Signal treatment and signal analysis in NMR

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Signal analysis and signal treatment are integral parts of all types of Nuclear Magnetic Resonance. In the last ten years, much has been achieved in the development of dimensional spectra. At the same time new NMR techniques such as NMR Imaging and multidimensional spectroscopy have appeared, requiring entirely new methods of signal analysis. Up until now, most NMR texts and reference books limited their presentation of signal processing to a short introduction to the principles of the Fourier Transform, signal convolution, apodisation and noise reduction. To understand the mathematics of the newer signal processing techniques, it was necessary to go back to the primary references in NMR, chemometrics and mathematics journals.

The objective of this book is to fill this void by presenting, in a single volume, both the theory and applications of most of these new techniques to Time-Domain, Frequency-Domain and Space-Domain NMR signals. Details are provided on many of the algorithms used and a companion CD-ROM is also included which contains some of the computer programs, either as source code or in executable form. Although it is aimed primarily at NMR users in the medical, industrial and academic fields, it should also interest chemometricians and programmers working with other techniques.

Author(s): D.N. Rutledge (Eds.)
Series: Data handling in science and technology 18
Publisher: Elsevier Science
Year: 1996

Language: English
Commentary: CD for computer
Pages: 1-548
City: Amsterdam [The Netherlands]; New York

Content:
Preface
Page v
Douglas N. Rutledge

List of Contributors
Pages xv-xvii

Chapter 1 Fourier transform and signal manipulation Original Research Article
Pages 1-24
Luc J. Eveleigh

Chapter 2 Maximum entropy methods in nmr data processing Original Research Article
Pages 25-43
Kevin M. Wright

Chapter 3 Analysis of nmr relaxation data Original Research Article
Pages 44-67
Kenneth P. Whittall

Chapter 4 Nonlinear regression Original Research Article
Pages 68-99
Ricardo S. Cármenes

Chapter 5 The padé-laplace analysis of nmr signals Original Research Article
Pages 100-119
Jean Aubard, Patrick Levoir

Chapter 6 Digital filtering Original Research Article
Pages 120-144
Keith J. Cross

Chapter 7 Binomial filters Original Research Article
Pages 145-163
Ēriks Kupče

Chapter 8 Linear prediction and singular value decomposition in nmr signal analysis Original Research Article
Pages 164-190
Mihaela Lupu, Dorin Todor

Chapter 9 A windows program for relaxation parameter estimation Original Research Article
Pages 191-217
Douglas N. Rutledge

Chapter 10 Continuous relaxation time distribution decomposition by mem Original Research Article
Pages 218-234
F. Mariette, J.P. Guillement, C. Tellier, P. Marchal

Chapter 11 Examples of the use of Padé-Laplace in NMR Original Research Article
Pages 235-247
D. Le Botlan

Chapter 12 Analysis and interpretation of NMR water proton relaxation data Original Research Article
Pages 248-280
B.P. Hills

Chapter 13 Scattering wavevector analysis of pulsed gradient spin echo data Original Research Article
Pages 281-305
Andrew Coy, Paul T. Callaghan

chapter 14 Accuracy and precision of intensity determinations in quantitative nmr Original Research Article
Pages 306-329
Jean-Philippe Grivet

Chapter 15 Least-squares estimation of parameters affecting nmr line-shapes in multi-site chemical exchange Original Research Article
Pages 330-345
Guido Crisponi

Chapter 16 Reference deconvolution in NMR Original Research Article
Pages 346-361
Gareth A. Morris

Chapter 17 Continuous wave and rapid scan correlation NMR Original Research Article
Pages 362-373
P.S. Belton

Chapter 18 Data processing in high-resolution multidimensional NMR Original Research Article
Pages 374-406
Marc A. Delsuc

Chapter 19 Neural networks for 2D NMR spectroscopy Original Research Article
Pages 407-421
Simon Cone

Chapter 20 Analysis of nuclear magnetic resonance spectra of mixtures using multivariate techniques Original Research Article
Pages 422-451
Trond Brekke, OlavM Kvalheim

Chapter 21 Quantitative magnetic resonance imaging: applications and estimation of errors Original Research Article
Pages 452-488
Simon J. Doran

Chapter 22 Stochastic spectroscopic imaging Original Research Article
Pages 489-512
Helge Nilgens, Bernhard Blümich

Chapter 23 Application of multivariate data analysis techniques to NMR imaging Original Research Article
Pages 513-534
Hans Grahn, Paul Geladi

Acronyms
Pages 535-536

Index
Pages 537-548