. In the analysis of magnetic resonance data, a great deal of prior information is available which is ordinarily not used. For example, considering high resolution NMR spectroscopy, one knows in general terms what functional form the signal will take (e.g., sum of exponentially decaying sinusoids) and that, for quadrature measurements, it will be the same in both channels except for a 90 ffi phase shift. When prior information is incorporated into the analysis of time domain data, the frequencies, decay rate constants, and amplitudes may be estimated much more precisely than by direct use of discrete Fourier transforms. Here, Bayesian probability theory is used to estimate parameters using quadrature models of NMR data. The calculation re...
The use of statistical potentials in NMR structure calculation improves the accuracy of the final st...
The application of Bayes' Theorem to signal processing provides a consistent framework for proceedin...
International audienceQuantifying T2 and T2* relaxation times from MRI becomes a standard tool to as...
. In the preceding paper, Bayesian analysis was applied to the parameter estimation problem, given q...
<p><b>Copyright information:</b></p><p>Taken from "A novel Bayesian approach to quantify clinical va...
The analysis of NMR relaxation data is revisited along the lines of a Bayesian approach. Using a Mar...
Fitting parameters of interest in an elegant and efficient way via analysis of experimental data is ...
Typically in neuroimaging we are looking to extract some pertinent information from imperfect, noisy...
Nuclear Magnetic Resonance (NMR) spectroscopy has emerged as the method of choice for studying both ...
The determination of macromolecular structures from experimental data is an ill-posed inverse proble...
As a useful technique in clinical NMR spectroscopic studies, Chemical Shift Imaging (CSI) suffers fr...
The Bayesian approach to probability theory is presented as an alternative to the currently used lon...
The Bayesian approach allows an intuitive way to derive the methods of statistics. Probability is de...
The use of statistical potentials in NMR structure calculation improves the accuracy of the final st...
<div><p>The use of statistical potentials in NMR structure calculation improves the accuracy of the ...
The use of statistical potentials in NMR structure calculation improves the accuracy of the final st...
The application of Bayes' Theorem to signal processing provides a consistent framework for proceedin...
International audienceQuantifying T2 and T2* relaxation times from MRI becomes a standard tool to as...
. In the preceding paper, Bayesian analysis was applied to the parameter estimation problem, given q...
<p><b>Copyright information:</b></p><p>Taken from "A novel Bayesian approach to quantify clinical va...
The analysis of NMR relaxation data is revisited along the lines of a Bayesian approach. Using a Mar...
Fitting parameters of interest in an elegant and efficient way via analysis of experimental data is ...
Typically in neuroimaging we are looking to extract some pertinent information from imperfect, noisy...
Nuclear Magnetic Resonance (NMR) spectroscopy has emerged as the method of choice for studying both ...
The determination of macromolecular structures from experimental data is an ill-posed inverse proble...
As a useful technique in clinical NMR spectroscopic studies, Chemical Shift Imaging (CSI) suffers fr...
The Bayesian approach to probability theory is presented as an alternative to the currently used lon...
The Bayesian approach allows an intuitive way to derive the methods of statistics. Probability is de...
The use of statistical potentials in NMR structure calculation improves the accuracy of the final st...
<div><p>The use of statistical potentials in NMR structure calculation improves the accuracy of the ...
The use of statistical potentials in NMR structure calculation improves the accuracy of the final st...
The application of Bayes' Theorem to signal processing provides a consistent framework for proceedin...
International audienceQuantifying T2 and T2* relaxation times from MRI becomes a standard tool to as...