Effacer les filtres
Effacer les filtres

Plotting a plane in 3d:

3 vues (au cours des 30 derniers jours)
abhimanyu dubey
abhimanyu dubey le 17 Avr 2020
Commenté : abhimanyu dubey le 17 Avr 2020
I'm trying to visualize the column space of a matrix before and after Row Reduction. Now the program is throwing error, when I've defined function handles seperately and then tried using them in fmesh function. Can anyone explain me why this is not working, or atleast point me in the right direction, where can I find this, and understand, where I'm going wrong here:
Your help is very much appreciated.
Thanks
%% MATRIX SPACES B4 AND AFTER ROW REDUCTION:
clear ; clc ;
% Create the Matrix: (matrix M)
M = [3,2 ; 5,7 ; 9,1] ;
% And it's Row Reduced Form:
Mr = rref(M) ;
% Now let's see how Columns Space of the matrix M changes after it's
% converted into it's rref form:
figure(14) ; clf ; hold on ;
% ===================== Why This Code is Not working =================
% %
% % funx1 = @(s,t) M(1,1) *s + M( 1,2)*t ;
% % funx2 = @(s,t) Mr(1,1) *s + Mr(1,2)*t ;
% %
% % funy1 = @(s,t) M(2,1) *s + M( 2,2)*t ;
% % funy2 = @(s,t) Mr(2,1) *s + Mr(2,2)*t ;
% %
% % funz1 = @(s,t) M(3,1) *s + M( 3,2)*t ;
% % funz2 = @(s,t) Mr(3,1) *s + Mr(3,2)*t ;
% h1 = fmesh( @(s,t)funx1 , @(s,t)funy1 , @(s,t)funz1 , repmat( [-1 1] , [1,3] )) ;
% h2 = fmesh( @(s,t)funx2 , @(s,t)funy2 , @(s,t)funz3 , repmat( [-1 1] , [1,3] )) ;
% ============================================================================
% Draw the planes spaned by M and Mr :
h1 = fmesh( @(s,t) M(1,1) *s + M( 1,2)*t , ...
@(s,t) M(2,1) *s + M( 2,2)*t , ...
@(s,t) M(3,1) *s + M( 3,2)*t , ...
[-0.25 , 0.25] ) ;
h2 = fmesh( @(s,t) Mr(1,1) *s + Mr( 1,2)*t , ...
@(s,t) Mr(2,1) *s + Mr( 2,2)*t , ...
@(s,t) Mr(3,1) *s + Mr( 3,2)*t , ...
[-1 , 1] ) ;
% Adjusting colors for Visiblity:
set(h1 , 'facecolor' , '#77AC30' , 'LineStyle' , 'none' , 'FaceAlpha' , 0.9 ) ; % green
set(h2 , 'facecolor' , [0.4940 0.1840 0.5560] , 'LineStyle' , 'none' , 'FaceAlpha' , 0.9 ) ; % violet
% Draw Normalized Basis Vectors:
N = M / norm(M) ;
% Vectors to Plot: v1 - vector 1:
v1 = [ N(:,1)' ; [0 0 0] ] ;
v2 = [ N(:,2)' ; [0 0 0] ] ;
v3 = [ Mr(:,1)' ; [0 0 0] ] ;
v4 = [ Mr(:,2)' ; [0 0 0] ] ;
% Default Blue Color
plot3( v1(:,1) , v1(:,2) , v1(:,3) , 'color' , [0 0.4470 0.7410] , 'linew' , 4 ) ;
plot3( v2(:,1) , v2(:,2) , v2(:,3) , 'color' , [0 0.4470 0.7410] , 'linew' , 4 ) ;
% Yellow Color
plot3( v3(:,1) , v3(:,2) , v3(:,3) , 'color' , '#EDB120' , 'linew' , 4 ) ;
plot3( v4(:,1) , v4(:,2) , v4(:,3) , 'color' , '#EDB120' , 'linew' , 4 ) ;
xlabel('M_1') ; ylabel('M_2') ; zlabel('M_3') ;
axis square ; grid on ; rotate3d on ;
set(gca , 'fontsize' , 18 , 'fontweight' , 'bold') ;
title('\fontsize{25} Column Space of M And rref(M) :')
legend({'C(M)';'C(rref(M))'})

Connectez-vous pour répondre à cette question.

Réponse acceptée

Mehmed Saad
Mehmed Saad le 17 Avr 2020
%% MATRIX SPACES B4 AND AFTER ROW REDUCTION:
clear ; clc ;
% Create the Matrix: (matrix M)
M = [3,2 ; 5,7 ; 9,1] ;
% And it's Row Reduced Form:
Mr = rref(M) ;
% Now let's see how Columns Space of the matrix M changes after it's
% converted into it's rref form:
figure(14) ; clf ; hold on ;
% ===================== Why This Code is Not working =================
% %
funx1 = @(s,t) M(1,1) *s + M( 1,2)*t ;
funx2 = @(s,t) Mr(1,1) *s + Mr(1,2)*t ;
funy1 = @(s,t) M(2,1) *s + M( 2,2)*t ;
funy2 = @(s,t) Mr(2,1) *s + Mr(2,2)*t ;
funz1 = @(s,t) M(3,1) *s + M( 3,2)*t ;
funz3 = @(s,t) Mr(3,1) *s + Mr(3,2)*t ;
h1 = fmesh( funx1 , funy1 , funz1 , repmat( [-1 1] , [1,2] )) ;
h2 = fmesh( funx2 , funy2 , funz3 , repmat( [-1 1] , [1,2] )) ;
% ============================================================================
% Draw the planes spaned by M and Mr :
h1 = fmesh( @(s,t) M(1,1) *s + M( 1,2)*t , ...
@(s,t) M(2,1) *s + M( 2,2)*t , ...
@(s,t) M(3,1) *s + M( 3,2)*t , ...
[-0.25 , 0.25] ) ;
h2 = fmesh( @(s,t) Mr(1,1) *s + Mr( 1,2)*t , ...
@(s,t) Mr(2,1) *s + Mr( 2,2)*t , ...
@(s,t) Mr(3,1) *s + Mr( 3,2)*t , ...
[-1 , 1] ) ;
% Adjusting colors for Visiblity:
set(h1 , 'facecolor' , '#77AC30' , 'LineStyle' , 'none' , 'FaceAlpha' , 0.9 ) ; % green
set(h2 , 'facecolor' , [0.4940 0.1840 0.5560] , 'LineStyle' , 'none' , 'FaceAlpha' , 0.9 ) ; % violet
% Draw Normalized Basis Vectors:
N = M / norm(M) ;
% Vectors to Plot: v1 - vector 1:
v1 = [ N(:,1)' ; [0 0 0] ] ;
v2 = [ N(:,2)' ; [0 0 0] ] ;
v3 = [ Mr(:,1)' ; [0 0 0] ] ;
v4 = [ Mr(:,2)' ; [0 0 0] ] ;
% Default Blue Color
plot3( v1(:,1) , v1(:,2) , v1(:,3) , 'color' , [0 0.4470 0.7410] , 'linew' , 4 ) ;
plot3( v2(:,1) , v2(:,2) , v2(:,3) , 'color' , [0 0.4470 0.7410] , 'linew' , 4 ) ;
% Yellow Color
plot3( v3(:,1) , v3(:,2) , v3(:,3) , 'color' , '#EDB120' , 'linew' , 4 ) ;
plot3( v4(:,1) , v4(:,2) , v4(:,3) , 'color' , '#EDB120' , 'linew' , 4 ) ;
xlabel('M_1') ; ylabel('M_2') ; zlabel('M_3') ;
axis square ; grid on ; rotate3d on ;
set(gca , 'fontsize' , 18 , 'fontweight' , 'bold') ;
title('\fontsize{25} Column Space of M And rref(M) :')
legend({'C(M)';'C(rref(M))'})
  1 commentaire
abhimanyu dubey
abhimanyu dubey le 17 Avr 2020
Got it !!!
Thanks a Lot Sir.

Connectez-vous pour commenter.

Plus de réponses (0)

Catégories

En savoir plus sur Annotations dans Help Center et File Exchange

Tags

Produits


Version

R2019a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by