Mercurial > hg > octave-nkf
view scripts/control/system/sysadd.m @ 4821:22f024a25c4a
[project @ 2004-03-05 16:19:11 by jwe]
| author | jwe |
|---|---|
| date | Fri, 05 Mar 2004 16:19:11 +0000 |
| parents | b8105302cfe8 |
| children | 4c8a2e4e0717 |
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## Copyright (C) 1996, 1999 Auburn University. All rights reserved. ## ## This file is part of Octave. ## ## Octave is free software; you can redistribute it and/or modify it ## under the terms of the GNU General Public License as published by the ## Free Software Foundation; either version 2, or (at your option) any ## later version. ## ## Octave is distributed in the hope that it will be useful, but WITHOUT ## ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ## FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ## for more details. ## ## You should have received a copy of the GNU General Public License ## along with Octave; see the file COPYING. If not, write to the Free ## Software Foundation, 59 Temple Place, Suite 330, Boston, MA 02111 USA. ## -*- texinfo -*- ## @deftypefn {Function File} {} sysadd (@var{gsys}, @var{hsys}) ## returns @var{sys} = @var{gsys} + @var{hsys}. ## @itemize @bullet ## @item Exits with ## an error if @var{gsys} and @var{hsys} are not compatibly dimensioned. ## @item Prints a warning message is system states have identical names; ## duplicate names are given a suffix to make them unique. ## @item @var{sys} input/output names are taken from @var{gsys}. ## @end itemize ## @example ## @group ## ________ ## ----| gsys |--- ## u | ---------- +| ## ----- (_)----> y ## | ________ +| ## ----| hsys |--- ## -------- ## @end group ## @end example ## @end deftypefn ## Author: John Ingram <ingraje@eng.auburn.edu> ## Created: July 1996 ## Updated for variable number of arguments July 1999 A. S. Hodel function sys = sysadd (varargin) if(nargin < 1) usage("sysadd: sys = sysysadd(Gsys{,Hsys, ...})"); endif ## collect all arguments arglist = {}; for kk=1:nargin arglist{kk} = varargin{kk}; if(!isstruct(arglist{kk})) error("sysadd: argument %d is not a data structure",kk); endif endfor ## check system dimensions [n,nz,mg,pg,Gyd] = sysdimensions(arglist{1}); for kk=2:nargin [n,nz,mh,ph,Hyd] = sysdimensions(arglist{kk}); if(mg != mh) error("arg 1 has %d inputs; arg %d has vs %d inputs",mg,kk,mh); elseif(pg != ph) error("arg 1 has %d outputs; arg %d has vs %d outputs",pg,kk,ph); elseif(norm(Gyd - Hyd)) warning("cannot add a discrete output to a continuous output"); error("Output type mismatch: arguments 1 and %d\n",kk); endif endfor ## perform the add if (nargin == 2) Gsys = arglist{1}; Hsys = arglist{2}; # check if adding scalar transfer functions with identical denoms [Gn, Gnz, Gm, Gp] = sysdimensions(Gsys); [Hn, Hnz, Hm, Hp] = sysdimensions(Hsys); if ( Gm ==1 & Gp == 1 & Hm == 1 & Hp == 1 & Gn == Hn & Gnz == Hnz ) # dimensions are compatible, check if can add [Gnum,Gden,GT,Gin,Gout] = sys2tf(Gsys); [Hnum,Hden,HT,Hin,Hout] = sys2tf(Hsys); if (length(Hden) == length(Gden) ) if( (Hden == Gden) & (HT == GT) ) sys = tf(Gnum+Hnum,Gden,GT,Gin,Gout); return; # return prematurely since the add is done. endif endif endif ## make sure in ss form Gsys = sysupdate(Gsys,"ss"); Hsys = sysupdate(Hsys,"ss"); Gin = sysgetsignals(Gsys,"in"); Gout = sysgetsignals(Gsys,"out"); Hin = sysgetsignals(Hsys,"in"); Hout = sysgetsignals(Hsys,"out"); ## change signal names to avoid warning messages from sysgroup Gsys = syssetsignals(Gsys,"in",__sysdefioname__(length(Gin),"Gin_u")); Gsys = syssetsignals(Gsys,"out",__sysdefioname__(length(Gout),"Gout_u")); Hsys = syssetsignals(Hsys,"in",__sysdefioname__(length(Hin),"Hin_u")); Hsys = syssetsignals(Hsys,"out",__sysdefioname__(length(Hout),"Hout_u")); sys = sysgroup(Gsys,Hsys); eyin = eye(mg); eyout = eye(pg); sys = sysscale(sys,[eyout, eyout],[eyin;eyin],Gout,Gin); else ## multiple systems (or a single system); combine together one by one sys = arglist{1}; for kk=2:length(arglist) sys = sysadd(sys,arglist{kk}); endfor endif endfunction