HELP. Need to understand MATH behind scatteredInterpolant or Interp2 function

21 ビュー (過去 30 日間)
Gregory Nixon
Gregory Nixon 2021 年 2 月 12 日
コメント済み: Gregory Nixon 2021 年 2 月 18 日
Hey all! So I need to understand the math behind how MATLAB calculates interpolated vaulses. I repeat MATH because I know how to use the funtions with ease and I understand the vargin, however my goal is to compare MATLABs equtions with another model I'm wokring in.
The other model im working is giving me an interpolated answer of -17 while MATLAB is producing a value of -38 with the same inputs in both models. I understand how the other model is interpolating. But when you step into intrep2 or scatteredInterpolant you are taken to the green comments. ARG. lol.
So i repeat community I need help with the findining the equations and making sense of them :).
interp_val = f0 * f10 - f9 * blah blah blah. Something of that nature guys/ladies.
Please help someone.
  11 件のコメント
9 件の古いコメントを表示
Bruno Luong
Bruno Luong 2021 年 2 月 16 日
編集済み: Bruno Luong 2021 年 2 月 16 日
What method you are using?
If you use nearest, the result is the function value of the seed of the Voronoi cell where the query belong to.
If you use linear it's a linear function that interpolate the Delaunay triangle where the query point belong to.
If you use the natural, it's a convex sum of function values of the vertexes "augmented" adjacent Delaunay cells (insert query point to the data points) where the weights are given by eqt (28) of the paper https://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.8.6623&rep=rep1&type=pdf
There we goes those are the "equations". The equations are straighforward once the geometry of Delaunay/Voronoi diagram is computed. The later is harder to compute but their definition is quite natural and intuitive.
Gregory Nixon
Gregory Nixon 2021 年 2 月 16 日
編集済み: Gregory Nixon 2021 年 2 月 16 日
Hey all I've attached a sample of data i think will be useful
You'll see what i mean as to why im confused based on those points why one model is giving me somethign so drastic

サインインしてコメントする。

サインインしてこの質問に回答する。

採用された回答

Bruno Luong
Bruno Luong 2021 年 2 月 17 日
"Based on the equation that I had in that screen shot would you assume that the other model is using a simplified linear interpolation model?"
Can't assume anything. The equation lacks of explanation. What are f00, f01, f10, f11, r1 r2 ?
It looks like bilinear formula, but it might hide a bug dependeing how those quantities are defined, and it's odd that bilnear can be applied on a non-parallelogram shape.
  1 件のコメント
Gregory Nixon
Gregory Nixon 2021 年 2 月 18 日
Bruno you saved the day. Thank you everyone. We bascially learned that the two models simply use different method which explains the difference. Becasue of your code we were able to graphically show the diffence.

サインインしてコメントする。

その他の回答 (2 件)

Steven Lord
Steven Lord 2021 年 2 月 15 日
If you believe scatteredInterpolant is computing the wrong answer but cannot share the data with the community, please send your call to scatteredInterpolant along with the data necessary to execute that call and a description of why you believe its answer is incorrect (such as the results from a different interpolation routine) to Technical Support for investigation. You can contact Support using the Contact Support link on the Support section of this website.
  2 件のコメント
Gregory Nixon
Gregory Nixon 2021 年 2 月 16 日
編集済み: Gregory Nixon 2021 年 2 月 16 日
Hey Steven Ive attched my data above
Steven Lord
Steven Lord 2021 年 2 月 17 日
Ran in:
Can you show us the exact line of code that you run that uses that data to generate the answer around -38.55?
Just doing a little sanity check, your X value of -66.94 is closer to -67.65 than to -65.93 so you'd expect the interpolated value to be closer to the values in the first column of "MATLAB Table". Similarly your Y value of -6.34 is closer to -5.77 than to -7.49 and so the interpolated value should probably be closer to -56.349 than to the other three data values. A -38.55 doesn't seem like an unreasonable answer given this rough argument.
x = [-67.65351209, -65.93466751];
y = [-7.493951899, -5.775107322];
text(x(1), y(1), '-26.1915')
text(x(1), y(2), '-56.3497')
text(x(2), y(1), '-13.1290')
text(x(2), y(2), '-14.2824')
hold on
plot(-66.94213289, -6.346280917, 'rx')
axis([-68, -65, -8, -5.5])

サインインしてコメントする。

Bruno Luong
Bruno Luong 2021 年 2 月 17 日
編集済み: Bruno Luong 2021 年 2 月 17 日
Run this, that show the "formula" and how to get
zq =
-38.5561
zq_check =
-38.5561
Code to check 'linear' method (you seem to not bother to answer my question about the method):
x = [-67.65351209, -65.93466751];
y = [-7.493951899;
-5.775107322];
[X,Y] = meshgrid(x,y);
Z = [-26.19150131, -13.12900262;
-56.3497907, -14.28238121];
xq = -66.94213289;
yq = -6.346280917;
f = scatteredInterpolant(X(:), Y(:), Z(:));
zq = f(xq,yq)
% The Delaunay triangulation showz (xq,yq) belong to triangle of points 2/3/4
M = [X([2 3 4]);
Y([2 3 4]);
[1 1 1]];
w234 = M \ [xq; yq; 1]; % barycentric coordinate
zq_check = Z([2 3 4])*w234 % interpolation value
close all
T = delaunay(X,Y);
trimesh(T,X,Y,Z,'EdgeColor','k');
hold on
for i=1:numel(X)
text(X(i),Y(i),Z(i),num2str(i));
end
plot3(xq, yq, zq, '+r', 'Linewidth', 3, 'Markersize', 20)
text(xq, yq, zq, 'Query point', 'Color', 'r');
PS: Next time please attach data point and code and not only screen capture to avoid us to enter the data by hand.
  2 件のコメント
Gregory Nixon
Gregory Nixon 2021 年 2 月 17 日
編集済み: Gregory Nixon 2021 年 2 月 17 日
Sorry Bruno I work for Industry so I have to be very careful on how I'm asking for help. Thank you for helping me. I greatly appreciate it. And yes your correct linear method is being used in both models.
i wish I could copy all the code used and i know its a headache I'm sorry. I'm just thankful you've taken the time to help me.
Based on the equation that I had in that screen shot would you assume that the other model is using a simplified linear interpolation model?
Bjorn Gustavsson
Bjorn Gustavsson 2021 年 2 月 17 日
Try and see what you get. This will give you some insight into what is going on:
[x,y] = meshgrid(0:1);
z = [3 2;0 3];
[xi,yi] = meshgrid(0:.1:1);
zi = interp2(x,y,z,xi,yi);
f = scatteredInterpolant(x(:), y(:), z(:));
zq = f(xi,yi);
sph1 = subplot(1,2,1);
surf(xi,yi,zq)
sph2 = subplot(1,2,2);
surf(xi,yi,zi)
linkprop([sph1,sph2],'view')
Then you can rotate the surfaces around, repeat the procedure in your other analysis environments.

サインインしてコメントする。

カテゴリ

Help Center および File ExchangeSpline Postprocessing についてさらに検索

タグ

Community Treasure Hunt

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

Start Hunting!

Translated by