AVirtualMachineForExploringSpaceTimeAndBeyond : An interpolation between the Klein bottle and the double Jeener bottle defined by means of three sets of bidimensional fields (Une interpolation entre la bouteille de Klein et la double bouteille de Jeener definie a l'aide de trois ensembles de champs bidimensionnels).

An interpolation between the Klein bottle and the double Jeener bottle defined by means of three sets of bidimensional fields [Une interpolation entre la bouteille de Klein et la double bouteille de Jeener définie à l'aide de trois ensembles de champs bidimensionnels].

Many surfaces -bidimensional manifolds- in a tridimensional space can be defined using a set of three equations:

                    X = F_x(u,v)

                    Y = F_y(u,v)

                    Z = F_z(u,v)

with:

                    u ∈ [U_min,U_max]

                    v ∈ [V_min,V_max]

[U_min,U_max]*[V_min,V_max] then defined a bidimensional rectangular domain D.

                       v ^
                         |
                    V    |...... ---------------------------
                     max |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                         |      |+++++++++++++++++++++++++++|
                    V    |...... ---------------------------
                     min |      :                           :
                         |      :                           :
                         O------------------------------------------------->
                                U                           U              u
                                 min                         max

If D is sampled by means of a bidimensional rectangular grid (made of N_u*N_v points), the three {X,Y,Z} coordinates can be defined by means of three rectangular matrices:

                    X = M_x(i,j)

                    Y = M_y(i,j)

                    Z = M_z(i,j)

with:

                    i = f(u,U_min,U_max,N_u)

                    j = g(v,V_min,V_max,N_v)

where 'f' and 'g' denote two obvious linear functions...

[for more information about this process]
[Plus d'informations sur ce processus]

For the interpolation between the Klein bottle and the double Jeener bottle, the three sets of {X,Y,Z} fields/matrices are as follows:

See some of the interpolated surfaces:

The Klein bottle defined by means of three bidimensional fields

A surface between the Klein bottle and the double Jeener bottle defined by means of three bidimensional fields

A double Jeener bottle defined by means of three bidimensional fields

(CMAP28 WWW site: this page was created on 09/26/2006 and last updated on 04/16/2023 20:52:02 -CEST-)

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Copyright © Jean-François Colonna, 2006-2023.
Copyright © France Telecom R&D and CMAP (Centre de Mathématiques APpliquées) UMR CNRS 7641 / École polytechnique, Institut Polytechnique de Paris, 2006-2023.

Copyright © Jean-François Colonna, 2006-2023. Copyright © France Telecom R&D and CMAP (Centre de Mathématiques APpliquées) UMR CNRS 7641 / École polytechnique, Institut Polytechnique de Paris, 2006-2023.

Copyright © Jean-François Colonna, 2006-2023.
Copyright © France Telecom R&D and CMAP (Centre de Mathématiques APpliquées) UMR CNRS 7641 / École polytechnique, Institut Polytechnique de Paris, 2006-2023.