# Upper bound curve that passes through the extreme (highest) points

6 ビュー (過去 30 日間)
Md Mia 2023 年 1 月 29 日

I have a matrix of 100x2 data. When I used scatter plot, it looks like below.
Now, I want to plot a curve touching the extreme (highest) points looks like below:
I tried convex hull and got something like that which is not what I wanted. I also tried envelope but not worked as well.

サインインしてコメントする。

### 採用された回答

Matt J 2023 年 1 月 29 日
final_mat = [];
for i = 1:length(surhe_height_1m)
if surhe_height_1m(i) > 0.02
final_mat = [final_mat;D_by_t_u(i),surhe_height_1m(i)];
else
final_mat = [final_mat];
end
end
x= final_mat(:,1);
y = final_mat(:,2);
k = unique(convhull(final_mat));
[xt,is]=sort(x(k));
yt=y(k(is));
plot(x,y,'o', xt,yt)
##### 3 件のコメント表示非表示 2 件の古いコメント
Md Mia 2023 年 1 月 30 日
Thanks!

サインインしてコメントする。

### その他の回答 (3 件)

Image Analyst 2023 年 1 月 29 日
I don't understand why the convex hull is not what you want. That's what I was going to suggest. Otherwise maybe you can try movmax
##### 1 件のコメント表示非表示 なし
Md Mia 2023 年 1 月 29 日
Thanks. Attached are the matrix files. And the code is below. I don't know why the convex hull is not giving me the expected curve.
final_mat = [];
for i = 1:length(surhe_height_1m)
if surhe_height_1m(i) > 0.02
final_mat = [final_mat;D_by_t_u(i),surhe_height_1m(i)];
else
final_mat = [final_mat];
end
end
x= final_mat(:,1);
y = final_mat(:,2);
k = unique(convhull(final_mat));
plot(x,y,'o', x(k),y(k))
However, I don't think movemax will work for me. Thanks.

サインインしてコメントする。

John D'Errico 2023 年 1 月 29 日
I would argue a convex hull is probably at least close to what is wanted. That it works here because the envelope is roughly a convex curve. The problem is most likely a misunderstanding of what a convex hull does or how to use it. But since we do not have the actual data, or even see how @Md Mia tried to use a convex hull, we are at a loss to offer better help.
In that light, I'll need to make up some data, that can show how a convex hull MIGHT have been used.
x = rand(200,1);
y = 1 - exp(-4*x) + randn(size(x))/20;
plot(x,y,'o')
The goal in this exercise is to find a curve that represents the upper envelope of the data.
T = convhull(x,y)
T = 12×1
14 145 86 45 87 149 178 192 36 82
The elements of T represent a list of references into the original data set, as the edges of the convex hull. I'll turn it into a polyshape to make things easy to plot.
PS = polyshape(x(T),y(T));
hold on
plot(PS)
hold off
As you can see, the convex hull has edges both along the lower part of the curve, as well as the upper part.
What we want to retain however, are the edges that face upwards. We can extract them simply enough by discarding all edges that face downwards.
Choose a point that is well below the data.
[xc,yc] = centroid(PS);
% get the normal vector for each edge.
nt = numel(T);
e = 1:nt-1;
normalvecs = [x(T(e)) - x(T(e+1)),y(T(e)) - y(T(e+1))]*[0 -1;1 0];
% find the dot product of the normal vector for each edge
% with the vector connecting the midpoint of the edge and the centroid.
% this way we can insure the normal vectors are pointing outwards.
V = [x(T(e)),y(T(e))] - [xc,yc];
S = (sum(normalvecs.*V,2) > 0)*2 - 1;
normalvecs = normalvecs.*S
normalvecs = 11×2
-0.3920 0.1436 -0.1601 0.0136 -0.0051 -0.0051 -0.0131 -0.0139 0.8666 -0.9112 0.0795 -0.0608 0.0788 0.0036 0.0436 0.0053 -0.0487 0.2934 -0.2046 0.4132
% The normal vectors with a negative y component here are facing downwards.
e(normalvecs(:,2) <= 0) = []
e = 1×7
1 2 7 8 9 10 11
% now replot the data, with the upward facing portion of the convex hull,
% so the upper envelope.
plot(x,y,'bo')
hold on
plot([x(T(e)),x(T(e+1))]',[y(T(e)),y(T(e+1))]','-r')
hold off
Again, if that upper envelope would not be considered to be a convex curve, then a convex hull would be inappropriate. But it is.
##### 1 件のコメント表示非表示 なし
Md Mia 2023 年 1 月 30 日
Thanks for the clarification!

サインインしてコメントする。

Walter Roberson 2023 年 1 月 30 日
Use boundary possibly changing the alpha coefficient.

サインインしてコメントする。

### カテゴリ

Find more on Computational Geometry in Help Center and File Exchange

### Community Treasure Hunt

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

Start Hunting!

Translated by