Here is a list of all namespaces with brief descriptions:
[detail level 123]
| Nboost | |
| ▼NDGtal | |
| Ndeprecated | |
| Ndetail | |
| Nexperimental | |
| ▼Nfunctions | |
| Ndec | |
| NHull2D | |
| Nsetops | |
| Nfunctors | |
| Nsimplicity | |
| NZ2i | |
| NZ3i | |
| CATu0v1 | Aim: This class solves Ambrosio-Tortorelli functional in a plane for u a (vector of) 0-form(s) and v a 1-form. u is a regularized approximation of an input data g, while v represents the set of discontinuities of u |
| CATu2v0 | Aim: This class solves Ambrosio-Tortorelli functional in a plane for u a (vector of) 2-form(s) and v a 0-form. u is a regularized approximation of an input image data g (grey-level or color image), while v represents the set of discontinuities of u |
| CATVu2v0 | Aim: This class solves a variant of Ambrosio-Tortorelli functional in a plane for u a (vector of) 2-form(s) and v a 0-form. u is a regularized approximation of an input image data g (grey-level or color image), while v represents the set of discontinuities of u. Instead of using \( \epsilon \| \nabla v \|^2 + \frac{1}{4\epsilon}(1-v)^2\) as a penalizer, it uses \( \epsilon^3 \| \Delta v \|^2 + \frac{1}{\epsilon}(1-v)^2\) |
| CDECImage2D | Aim: This class simplifies the development of 2D image processing tools using discrete exterior calculus. Most notably it take care of initializing correctly a discrete exterior calculus in some 2D domain, and precomputes derivative and Hodge star operators. You may have a look at module Image restoration and inpainting with Ambrosio-Tortorelli functional for such image processing tools and more explanation on discrete calculus |
| NLibBoard | |
| NUi | |
