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eBook Fourier Transforms in Spectroscopy ePub

by Jari Partanen,Jyrki Kauppinen

eBook Fourier Transforms in Spectroscopy ePub
Author: Jari Partanen,Jyrki Kauppinen
Language: English
ISBN: 3527402896
ISBN13: 978-3527402892
Publisher: Wiley-VCH; 1 edition (February 8, 2001)
Pages: 270
Category: Chemistry
Subcategory: Science
Rating: 4.4
Votes: 750
Formats: lrf azw lrf lit
ePub file: 1721 kb
Fb2 file: 1895 kb

Jyrki Kauppinen, Jari Partanen. This modern approach to the subject is clearly and logicallystructured, and gives readers an understanding of the essence ofFourier transforms and their applications.

Jyrki Kauppinen, Jari Partanen. All important aspects areincluded with respect to their use with optical spectroscopic data. This modern approach to the subject is clearly and logically structured, and gives readers an understanding of the essence of Fourier transforms and their applications. All important aspects are included with respect to their use with optical spectroscopic data. Fourier Transforms in Spectroscopy. Berlin Weinheim New York Chichester Brisbane Singapore Toronto. ISBNs: 3-527-40289-6 (Hardcover); 3-527-60029-9 (Electronic). Dr. Jyrki Kauppinen Department of Applied Physics University of Turku Finland e-mail: jyrki. Jari Partanen Department of Applied Physics University of Turku Finland e-mail: jari. This book was carefully produced.

Jyrki Kauppinen, Jari Partanen The main part of the book is dedicated to applications of FT in signal processing and . Professor Dr. Jyrki Kauppinen, born 1944, Dept. The main part of the book is dedicated to applications of FT in signal processing and spectroscopy, with IR and NIR, NMR and mass spectrometry dealt with both from a theoretical and practical point of view. Some aspects, linear prediction for example, are explained here thoroughly for the first time. of Applied Physics, University of Turku, Finland Dr. Jari Partanen, Technical Officer, Dept. of Applied Physics, University of Turku, Finland.

Jyrki Kauppinen and Jari Partanen Turku, Finland, 13th October 2000. Our book mainly discusses symmetric functions, and the Fourier transform and the inverse Fourier transform of a symmetric function are the same. Consequently, the choice of the sign has no scientific meaning. 1 Basic definitions . Fourier series .

Fourier Transforms in Spectroscopy book.

In book: Fourier Transforms in Spectroscopy, p. 9-59. We propose a coded computing strategy and examine communication costs of coded computing algorithms to make distributed Fast Fourier Transform (FFT) resilient to errors during the computation. Cite this publication. Basis of FFTCooley–Tukey time. We apply maximum distance separable (MDS) codes to a widely used "Transpose" algorithm for parallel FFT. In the uncoded distributed FFT algorithm, the most expensive step is a single "all-to-all".

oceedings{TI, title {Fourier Transforms in Spectroscopy}, author {Jyrki K. Kauppinen and Jari Partanen}, year {2001} }. Kauppinen and Jari Partanen}, year {2001} . I MATHEMATICAL FUNDAMENTALS: Basic Definitions General Properties of Fourier Transforms Discrete Fourier Transforms Fast Fourier Transforms Laplace and Other Integral Transforms II SPECTRAL APPLICATIONS: Fourier Transform Spectroscopy Fourier Transform Nuclear Magnetic Resonance (NMR) Spectrometry FT Ion Cyclotron Resonance Mass Spectrometry Diffraction and Fourier Transform Uncertainty Principle Signal Processing Fourier Self-Deconvolution Linear Prediction.

Fourier Transforms in Spectroscopy. Kauppinen, Jyrki, Partanen, Jari. This is the first book to explain certain aspects of Fourier self-deconvolution and linear prediction

Fourier Transforms in Spectroscopy. ISBN: 978-3-527-40289-2. This is the first book to explain certain aspects of Fourier self-deconvolution and linear prediction. Starting from the mathematical fundamentals, the authors cover the applications of Fourier transforms in signal processing and spectroscopy, and also include the field of linear signal prediction which allows resolution enhancement and provides much more useful spectra. Clear and logically structured, the book is suitable for graduates as well as scientists and engineers working in this field.

Fourier transform - Fourier transforms Continuous Fourier transform Fourier series Discrete Fourier . For its use as a method in spectroscopy, see Nuclear magnetic resonance spectroscopy. For other uses, see NMR (disambiguation).

For its use as a method in spectroscopy, see Nuclear magnetic resonance spectroscopy.

This modern approach to the subject is clearly and logically structured, and gives readers an understanding of the essence of Fourier transforms and their applications. All important aspects are included with respect to their use with optical spectroscopic data. Based on popular lectures, the authors provide the mathematical fundamentals and numerical applications which are essential in practical use. The main part of the book is dedicated to applications of FT in signal processing and spectroscopy, with IR and NIR, NMR and mass spectrometry dealt with both from a theoretical and practical point of view. Some aspects, linear prediction for example, are explained here thoroughly for the first time.
Goltigor
This is a WONDERFUL book on the Fourier Transform. It's nearly perfect.

First of all, the author writes to an audience. The audience of this book would be senior level physics / engineering students, 1st year graduate students, or graduate students who want a better feel for the FT. The math is advanced, but neither abstract nor difficult. It is completely appropriate for the intended audience. In fact, the authors did a GREAT job at that.

One comment before I move on to point two. Many books on the FT suffer from trying to be too many things to too many people. For example, trying to be an intro book but delving into the abstract nature of a transform. The main point of this book is practicality. It is neither abstract nor subtle. The author's writing style and material is very pragmatic and straight-forward. Any (good) student of physics or engineering will immediately appreciate this.

Second of all, what makes this book truly excellent are all the great pictures. I can't think of any FT books that make as copious use of pictures. You see the input, you see the output. I've always wondered why more books on the subject don't do that.

The only thing not good about this book is the price. It's ridiculous. I wonder if that has anything to do with the falling dollar.

If you're like me, you've learned the Fourier Transform up the wazoo. You've calculated the FT and the inverse transform a gazillion times in your mechanics, quantum mechanics, mathematical methods, finance, and numerical methods classes. You can derive the derivative property with your hands tied behind your back. And you even have some intuition about what the FT will look like for certain kinds of input.

But you don't really have connect at a deeper level. The gut-level intuition is lacking. Then this book is for you.

But get it elsewhere. It's not worth the $150 used price tag. It's a great book, but it's not THAT great.
CONVERSE
This book contains a full blown theoretical treatment of how Fourier Transforms are used in spectroscopy. No punches are pulled, its all math, all the time. However, this is not necessarily bad. There has been a crying need in this field for someone to give the full theoretical treatment to this topic, and now it has been done. What I found most useful is that concepts that I understood to be true I now know to be true because the proofs are in this book. Also, despite the math, the authors try to make the book as readable and relevant as possible.
This book is not for beginners, but for anyone with some background in math and spectroscopy, it is good reading. This book is a must have reference for anyone who is serious about FTIR.
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