Computational Surface and Roundness Metrology / by Bala Muralikrishnan, Jay Raja.

Springer eBooks

Filtering -- A Brief History of Filtering -- Filtering in the Frequency Domain -- Filtering in the Time Domain -- Gaussian Filter -- The 2RC Filter -- Filtering Roundness Profiles -- Filtering 3D Surfaces -- Advanced Filtering -- Gaussian Regression Filters -- Spline Filter -- Robust Filters -- Envelope and Morphological Filters -- Multi-scale Filtering -- Fitting -- to Fitting Substitute Geometry -- Least-Squares Best-Fit Line and Plane -- Non-linear Least-Squares I: Introduction -- Non-linear Least-Squares II: Circle, Sphere, and Cylinder -- Fitting Radius-Suppressed Circle Data -- Exchange Algorithms for Minimum Zone -- Reference Circle-Fitting Using Linear Programming Simplex -- Parameterization -- Surface Finish Parameters I: Amplitude, Spacing, Hybrid, and Shape -- Surface Finish Parameters II: Autocorrelation, Power Spectral Density, Bearing Area -- 3D Surface Texture Parameters -- Errors and Uncertainty -- Uncertainty Considerations -- Uncertainty Propagation in Computations -- Error Separation Techniques in Roundness Metrology -- Other Relevant Topics.

Computational Surface and Roundness Metrology provides an extraordinarily practical and hands-on approach towards understanding the diverse array of mathematical methods used in surface texture and roundness analysis. The book, in combination with a mathematical package or programming language interface, provides an invaluable tool for experimenting, learning, and discovering the many flavors of mathematics that are so routinely taken for granted in metrology. Whether the objective is to understand the origin of that ubiquitous transmission characteristics curve of a filter we see so often yet do not quite comprehend, or to delve into the intricate depths of a deceptively simple problem of fitting a line or a plane to a set of points, Computational Surface and Roundness Metrology describes it all (in exhaustive detail) using examples, illustrations, exercises, and a link to some of the finest publications in the field for over half a century. From the graduate student of metrology to the practicing engineer on the shop floor, Computational Surface and Roundness Metrology is a must-have reference for all involved in metrology, instrumentation/optics, manufacturing, and electronics.

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