Xiaolei Lv scite author profile

This paper proposes a novel representation, known as Lv's distribution (LVD), of linear frequency modulated (LFM) signals. It has been well known that a monocomponent LFM signal can be uniquely determined by two important physical quantities, centroid frequency and chirp rate (CFCR). The basic reason for expressing a LFM signal in the CFCR domain is that these two quantities may not be apparent in the time or time-frequency (TF) domain. The goal of the LVD is to naturally and accurately represent a mono-or multicomponent LFM in the CFCR domain. The proposed LVD is simple and only requires a two-dimensional (2-D) Fourier transform of a parametric scaled symmetric instantaneous autocorrelation function. It can be easily implemented by using the complex multiplications and fast Fourier transforms (FFT) based on the scaling principle. The computational complexity, properties, detection performance and representation errors are analyzed for this new distribution. Comparisons with three other popular methods, Radon-Wigner transform (RWT), Radon-Ambiguity transform (RAT), and fractional Fourier transform (FRFT) are performed. With several numerical examples, our distribution is demonstrated to be a CFCR representationthat is computed without using any searching operation. The main significance of the LVD is to convert a 1-D LFM into a 2-D single-frequency signal. One of the most important applications of the LVD is to generate a new TF representation, called inverse LVD (ILVD), and a new ambiguity function, called Lv's ambiguity function (LVAF), both of which may break through the tradeoff between resolution and cross terms.

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The Group Lasso for Stable Recovery of Block-Sparse Signal Representations

Wan

2011

IEEE Trans. Signal Process.

100

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Performance analysis on Lv distribution and its applications

Luo

et al. 2013

Digital Signal Processing

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Echo Model Analyses and Imaging Algorithm for High-Resolution SAR on High-Speed Platform

Liu

Xing

Sun

et al. 2012

IEEE Trans. Geosci. Remote Sensing

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Xiaolei Lv

Lv's Distribution: Principle, Implementation, Properties, and Performance

The Group Lasso for Stable Recovery of Block-Sparse Signal Representations

Performance analysis on Lv distribution and its applications

Echo Model Analyses and Imaging Algorithm for High-Resolution SAR on High-Speed Platform

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