Chemometrics

PREFACE. CHAPTER 1: INTRODUCTION. 1.1. Modern Analytical Chemistry. 1.2. Chemometrics. 1.3. Chemometrics-Based Signal Processing Techniques. 1.4. Resources Available on Chemometrics and Wavelet Transform. CHAPTER 2: ONE-DIMENSIONAL SIGNAL PROCESSING TECHNIQUES IN CHEMISTRY. 2.1. Digital Smoothing and Filtering Methods. 2.2. Transformation Methods of Analytical Signals. 2.3. Numerical Differentiation. 2.4. Data Compression. CHAPTER 3: TWO-DIMENSIONAL SIGNAL PROCESSING TECHNIQUES IN CHEMISTRY. 3.1. General Features of Two-Dimensional Data. 3.2. Some Basic Concepts for Two-Dimensional Data from Hyphenated Instrumentation. 3.3. Double-Centering Technique for Background Correction. 3.4. Congruence Analysis and Least-Squares Fitting. 3.5. Differentiation Methods for Two-Dimensional Data. 3.6 Resolution Methods for Two-Dimensional Data. CHAPTER 4: FUNDAMENTALS OF WAVELET TRANSFORM. 4.1. Introduction to Wavelet Transform and Wavelet Packet Transform. 4.2. Wavelet Function Examples. 4.3. Fast Wavelet Algorithm and Packet Algorithm. 4.4. Biorthogonal Wavelet Transform. 4.5. Two-Dimensional Wavelet Transform. CHAPTER 5: APPLICATION OF WAVELET TRANSFORM IN CHEMISTRY. 5.1. Data Compression. 5.2. Data Denoising and Smoothing. 5.3. Baseline/Background Removal. 5.4. Resolution Enhancement. 5.5. Combined Techniques. 5.6. An Overview of the Applications in Chemistry. APPENDIX VECTOR AND MATRIX OPERATIONS AND ELEMENTARY MATLAB. A.1. Elementary Knowledge in Linear Algebra. A.2. Elementary Knowledge of MATLAB. INDEX.