📄 tf.m
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## Copyright (C) 1996, 1998, 2004, 2005, 2006, 2007## 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 3 of the License, 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, see## <http://www.gnu.org/licenses/>.## -*- texinfo -*-## @deftypefn {Function File} {} tf (@var{num}, @var{den}, @var{tsam}, @var{inname}, @var{outname})## build system data structure from transfer function format data#### @strong{Inputs}## @table @var## @item num## @itemx den## coefficients of numerator/denominator polynomials## @item tsam## sampling interval. default: 0 (continuous time)## @item inname## @itemx outname## input/output signal names; may be a string or cell array with a single string## entry.## @end table#### @strong{Outputs}## @var{sys} = system data structure#### @strong{Example}## @example## octave:1> sys=tf([2 1],[1 2 1],0.1);## octave:2> sysout(sys)## Input(s)## 1: u_1## Output(s):## 1: y_1 (discrete)## Sampling interval: 0.1## transfer function form:## 2*z^1 + 1## -----------------## 1*z^2 + 2*z^1 + 1## @end example## @end deftypefn## Author: R. Bruce Tenison <btenison@eng.auburn.edu>## Created: July 29, 1994## Name changed to TF2SYS July 1995## updated for new system data structure format July 1996function outsys = tf (num, den, tsam, inname, outname) ## Test for the correct number of input arguments if (nargin < 2 || nargin > 5) print_usage (); endif ## check input format if (! ((isvector (num) || isscalar (num)) && (isvector (den) || isscalar (den)))) error ("num (%dx%d) and den (%dx%d) must be vectors", rows (num), columns (num), rows (den), columns (den)); endif ## strip leading zero coefficients num = __tfl__ (num); den = __tfl__ (den); if (length (num) > length (den)) error ("# of poles (%d) < # of zeros (%d)", length(den)-1, length(num)-1); endif ## check sampling interval (if any) if (nargin <= 2) tsam = 0; # default elseif (isempty (tsam)) tsam = 0; endif if (! (isscalar (tsam) && imag (tsam) == 0) || tsam < 0) error ("tsam must be a positive real scalar") endif outsys.num = num; outsys.den = den; ## Set the system vector: active = 0(tf), updated = [1 0 0]; outsys.sys = [0, 1, 0, 0]; ## Set defaults outsys.tsam = tsam; outsys.n = length (den) - 1; outsys.nz = 0; outsys.yd = 0; # assume discrete-time ## check discrete time if (tsam > 0) [outsys.n, outsys.nz] = swap (outsys.n, outsys.nz); outsys.yd = 1; endif outsys.inname = __sysdefioname__ (1, "u"); outsys.outname = __sysdefioname__ (1, "y"); outsys.stname = __sysdefstname__ (outsys.n, outsys.nz); ## Set name of input if (nargin > 3) ## make sure it's a cell array of a single string if (! isempty (inname)) if (! iscell (inname)) inname = {inname}; endif if (! is_signal_list (inname)) error ("inname must be a string or cell array of strings"); endif if (length (inname) > 1) warning ("tf: %d input names provided; first used", length (inname)); inname = inname(1); endif outsys = syssetsignals (outsys, "in", inname); endif endif ## Set name of output if (nargin > 4) if (! isempty (outname)) if (! iscell (outname)) outname = {outname}; endif if (! is_signal_list (outname)) error ("outname must be a string or a cell array of strings"); endif if (length (outname) > 1) warning ("tf: %d output names provided; first used", length(outname)); outname = outname(1); endif outsys = syssetsignals (outsys, "out", outname); endif endifendfunction⌨️ 快捷键说明
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