2018
DOI: 10.1002/mrc.4723
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A subband Steiglitz‐McBride algorithm for automatic analysis of FID data

Abstract: Fast, accurate, and automatic extraction of parameters of nuclear magnetic resonance free induction decay (FID) signal for chemical spectroscopy is a challenging problem. Recently, the Steiglitz-McBride algorithm has been shown to exhibit superior performance in terms of speed, accuracy, and automation when applied to the extraction of T relaxation parameters for myelin water imaging of brain. Applying it to FID data reveals that it falls short of the second objective, the accuracy. Especially, it struggles wi… Show more

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Cited by 9 publications
(6 citation statements)
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References 25 publications
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“…Furthermore, multistage median filtering with increasing window widths w m tends to improve the smoothing results, which agrees with recent works (Arias-Castro and Donoho, 2009). Intuitively, w m = 0 corresponds to no smoothing, and the problem of Eq.…”
Section: Outline Of the Proposed Adjustment Algorithmsupporting
confidence: 90%
“…Furthermore, multistage median filtering with increasing window widths w m tends to improve the smoothing results, which agrees with recent works (Arias-Castro and Donoho, 2009). Intuitively, w m = 0 corresponds to no smoothing, and the problem of Eq.…”
Section: Outline Of the Proposed Adjustment Algorithmsupporting
confidence: 90%
“…19 Commonly-used resonance peak integration methods have been shown to suffer from certain deficiencies, particularly when applied to LF bNMR data [33]. Specifically, these are limited in their capability to resolve overlapping signals, and are inherently affected by noise, leading to the development of several novel methods of corrections and FID data analysis [34]. A recently reported Bayesian model involving lineshape and baseline corrections has been shown to account for chemical shift, relaxation, lineshape imperfections and phasing, as well as baseline distortions.…”
Section: Figure 2 Reproduced From Refmentioning
confidence: 99%
“…Spectral peaks were quantified using recently described parametric algorithm for quantitation of proton NMR free induction decay (FID) data 22 . The reported algorithm, based on Steiglitz‐McBride algorithm (SMA), adaptive sub‐band decomposition, and the Bayesian information criteria, estimates peak amplitudes, phases, frequencies, and decay rates from time domain FID data.…”
Section: Methodsmentioning
confidence: 99%