This is a documentation of the codes involved in my in-Semester Research Project (iSURP) for the topic "Topological Optimization"
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Updated
Jun 9, 2021 - Jupyter Notebook
This is a documentation of the codes involved in my in-Semester Research Project (iSURP) for the topic "Topological Optimization"
In this repository, optimal estimation of change in temperature state is discussed using deep learning and shape optimization techniques.
Shape optimization and contour enhancement with elastica regularization and graph-cut based model
Solve convex-shape optimization problems
An implementation of the numerical algorithm for the constrained shape optimization problems in structural mechanics
Prosthetic foot design based on genetic algorithm
Feel++ Shape Optimisation Toolbox
Digital image processing and shape optimization with curvature regularization based model
Optiflow is an implementation of a shape-optimization method for two-dimensional incompressible flows.
Shape Optimization based on Restricted Mesh Deformations
Shape optimisation of compressor blades using adjoint approach. Implemented in OpenFOAM framework.
Simple shape optimization script which generates nodal shifting according to sensitivities calculated by CalculiX FE solver.
Repository for pymead, an object-oriented Python 3 package for single- and multi-element Bézier-parametrized airfoil design, analysis, and optimization
Collection of finite element models
Python scripts related to aerodynamic analysis and shape optimization
Subject files and solutions to the mini-course "An introduction to shape and topology optimization"
A shape optimisation toolbox built on the Firedrake finite element library.
Fluid based shape optimization with Blender and OpenFOAM
Modern C++17 finite element method and shape optimization framework.
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