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Lecture
Volumetric 3D Printing: Principles and Applications
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Reconstruction Algorithm: X-ray Images
Explores backprojection reconstruction, spatial resolution challenges, filtered backprojection, and the link to Fourier transform.
Fourier Transforms in Tomography: Inversion Techniques
Covers the application of Fourier transforms in tomography, focusing on the Radon transform and its inversion techniques.
Volumetric 3D Printing: Two-Photon Polymerization
Explores volumetric 3D printing, focusing on two-photon polymerization and advanced additive manufacturing technologies.
Fourier Transform Applications: Image Processing Basics
Covers image processing basics, Fourier transformation, convolution, cross-correlation, and 3D reconstruction using the Radon projection theorem.
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Explores applications of the Fourier equation in different heat transfer scenarios.
Thermal Conduction: Basics and Fourier Equation
Explores thermal conduction, Fourier equation, heat flux, and specific heat in steady and unsteady regimes.
Image Processing II: Reconstruction from Projections
Explores image reconstruction in computer tomography from projections and absorption laws.
Fourier Equation in 2D
Explores the Fourier equation in 2D for heat conduction in various scenarios, using the separation of variables method.
Transient Heat Transfer: Examples and Solutions
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Delves into the Fourier Slice Theorem in X-ray tomography, explaining the relationship between 1-D and 2-D Fourier Transforms and techniques to enhance image quality.
