How to find x value for a known y in array plot?
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I have to draw a plot based on a long matrix, which I did, after that I got the maximum of y value (max(y)) but I need the x value for the known y value y=0.8*max(y) THIS y value is not included in the matrix, so I can't use the Index of the maximum to get my x
I did found a similar question https://de.mathworks.com/matlabcentral/answers/258556-how-to-i-find-a-x-value-from-a-given-y
and tried to apply the same code x(y==0.8*max(y)) but I get a 0x1 empty column vector.
Can anyone help me out? thanks in advance
Risposta accettata
Star Strider
il 7 Ago 2022
0 voti
Possibly:
idx = find(diff(sign(y - 0.8*max(y))));
xvals = x(idx)
That should find the closest indices to all of them.
2 Commenti
Star Strider
il 10 Ago 2022
Modificato: Star Strider
il 11 Ago 2022
Without the data, it is difficult to determine that. It will be necessary to define a specific x-value to determine which is closest.
Example —
x = linspace(0, 20, 500); % Create Data
y = sin(2*pi*x) + cos(3*pi*x) - (x-10).^2/100; % Create Data
idx = find(diff(sign(y - 0.8*max(y))));
xvals = x(idx)
x_desired = 10; % Define Target X-Value
[xabsdist,xidx] = min(abs(xvals - x_desired));
% idx(xidx)
% x(idx(xidx))
% y(idx(xidx))
fprintf(1,'Target Y-Value: %.3f\nClosest X-Value: %.3f\nCorresponding Y-Value: %.3f\nY-Distance |Desired-Actual|: %.3f\n', 0.8*max(y), x(idx(xidx)), y(idx(xidx)), abs(0.8*max(y)-y(idx(xidx))))
figure
plot(x, y, 'DisplayName','Data')
hold on
plot(xvals, y(idx), 'ks', 'DisplayName','Closest Indices')
plot(x(idx(xidx)), y(idx(xidx)), 'rs', 'MarkerFaceColor','r', 'DisplayName','Closest X-Value')
yline(0.8*max(y), '--g', 'DisplayName','0.8\times y_{max} Reference')
xline(x_desired, '--r', 'DisplayName','Desired X-Value')
hold off
grid
legend('Location','best')
This uses synthetic data, however it should work for your actual data.
Make appropriate changes to get the result you want. (It is also possible to interpolate to get the exact x- and y-values rather than just using the indices.)
EDIT — (11 Aug 2022 at 1:00)
Added interpolation example.
Example —
tgt = 0.8*max(y);
L = numel(x);
for k = 1:numel(idx)
idxrng = max(1,idx(k)-1) : min(L,idx(k)+1);
xv(k) = interp1(y(idxrng), x(idxrng), tgt);
end
[xvabsdist,xvidx] = min(abs(xv - x_desired));
fprintf(1,'Closest X-Value: %.3f\nDistance |xv - x-desired|: %.3f\n', xv(xvidx),xvabsdist)
figure
plot(x, y, 'DisplayName','Data')
hold on
plot(xv, ones(size(xv))*tgt, 'ks', 'DisplayName','Exact X-Values')
plot(xv(xvidx), tgt, 'rs', 'MarkerFaceColor','r', 'DisplayName','Closest X-Value')
yline(0.8*max(y), '--g', 'DisplayName','0.8\times y_{max} Reference')
xline(x_desired, '--r', 'DisplayName','Desired X-Value')
hold off
grid
legend('Location','best')
.
Più risposte (4)
David Hill
il 7 Ago 2022
[~,idx]=min(abs(y-.8*max(y)));%.8*max(y) is not part of the y-array, find the closest y-idx to that value
x(idx)
1 Commento
amoda
il 10 Ago 2022
amoda
il 10 Ago 2022
0 voti
Bruno Luong
il 10 Ago 2022
Modificato: Bruno Luong
il 10 Ago 2022
*
x = linspace(-3,3);
Assuming your data are monotonic on the neighborhood of the max
y = exp(-x.^2);
[maxy, imax] = max(y);
yt = 0.8*maxy;
% left side
i1 = find(y<yt & 1:length(y)<imax, 1, 'last');
if isempty(i1)
error('no x found on the left side')
end
xl = interp1(y([i1 i1+1]), x([i1 i1+1]), yt)
% right side
i2 = find(y<yt & 1:length(y)>=imax, 1, 'first');
if isempty(i2)
error('no x found on the right side')
end
xr = interp1(y([i2-1 i2]), x([i2-1 i2]), yt)
amoda
il 14 Ago 2022
0 voti
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