler¹,

Fijalkow²,

Johnson³

1996

IEEE Signal Process. Mag.

198

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J. Treichler

A new approach to multipath correction of constant modulus signals

The Pros and Cons of Compressive Sensing for Wideband Signal Acquisition: Noise Folding versus Dynamic Range

New processing techniques based on the constant modulus adaptive algorithm

Transient and convergent behavior of the adaptive line enhancer

Fractionally spaced equalizers

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