function [Y,X] = sm2ir(A,B,C,D,T,u0,x0); % sm2ir - Constrained-state matrix to impulse response. % % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % %%%%% Model Transformation Tools %%%%% % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Matlab function sm2ir % [Y,X] = sm2ir(A,B,C,D,T,u0,x0); % A,B,C,D,E - (constrained) state matrices % T vector of time points % u0 input gain vector: u = u0*unit impulse. % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % %% Version control history % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % %% $Id$ % %% $Log$ % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% [Ny,Nu] = size(D); [Ny,Nx] = size(C); if max(max(abs(D)))~=0 mtt_info('D matrix non-zero - ignoring'); end; if nargin<6 u0 = zeros(Nu,1); u0(1) = 1; end; if nargin<7 x0 = zeros(Nx,1); end; [N,M] = size(T); if M>N T = T'; N = M; end; one = eye(Nx); Y = zeros(N,Ny); X = zeros(N,Nx); dt = T(2)-T(1);% Assumes fixed interval expAdt = expm(A*dt); % Compute matrix exponential expAt = one; i = 0; x = (B*u0+x0); for t = T' i=i+1; if Nx>0 % expAt = expm(A*t); x = expAdt*x; X(i,:) = x'; if Ny>0 y = C*x; Y(i,:) = y'; end; end; end;