Plateau followed by one phase decay

5 Ansichten (letzte 30 Tage)
Francesco
Francesco am 26 Feb. 2024
Kommentiert: Francesco am 25 Apr. 2024
Good morning, I am trying to figure out how to compute tau constants from my data
My data could be be fitted by such plateau followed by one phase decay function:
I tried to implement it in MATLAB as follows:
x = 0:0.5:20; % time in seconds
Y0 = -0.6; % signal baseline value
Plateau = -1; % singnal plateu after trigger/stimulus, maximum change from baseline
tau = 0.6; % exponenential decay constant
K = 1/tau; % rate constant in units reciprocal of the x-axis units
X0 = 5; % trigger time
y = Plateau+(Y0-Plateau)*exp(-K*(x-X0));
figure;plot(x,y,'k');
However, I get the following result:
I would have 2 questions:
1) why cant I reproduce the one phase decay function?
2) would you know how to use the matlab funciton "fit" for such data with plateau followed by one phase decay function?
Thanks community for your kind support,
Best regards.

Melden Sie sich an, um diese Frage zu beantworten.

Antworten (2)

Alan Stevens
Alan Stevens am 26 Feb. 2024
Ran in:
Like this?
x = 0:0.5:20; % time in seconds
Y0 = -0.6; % signal baseline value
Plateau = -1; % singnal plateu after trigger/stimulus, maximum change from baseline
tau = 0.6; % exponenential decay constant
K = 1/tau; % rate constant in units reciprocal of the x-axis units
X0 = 5; % trigger time
y = Y0*(x<=X0)+(Plateau+(Y0-Plateau)*exp(-K*(x-X0))).*(x>X0);
figure;plot(x,y,'k');
  5 Kommentare
3 ältere Kommentare anzeigen
Alan Stevens
Alan Stevens am 26 Feb. 2024
Ran in:
Here's a quick fit of tau and Y0. I'll leave you to tidy it up and extend it to fit X0 as well.
x = 0:0.5:20;
y = [-0.137055262721364 -0.118841612584876 -0.274602636741299 -0.117324828772196 ...
-0.173528150754918 -0.280491919000118 -0.244300356226590 -0.367583069701879 ...
-0.423274105143034 -0.529129050767333 -0.774173830727337 -0.676677606159725 ...
-0.730062482232667 -0.863905715495076 -0.831675679632950 -0.987303352625066 ...
-0.949979744575626 -0.865710605996821 -0.901728879393798 -0.877082148456042 ...
-0.944693953430828 -1.07404346760035 -0.915521627715257 -0.901789963321291 ...
-0.955365771797851 -0.941530617721837 -0.945983148775748 -1.01735658137382 ...
-0.965635004813717 -1.06321643780048 -0.956807780654745 -1.09208906741553 ...
-1.04341265165344 -1.08982901817714 -1.07984413818039 -0.934740294823467 ...
-0.960591807908718 -1.03623550995537 -0.909687220130007 -1.09290177705358 ...
-1.01208835337351];
Plateau = -1;
X0 = 2;
fn = @(x,tau,Y0)Y0*(x<=X0)+(Plateau+(Y0-Plateau)*exp(-(x-X0)/tau)).*(x>X0);
tauY0 = [1, -0.1]; % Initial guess
tauY = fminsearch(@(tauY) F(tauY,x,y), tauY0);
tau = tauY(1); Y0 = tauY(2);
yfit = fn(x,tau,Y0);
plot(x,y,'.',x,yfit), grid
xlabel('x'), ylabel('y')
text(12,-0.25,['tau = ' num2str(tau)])
text(12,-0.35,['Y0 = ' num2str(Y0)])
function Z = F(tauY,x,y)
tau = tauY(1); Y0 = tauY(2);
Plateau = -1;
X0 = 2;
yvals = zeros(1,numel(x));
for i = 1:numel(x)
t = x(i) - X0;
yvals(i) = Y0*(t<=0)+(Plateau+(Y0-Plateau)*exp(-t/tau)).*(t>0);
end
Z = norm(yvals-y);
end
Francesco
Francesco am 25 Apr. 2024
Hello, I tried to implement the solution above, however I did not manage to have single function that provides all relevant parameters such as R squared, and Tau (or K).
For my analysis, Y0, X0 and Plateau are not relevant as main outputs.
Community help is greatly appreciated.

Melden Sie sich an, um zu kommentieren.

Francesco
Francesco am 27 Feb. 2024
Thanks Alan for your fantastic help, this is of great help, I guess for now this is resolved :) and I will figure out if there will be need for a function to automatically find X0. Best regards.

Kategorien

Mehr zu Linear and Nonlinear Regression finden Sie in Help Center und File Exchange

Tags

Community Treasure Hunt

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

Start Hunting!

Translated by