Numerical Computer Methods
- 1st Edition, Volume 210 - April 28, 1992
- Latest edition
- Editors: Ludwig Brand, John N. Abelson, Michael L. Johnson, Melvin I. Simon
- Language: English
- Hardback ISBN:9 7 8 - 0 - 1 2 - 1 8 2 1 1 1 - 1
- eBook ISBN:9 7 8 - 0 - 0 8 - 0 5 7 1 2 5 - 6
The aim of this volume is to brief researchers of the importance of data analysis in enzymology, of the modern methods that have developed concomitantly with computer hardware, and… Read more
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The aim of this volume is to brief researchers of the importance of data analysis in enzymology, of the modern methods that have developed concomitantly with computer hardware, and of the need to validate their computer programs with real and synthetic data to ascertain that the results produced are what they expected.
Biochemists, biophysicists, physical chemists, and molecular and cell biologists.
Parameter Estimation by Least-Squares Methods. Global Analysis of Biochemical and Biophysical Data. Pad*aae*b1Laplace Algorithm for Sums of Exponentials: Selecting Appropriate Exponential Model and Initial Estimates for Exponential Fitting. Use of Weighting Functions in Data Fitting. Analysis of Residuals: Criteria for Determining Goodness-of-Fit. Analysis of Ligand-Binding Data with Experimental Uncertainties in Independent Variables. Monte Carlo Method for Determining Complete Confidence Probability
Distributions of Estimated Model Parameters. Singular Value Decomposition: Application to Analysis of Experimental Data. Fourier Resolution Enhancement of Infrared Spectral Data. Maximum Likelihood Analysis of Fluorescence Data. Method of Moments and Treatment of Nonrandom Error. Laplace Deconvolution of Fluroescence Decay Surfaces. Interpolation Methods. Compartmental Analysis of Fluorescence Decay Surfaces of Excited-State Processes. Analysis of Discrete, Time-Sampled Data Using Fourier Series Method. Alternatives to Consider in
Fluorescence Decay Analysis. Practical Aspects of Kinetic Analysis. Compartmental Analysis of Enzyme-Catalyzed Reactions. Analysis of Site-Specific Interaction Parameters in Protein*b1DNA Complexes. Analysis of Circular Dichroism Spectra. Fluorescence Quenching Studies: Analysis of Nonlinear Stern*b1Volmer Data. Simultaneous Analysis for Testing of Models and Parameter Estimation. Numerical Analysis of Binding Data: Advantages, Practical Aspects, and Implications. Deconvolution Analysis for Pulsed-Laser Photoacoustics. Parameter Estimation in Binary Mixtures of Phospholipids.
Deconvolution Analysis of Hormone Data. Dynamic Programming Algorithms for Biological Sequence Comparison. Programs for Symbolic Mathematics in Biochemistry. Artificial Neural Networks. Fractal Applications in Biology: Scaling Time in Biochemical Networks. Author Index. Subject Index.
Distributions of Estimated Model Parameters. Singular Value Decomposition: Application to Analysis of Experimental Data. Fourier Resolution Enhancement of Infrared Spectral Data. Maximum Likelihood Analysis of Fluorescence Data. Method of Moments and Treatment of Nonrandom Error. Laplace Deconvolution of Fluroescence Decay Surfaces. Interpolation Methods. Compartmental Analysis of Fluorescence Decay Surfaces of Excited-State Processes. Analysis of Discrete, Time-Sampled Data Using Fourier Series Method. Alternatives to Consider in
Fluorescence Decay Analysis. Practical Aspects of Kinetic Analysis. Compartmental Analysis of Enzyme-Catalyzed Reactions. Analysis of Site-Specific Interaction Parameters in Protein*b1DNA Complexes. Analysis of Circular Dichroism Spectra. Fluorescence Quenching Studies: Analysis of Nonlinear Stern*b1Volmer Data. Simultaneous Analysis for Testing of Models and Parameter Estimation. Numerical Analysis of Binding Data: Advantages, Practical Aspects, and Implications. Deconvolution Analysis for Pulsed-Laser Photoacoustics. Parameter Estimation in Binary Mixtures of Phospholipids.
Deconvolution Analysis of Hormone Data. Dynamic Programming Algorithms for Biological Sequence Comparison. Programs for Symbolic Mathematics in Biochemistry. Artificial Neural Networks. Fractal Applications in Biology: Scaling Time in Biochemical Networks. Author Index. Subject Index.
- Edition: 1
- Latest edition
- Volume: 210
- Published: April 28, 1992
- Language: English
LB
Ludwig Brand
Affiliations and expertise
McCollum-Pratt Institute, Johns Hopkins University, Baltimore, MD, USAJA
John N. Abelson
Affiliations and expertise
California Institute of Technology, Division of Biology, Pasadena, U.S.A.MJ
Michael L. Johnson
Affiliations and expertise
University of Virginia Health Sciences Center, Charlottesville, USAMS
Melvin I. Simon
Affiliations and expertise
The Salk Institute, La Jolla, CA, USARead Numerical Computer Methods on ScienceDirect