can anyone offer control of state space system using Iterative Learning Control in command window in MATALB
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can anyone offer control of state space system using Iterative Learning Control in command window in MATALB
4 Commenti
Mark Sherstan
il 30 Nov 2018
Please provide more information such as transfer function, sampling time, initial conditions, etc... Does your system include a controller or is that factored into your state space?
Walter Roberson
il 1 Dic 2018
When you say in the command window does that mean that it is not permitted to define true functions to assist? Or are you trying to distinguish from a Simulink solution ?
Mohamed Eshag
il 1 Dic 2018
Modificato: Mohamed Eshag
il 1 Dic 2018
@mark sherstan
Mohamed Eshag
il 1 Dic 2018
Modificato: Mohamed Eshag
il 1 Dic 2018
Risposta accettata
Mark Sherstan
il 7 Dic 2018
Here is an example that should push you in the correct direction. I havent completed it as I dont know what your reference signal is or if you need to add noise, disturbances, pure time delay, etc... but it is basically complete. Refer to the comments to follow what is going on.
function [ ] = ILC()
%[Ad Bd Cd Dd] = ssdata(sys);
Ad = [0 1 0; 3 0 1; 0 1 0];
Bd = [1; 1; 3];
Cd = [1 1 1];
Dd = [0];
% Set Ts, initial condition x0, time range t, pure time delay n0, relative
% degree r, and matrix size N
Ts = 1;
x0 = 0;
t = 0:Ts:60;
n0 = 0;
r = 1;
N = length(t);
% Define input vector U and reference J
U = [zeros(1,15) 10*ones(1,15) zeros(1,15) 10*ones(1,16)];
Rj = [zeros(1,15) 20*ones(1,15) zeros(1,15) 20*ones(1,16)]';
% G0 not formulated as initial condition is 0
% Formulate G
Gvec = zeros(N,1);
rvec = ((r-1):(N-n0-1))';
for ii = 1:length(rvec)
ApowVec = Ad^rvec(ii);
Gvec(ii) = Cd*ApowVec*Bd;
end
G = tril(toeplitz(Gvec));
% Set up ILC
jmax = 25;
l0 = 0.95;
q0 = 1;
L = l0 * eye(N,N);
Q = q0 * eye(N,N);
I = eye(N);
Uj = zeros(N,1); Ujold = Uj;
Ej = zeros(N,1); Ejold = Ej;
e2k = zeros(jmax,1);
% Run ILC and plot the response for each iteration
for ii = 1:jmax
Uj = Q*Ujold + L*Ejold;
Yj = G*Uj;
Ej = Rj - Yj; Ej(1) = 0;
Ejold = Ej;
Ujold = Uj;
plotter(ii,t,Ej,Yj,Uj,Rj,U)
e2k(ii) = Ej'*Ej;
end
end
function [] = plotter(ii,t,Ej,Yj,Uj,Rj,U)
figure(1)
% Plot the error Ej of the current itteration
subplot(1,3,1);
plot(t,Ej,'LineWidth',1.5);
title('Error, Ej','FontSize',16);
ylabel('Error Response','FontSize',16);
% Plot the input Uj of the current itteration
subplot(1,3,2);
plot(t,Uj,t,U,'-k','LineWidth',1.5);
title({['Iteration: ', num2str(ii)],'Input, Uj'},'FontSize',16);
xlabel('Time (s)','FontSize',16);
ylabel('Input Response','FontSize',16);
% Plot the output Yj of the current itteration
subplot(1,3,3);
plot(t,Yj,t,Rj,'-k','LineWidth',1.5);
title('Output, Yj','FontSize',16);
ylabel('Output Response','FontSize',16);
pause(0.1);
end
2 Commenti
Mohamed Eshag
il 12 Dic 2018
Modificato: Mohamed Eshag
il 12 Dic 2018
mazin alseadi
il 3 Nov 2020
Dear Mohamed Eshag
Have you developed or did this codes to be worked successfuly ? if you did, so please could you kindly send me this files ?
with respect and appreciate
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