Walter H. Gerstle scite author profile

A vibration estimation method for synthetic aperture radar (SAR) is presented based on a novel application of the discrete fractional Fourier transform (DFRFT). Small vibrations of ground targets introduce phase modulation in the SAR returned signals. With standard preprocessing of the returned signals, followed by the application of the DFRFT, the time-varying accelerations, frequencies, and displacements associated with vibrating objects can be extracted by successively estimating the quasi-instantaneous chirp rate in the phase-modulated signal in each subaperture. The performance of the proposed method is investigated quantitatively, and the measurable vibration frequencies and displacements are determined. Simulation results show that the proposed method can successfully estimate a two-component vibration at practical signal-to-noise levels. Two airborne experiments were also conducted using the Lynx SAR system in conjunction with vibrating ground test targets. The experiments demonstrated the correct estimation of a 1-Hz vibration with an amplitude of 1.5 cm and a 5-Hz vibration with an amplitude of 1.5 mm.

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Finite and boundary element modeling of crack propagation in two and three dimensions

Gerstle

Martha

Ingraffea

1987

Engineering with Computers

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Energy-Based Automatic Mixed-Mode Crack-Propagation Modeling

1995

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Walter H. Gerstle

Peridynamic modeling of concrete structures

Energy-Based Cohesive Crack Propagation Modeling

SAR-Based Vibration Estimation Using the Discrete Fractional Fourier Transform

Finite and boundary element modeling of crack propagation in two and three dimensions

Energy-Based Automatic Mixed-Mode Crack-Propagation Modeling

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