Dear Yves and Konstantinos Thank you for comments. I'll contact you later in getfem-commits.
Best Regard Tetsuo 2019年2月5日(火) 21:46 Yves Renard <[email protected]>: > > > Dear Tetsuo, > > This is a very good idea, of course. > > Best Regards, > > Yves > > Le 05/02/2019 à 11:27, Tetsuo Koyama a écrit : > > Dear Yves > > > > I think it is good to add this information to > > > > mixed methods with different meshes in > > http://getfem.org/userdoc/interNMM.html > > > > If I could have agreement, I'll add it myself. > > Could you give a comment? > > > > Best Regards, > > > > Tetsuo > > > > 2019年2月5日(火) 19:09 Tetsuo Koyama <[email protected]>: > >> Dear Yves > >> > >> Thank very much you for your answer. > >> > >> Best Regards, > >> > >> Tetsuo > >> > >> 2019年2月5日(火) 19:05 Yves Renard <[email protected]>: > >>> > >>> Dear Tetsuo, > >>> > >>> The standard way in GetFEM is to define a fem in the whole domain and use > >>> > >>> md.add_filtered_fem_variable(name, mf, region) > >>> > >>> where region is the boundary. This will select the degrees of freedom > >>> whose shape function is non-zero on the given region. > >>> > >>> You can either select the degrees of freedom yourself and use a > >>> "partial_mesh_fem". > >>> > >>> Best Regards, > >>> > >>> Yves > >>> > >>> > >>> Le 05/02/2019 à 10:52, Tetsuo Koyama a écrit : > >>> > >>> Dear Yves > >>> > >>> I'm searching to how to make MeshFem on left and right and top mesh > >>> border region in user document, but I couldn't find it. > >>> Where can I get information about that? > >>> > >>> Thank you. > >>> > >>> Best Regards, > >>> > >>> Tetsuo > >>> > >>> 2019年2月5日(火) 18:02 Tetsuo Koyama <[email protected]>: > >>> > >>> Dear Yves > >>> > >>> I could understand that model object have no restriction for mesh > >>> dimension. > >>> I'll tried to use it. I will ask you a question if there is an uncertain > >>> point. > >>> > >>> Thank you for your support and development. GetFEM++ is very useful. > >>> > >>> Best Regards, > >>> > >>> Tetsuo > >>> > >>> 2019年2月5日(火) 17:20 Yves Renard <[email protected]>: > >>> > >>> Dear Tetsuo, > >>> > >>> The ability to couple problems defined on meshes of different dimensions > >>> is one of the strenght of GetFEM. > >>> You can indeed handle meshes of different dimensions in a single model. > >>> If you have some variables defined only on a boundary, you can add some > >>> weak form terms on that boundary. If you have a different mesh there, > >>> you can add the coupling terms using the interpolation transformations. > >>> And if you want to solve some sub-parts of your model, in order for > >>> instance to solve you global model in an fixed point way, this is also > >>> possible to make some partial solve (you can disable some variables to > >>> freeze them). > >>> > >>> Best Regards, > >>> > >>> Yves > >>> > >>> > >>> > >>> Le 05/02/2019 à 08:22, Tetsuo Koyama a écrit : > >>> > >>> Dear GetFEM++ project > >>> > >>> Hello. Now, I'm making 2D mesh model which have 1D mesh model in LEFT, > >>> RIGHT and TOP side. > >>> I have to solve 1D mesh model and solve 2D mesh model by using 1D mesh > >>> model result. > >>> I know that GetFEM++ couldn't solve different dimension model in one > >>> object. So I made 4 model object and tried to move 1D mesh model > >>> object result to 2D mesh model object result. But, it is a little > >>> bothering to take correspondence between 2 model object. > >>> > >>> Is there any good way to solve the probelm? > >>> > >>> Best Regard Tetsuo, > >>> > >>> -- > >>> > >>> Yves Renard ([email protected]) tel : (33) 04.72.43.87.08 > >>> INSA-Lyon > >>> 20, rue Albert Einstein > >>> 69621 Villeurbanne Cedex, FRANCE > >>> http://math.univ-lyon1.fr/~renard > >>> > >>> --------- > >>> > >>> > >>> -- > >>> > >>> Yves Renard ([email protected]) tel : (33) 04.72.43.87.08 > >>> INSA-Lyon > >>> 20, rue Albert Einstein > >>> 69621 Villeurbanne Cedex, FRANCE > >>> http://math.univ-lyon1.fr/~renard > >>> > >>> --------- > > > -- > > Yves Renard ([email protected]) tel : (33) 04.72.43.87.08 > INSA-Lyon > 20, rue Albert Einstein > 69621 Villeurbanne Cedex, FRANCE > http://math.univ-lyon1.fr/~renard > > --------- >
