Concatenate the column vectors horizontally (to create matrices) instead of vertically (to create column vectors) and it sort of works.
There are still some ptoblems. I leave the resolutions of those to you.
I also used the three column vectors with griddata to create matrices from them using interpolation. You can experiment with that as well.
I’m not certain how to resolve the inconsistiencies in creating matrices from the vectors so that the surf provides a more pleasing and representative appearance. Therea are several interpolation techniques to experiment with.
n = 3;
n1 = n-1;
a = 20;
b = 10;
P = [0 b;0 0;a 0];
T = 15;
H = 8;
R = 2;
h = 6;
syms t s(t)
B = bernsteinMatrix(n1,t);
bezierCurve = B*P;
s(t) = int(norm(diff(bezierCurve)),0,t);
snum = linspace(0,s(1),T);
for i = 1:T
tnum(i) = vpasolve(snum(i)==s(t),t);
end
px = double(subs(bezierCurve(:,1),t,tnum)).';
py = zeros(T,1);
pz = double(subs(bezierCurve(:,2),t,tnum)).';
normalToCurve = diff(bezierCurve)*[0 1;-1 0];
normalToCurve = normalToCurve/norm(normalToCurve);
newNormalToCurve = [double(subs(normalToCurve(1),t,tnum))' double(subs(normalToCurve(2),t,tnum))'];
newNormalToCurvex = newNormalToCurve(:,1);
newNormalToCurvez = newNormalToCurve(:,2);
%%%%%%%%%%%Obere Linie
for i = 1:T
S = double(s((i-1)/(T-1)));
d = R*(1-S/double(s(1)))+(H/2)*S/double(s(1));
delta(i) = d;
end
delta = delta';
pxnew1 = px+newNormalToCurvex.*delta;
pznew1 = pz+newNormalToCurvez.*delta;
for i = 1:T
S = double(s((i-1)/(T-1)));
rhilfe = (h/2)*S/double(s(1));
r(i) = rhilfe;
end
r = r';
pynew1a = - r;
pynew1b = r;
%%%%%%%%%%Untere Linie
delta = - delta;
pxnew2 = px+newNormalToCurvex.*delta;
pznew2 = pz+newNormalToCurvez.*delta;
pynew2a = pynew1a;
pynew2b = pynew1b;
%%%%%%%%%%seitliche Linien (schwarz)
for i = 1:T
S = double(s((i-1)/(T-1)));
chilfe = R*(1-S/double(s(1)))+(h/2)*S/double(s(1));
c(i) = chilfe;
end
for i = 1:T
S = double(s((i-1)/(T-1)));
lhilfe = H/2*S/double(s(1));
l(i) = lhilfe;
end
l = l';
c = c';
pynew3 = ones(T,1).*c;
pxnew3a = px-newNormalToCurvex.*l;
pxnew3b = px+newNormalToCurvex.*l;
pznew3a = pz-newNormalToCurvez.*l;
pznew3b = pz+newNormalToCurvez.*l;
pynew3a = pynew3;
pynew3b = -pynew3;
%%%%%%%%%%%%4Ecken
%%%vorne links/rechts (magenta)
Rnewx = R*cos(pi/4);
Rnewy = R*cos(pi/4);
for i = 1:T
S = double(s((i-1)/(T-1)));
jhilfe = Rnewx*(1-S/double(s(1)))+(H/2)*S/double(s(1));
j(i) = jhilfe;
end
for i = 1:T
S = double(s((i-1)/(T-1)));
ehilfe = Rnewy*(1-S/double(s(1)))+(h/2)*S/double(s(1));
e(i) = ehilfe;
end
j = j';
e = e';
pxnew4 = px+newNormalToCurvex.*j;
pznew4 = pz+newNormalToCurvez.*j;
pynew4a = -ones(T,1).*e;
pynew4b = ones(T,1).*e;
%%%%%vorne links/recht(grün)
pxnew5 = px-newNormalToCurvex.*j;
pznew5 = pz-newNormalToCurvez.*j;
pynew5a = pynew4a;
pynew5b = pynew4b;
%%%%%%%%%%PLOTS
plot3(px,py,pz,'b-')
axis equal
axis tight
grid on
hold on
plot3(pxnew1,pynew1a,pznew1,'r-')
plot3(pxnew1,pynew1b,pznew1,'r-')
plot3(pxnew2,pynew1a,pznew2,'r-')
plot3(pxnew2,pynew1b,pznew2,'r-')
plot3(pxnew3a,pynew3a,pznew3a,'k-')
plot3(pxnew3b,pynew3a,pznew3b,'k-')
plot3(pxnew3a,pynew3b,pznew3a,'k-')
plot3(pxnew3b,pynew3b,pznew3b,'k-')
plot3(pxnew4,pynew4a,pznew4,'m-')
plot3(pxnew4,pynew4b,pznew4,'m-')
plot3(pxnew5,pynew5a,pznew5,'g-')
plot3(pxnew5,pynew5b,pznew5,'g-')
hold off
% Matrices —
pxgesamt = [px, pxnew1, pxnew1, pxnew2, pxnew2, pxnew3a, pxnew3b, pxnew3a, pxnew3b, pxnew4, pxnew4, pxnew5, pxnew5];
pygesamt = [py, pynew1a, pynew1b, pynew2a, pynew2b, pynew3a, pynew3a, pynew3b, pynew3b, pynew4a, pynew4b, pynew5a, pynew5b];
pzgesamt = [pz, pznew1, pznew1, pznew2, pznew2, pznew3a, pznew3b, pznew3a, pznew3b, pznew4, pznew4, pznew5, pznew5];
% Column Vectors
pxgesamtv = [px;pxnew1; pxnew1; pxnew2; pxnew2; pxnew3a;pxnew3b;pxnew3a;pxnew3b;pxnew4; pxnew4; pxnew5; pxnew5];
pygesamtv = [py;pynew1a;pynew1b;pynew2a;pynew2b;pynew3a;pynew3a;pynew3b;pynew3b;pynew4a;pynew4b;pynew5a;pynew5b];
pzgesamtv = [pz;pznew1; pznew1; pznew2; pznew2; pznew3a;pznew3b;pznew3a;pznew3b;pznew4; pznew4; pznew5; pznew5];
% pgesamt = [pxgesamt pygesamt pzgesamt];
%
figure
surfc(pxgesamt, pygesamt, pzgesamt) %%%% that obviously does not work
colormap(turbo)
xlabel('pxgesamt')
ylabel('pygesamt')
zlabel('pzgesamt')
axis('equal')
N = numel(pxgesamtv);
N = ceil(N/5)
xv = linspace(min(pxgesamtv), max(pxgesamtv), N);
yv = linspace(min(pygesamtv), max(pygesamtv), N);
[X, Y] = ndgrid(xv, yv);
Z = griddata(pxgesamtv,pygesamtv, pzgesamtv, X, Y);
figure
surfc(X, Y, Z, 'EdgeAlpha',0.25)
grid on
colormap(turbo)
xlabel('pxgesamt')
ylabel('pygesamt')
zlabel('pzgesamt')
axis('equal')
.
