Kevin Craft scite author profile

Kevin Craft

5Publications

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Lawrence Livermore National Laboratory, Los Alamos National Laboratory

Publications

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Vibrational processing of a dynamic structural flight system: A multichannel spectral estimation approach

Candy

Case

Fisher

et al. 2020

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Dynamic testing of large flight vehicles (rockets) is not only complex, but also can be very costly. These flights are infrequent and can lead to disastrous effects if something were to fail during the flight. The development of sensors coupled to internal components offers a great challenge in reducing their size, yet still maintaining their precision. Sounding rockets provide both a viable and convenient alternative to the more costly vehicular flights. Some of the major objectives are to test various types of sensors for monitoring components of high interest as well as investigating real-time processing techniques. Signal processing presents an extreme challenge in this noisy multichannel environment. The estimation and tracking of modal frequencies from vibrating structures is an important set of features that can provide information about the components under test; therefore, high resolution multichannel spectral processing is required. The application of both single channel and multichannel techniques capable of producing reliable modal frequency estimates of a vibrating structure from uncertain accelerometer measurements is discussed.

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In Lieu of an Ode

Craft¹

2002

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A 500-MHz Low Noise General-Purpose Frequency Synthesizer

Byers¹,

Craft²,

Lohrer³

1973

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Countering the Pedagogy of Regression

Craft¹

2011

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Transient recovery problem in acoustics: A multichannel model-based deconvolution approach

Candy

Case

Fisher

et al. 2021

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Critical acoustical systems operating in complex environments contaminated with disturbances and noise offer an extreme challenge when excited by out-of-the-ordinary, impulsive, transient events that can be undetected and seriously affect their overall performance. Transient impulse excitations must be detected, extracted, and evaluated to determine any potential system damage that could have been imposed; therefore, the problem of recovering the excitation in an uncertain measurement environment becomes one of multichannel deconvolution. Recovering a transient and its initial energy has not been solved satisfactorily, especially when the measurement has been truncated and only a small segment of response data is available. The development of multichannel deconvolution techniques for both complete and incomplete excitation data is discussed, employing a model-based approach based on the state-space representation of an identified acoustical system coupled to a forward modeling solution and a Kalman-type processor for enhancement and extraction. Synthesized data are utilized to assess the feasibility of the various approaches, demonstrating that reasonable performance can be achieved even in noisy environments.

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Kevin Craft

Vibrational processing of a dynamic structural flight system: A multichannel spectral estimation approach

In Lieu of an Ode

A 500-MHz Low Noise General-Purpose Frequency Synthesizer

Countering the Pedagogy of Regression

Transient recovery problem in acoustics: A multichannel model-based deconvolution approach

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