Derivative shape estimations with resolved overlapped peaks and reduced noise for time signals encoded by NMR spectroscopy with and without water suppression
From MaRDI portal
Publication:6081462
DOI10.1007/S10910-023-01500-9zbMath1522.92092MaRDI QIDQ6081462
Publication date: 5 October 2023
Published in: Journal of Mathematical Chemistry (Search for Journal in Brave)
Related Items (1)
Cites Work
- Unnamed Item
- Derivative NMR spectroscopy for J-coupled multiplet resonances using short time signals (0.5 KB) encoded at low magnetic field strengths (1.5T). I: Water suppressed
- Derivative NMR spectroscopy for J-coupled multiplet resonances using short time signals (0.5KB) encoded at low magnetic field strengths (1.5T). II: Water unsuppressed
- Validation of reconstructed component spectra from non-parametric derivative envelopes: comparison with component lineshapes from parametric derivative estimations with the solved quantification problem
- Exact quantification by the nonparametric fast Padé transform using only shape estimation of high-order derivatives of envelopes
- Explicit extraction of absorption peak positions, widths and heights using higher order derivatives of total shape spectra by nonparametric processing of time signals as complex damped multi-exponentials
- High-resolution at 3\,T for in vivo derivative NMR spectroscopy in medical diagnostics of ovarian tumor: exact quantification by shape estimations
- In vitro proton magnetic resonance spectroscopy at 14T for benign and malignant ovary. I: Signal processing by the nonparametric fast Padé transform
- In vitro proton magnetic resonance spectroscopy at 14\,T for benign and malignant ovary. II: Signal processing by the parametric fast Padé transform
- \textit{In vivo} derivative NMR spectroscopy for simultaneous improvements of resolution and signal-to-noise-ratio: case study, glioma
- Feasibility study for applying the lower-order derivative fast Padé transform to measured time signals
- Automatic self-correcting in signal processing for magnetic resonance spectroscopy: noise reduction, resolution improvement and splitting overlapped peaks
- Review of recent applications of the conventional and derivative fast Padé transform for magnetic resonance spectroscopy
- Inverse problem for reconstruction of components from derivative envelope in ovarian MRS: citrate quartet as a cancer biomarker with considerably decreased levels in malignant vs benign samples
- An Algorithm for the Machine Calculation of Complex Fourier Series
This page was built for publication: Derivative shape estimations with resolved overlapped peaks and reduced noise for time signals encoded by NMR spectroscopy with and without water suppression
