Control package: Difference between revisions
Jump to navigation
Jump to search
Line 569: | Line 569: | ||
c = 0; | c = 0; | ||
G1 = tf([m*l^2+I b -m*g*l], | G1 = tf([m*l^2+I b -m*g*l], | ||
[(M+m)*(m*l^2+I)-m^2*l^2 (M+m)*b+(m*l^2+I)*c -(M+m)*m*g*l+b*c -m*g*l*c 0]) | [(M+m)*(m*l^2+I)-m^2*l^2 (M+m)*b+(m*l^2+I)*c -(M+m)*m*g*l+b*c -m*g*l*c 0]); | ||
G2 = tf([-m*l], | G2 = tf([-m*l], | ||
[(M+m)*(m*l^2+I)-m^2*l^2 (M+m)*b+(m*l^2+I)*c -(M+m)*m*g*l+b*c -m*g*l*c]) | [(M+m)*(m*l^2+I)-m^2*l^2 (M+m)*b+(m*l^2+I)*c -(M+m)*m*g*l+b*c -m*g*l*c]); | ||
</syntaxhighlight>}} | </syntaxhighlight>}} | ||
Revision as of 08:40, 29 September 2015
The control package is part of the Octave Forge project.
Function list
Linear System Representation
Chapter | Function | Implemented | File | Number of Tests | Status | SLICOT functions | Priority (0-2) |
---|---|---|---|---|---|---|---|
Basic Models | tf | yes | @tf/tf.m | ||||
zpk | yes | zpk.m | |||||
ss | yes | @ss/ss.m | |||||
frd | yes | @frd/frd.m | |||||
pid | no | ||||||
pidstd | no | ||||||
pid2 | no | ||||||
dss | yes | @lti/dss.m | |||||
drss | no | ||||||
filt | yes | filt.m | |||||
rss | no | ||||||
Tunable Models | ltiblock.gain | no | |||||
ltiblock.pid | no | ||||||
ltiblock.pid2 | no | ||||||
ltiblock.ss | no | ||||||
ltiblock.tf | no | ||||||
realp | no | ||||||
AnalysisPoint | no | ||||||
genss | no | ||||||
genfrd | no | ||||||
genmat | no | ||||||
getLoopTransfer | no | ||||||
getIOTransfer | no | ||||||
getSensitivity | no | ||||||
getCompSensitivity | no | ||||||
getPoints | no | ||||||
replaceBlock | no | ||||||
getValue | no | ||||||
setValue | no | ||||||
getBlockValue | no | ||||||
setBlockValue | no | ||||||
showBlockValue | no | ||||||
showTunable | no | ||||||
nblocks | no | ||||||
getLFTModel | no | ||||||
Model with Time Delays | pade | no | |||||
absorbDelay | no | ||||||
thiran | yes | thiran.m | |||||
hasdelay | no | ||||||
hasInternalDelay | no | ||||||
totaldelay | no | ||||||
delayss | no | ||||||
setDelayModel | no | ||||||
getDelayModel | no | ||||||
Model Attributes | get | yes | @iddata/get.m | ||||
set | yes | @iddata/set.m | |||||
tfdata | yes | @lti/tfdata.m | |||||
zpkdata | yes | @lti/zpkdata.m | |||||
ssdata | yes | @lti/ssdata.m | |||||
frdata | yes | @lti/frdata.m | |||||
piddata | no | ||||||
pidstddata | no | ||||||
piddata2 | no | ||||||
pidstddata2 | no | ||||||
dssdata | yes | @lti/dssdata.m | |||||
chgFreqUnit | no | ||||||
chgTimeUnit | no | ||||||
isct | yes | @lti/isct.m | |||||
isdt | yes | @lti/isdt.m | |||||
isempty | yes | built-in function | |||||
isfinite | yes | built-in function | |||||
isParametric | no | ||||||
isproper | no | ||||||
isreal | yes | built-in function | |||||
isiso | no | ||||||
isstable | yes | @lti/isstable.m | |||||
isstatic | no | ||||||
order | no | ||||||
ndims | yes | built-in function | |||||
size | yes | built-in function | |||||
Model Arrays | stack | no | |||||
nmodels | no | ||||||
permute | yes | built-in function | |||||
reshape | yes | built-in function | |||||
repsys | yes | repsys.m |
Model Interconnection
Function | Implemented | File | Number of Tests | Status | SLICOT functions | Priority (0-2) |
---|---|---|---|---|---|---|
feedback | yes | @lti/feedback.m | ||||
connect | yes | @lti/connect.m | ||||
sumblk | yes | sumblk.m | ||||
series | no | |||||
parallel | no | |||||
append | yes | append.m | ||||
blkdiag | yes | @lti/blkdiag.m | ||||
imp2exp | no | |||||
inv | yes | built-in function | ||||
lft | no | |||||
connectOptions | no |
Model Transformation
Chapter | Function | Implemented | File | Number of Tests | Status | SLICOT functions | Priority (0-2) |
---|---|---|---|---|---|---|---|
Model Type Conversion | pidstd2 | no | |||||
make1DOF | no | ||||||
make2DOF | no | ||||||
getComponents | no | ||||||
Continuous-Discrete Conversion | c2d | yes | @lti/c2d.m | ||||
d2c | yes | @lti/d2c.m | |||||
d2d | yes | @lti/d2d.m | |||||
upsample | no | ||||||
c2dOptions | no | ||||||
d2cOptions | no | ||||||
d2dOptions | no | ||||||
Model Simplification | hsvd | yes | hsvd.m | ||||
hsvplot | no | ||||||
sminreal | yes | @lti/sminreal.m | |||||
balred | no | ||||||
minreal | yes | @lti/minreal.m | |||||
balreal | no | ||||||
modred | no | ||||||
balredOptions | no | ||||||
hsvdOptions | no | ||||||
State-Coordinate Transformation | canon | no | |||||
prescale | yes | @lti/prescale.m | |||||
ss2ss | no | ||||||
xperm | yes | @lti/xperm.m | |||||
Modal Decomposition | modsep | no | |||||
stabsep | no | ||||||
freqsep | no | ||||||
stabsepOptions | no | ||||||
freqsepOptions | no |
Linear Analysis
Chapter | Function | Implemented | File | Number of Tests | Status | SLICOT functions | Priority (0-2) |
---|---|---|---|---|---|---|---|
Time-Domain Analysis | linearSystemAnalyzer | no | |||||
impulseplot | no | ||||||
initialplot | no | ||||||
lsimplot | no | ||||||
stepplot | no | ||||||
covar | yes | covar.m | |||||
impulse | yes | impulse.m | |||||
initial | yes | initial.m | |||||
lsim | yes | lsim.m | |||||
step | yes | step.m | |||||
lsiminfo | no | ||||||
stepinfo | no | ||||||
stepDataOptions | no | ||||||
Frequency-Domain Analysis | bodeplot | no | |||||
nicholsplot | no | ||||||
nyquistplot | no | ||||||
sigmaplot | no | ||||||
bode | yes | bode.m | |||||
nichols | yes | nichols.m | |||||
nyquist | yes | nyquist.m | |||||
sigma | yes | sigma.m | |||||
evalfr | no | ||||||
freqresp | yes | @lti/freqresp.m | |||||
bandwidth | yes | built-in function | |||||
dcgain | yes | @lti/dcgain.m | |||||
getGainCrossover | no | ||||||
getPeakGain | no | ||||||
Stability Analysis | pole | yes | @lti/pole.m | ||||
zero | yes | @lti/zero.m | |||||
damp | no | ||||||
dsort | no | ||||||
esort | no | ||||||
tzero | no | ||||||
pzplot | no | ||||||
iopzplot | no | ||||||
allmargin | no | ||||||
margin | yes | margin.m | |||||
Plot Customization | bodeoptions | no | |||||
hsvoptions | no | ||||||
nicholsoptions | no | ||||||
nyquistoptions | no | ||||||
pzoptions | no | ||||||
sigmaoptions | no | ||||||
timeoptions | no | ||||||
setoptions | no | ||||||
getoptions | no | ||||||
ctrlpref | no | ||||||
updateSystem | no |
Control Design
Chapter | Function | Implemented | File | Number of Tests | Status | SLICOT functions | Priority (0-2) |
---|---|---|---|---|---|---|---|
PID Controller Tuning | pidTuner | no | |||||
pidtune | no | ||||||
pidtuneOptions | no | ||||||
SISO Feedback Loops | rlocus | yes | rlocus.m | ||||
rlocusplot | no | ||||||
controlSystemDesigner | no | ||||||
sisoinit | no | ||||||
Linear-Quadratic-Gaussian Control | lqr | yes | lqr.m | ||||
lqry | no | ||||||
lqi | no | ||||||
dlqr | yes | dlqr.m | |||||
lqrd | no | ||||||
kalman | yes | kalman.m | |||||
kalmd | no | ||||||
lqg | no | ||||||
lqgreg | no | ||||||
lqgtrack | no | ||||||
augstate | no | ||||||
norm | yes | @lti/norm.m | |||||
Pole Placement | estim | yes | estim.m | ||||
place | yes | place.m | |||||
reg | no |
Matrix Computations
Function | Implemented | File | Number of Tests | Status | SLICOT functions | Priority (0-2) |
---|---|---|---|---|---|---|
lyap | yes | lyap.m | ||||
lyapchol | yes | lyapchol.m | ||||
dlyap | yes | dlyap.m | ||||
dlyapchol | yes | dlyapchol.m | ||||
care | yes | care.m | ||||
dare | yes | dare.m | ||||
gcare | no | |||||
gdare | no | |||||
ctrb | yes | ctrb.m | ||||
obsv | yes | obsv.m | ||||
ctrbf | yes | ctrbf.m | ||||
obsvf | yes | obsvf.m | ||||
gram | yes | gram.m | ||||
bdschur | no |
Examples
PT1/low-pass filter step response
Code: Creating a transfer function and plotting its response |
T1=0.4; # time constant
P=tf([1], [T1 1]) # create transfer function model
step(P,2) # plot step response
#add some common markers like the tangent line at the origin, which crosses lim(n->inf) f(t) at t=T1
hold on
plot ([0 T1], [0 1],"g")
plot ([T1 T1], [0 1],"k")
plot ([0 T1], [1-1/e 1-1/e],"m")
hold off
|
Try also bode(P)! (a first order low-pass filter has -3db magnitude at f=1/T1)
Inverted Pendulum
A nonlinear model of the inverted pendulum can be derived by
where the variables are defined as
Name | Definition |
---|---|
Mass of the cart | |
Mass of the pendulum | |
Translational damping coefficient | |
Length of the pendulum | |
Inertia of the pendulum | |
Rotational damping coefficient |
Linearization around the point and substitution of (from here on in the analysis, will be written as , but it should be noted that now measures from a new reference) leads to
This can be expressed in the frequency domain like
and by dividing the state variables by the input one obtains the transfer functions
with
This can be expressed in Octave
Code: Creating the transfer functions for the inverted pendulum |
m = 0.15;
l = 0.314;
M = 1.3;
I = 7.38e-5;
g = 9.80665;
b = 20;
c = 0;
G1 = tf([m*l^2+I b -m*g*l],
[(M+m)*(m*l^2+I)-m^2*l^2 (M+m)*b+(m*l^2+I)*c -(M+m)*m*g*l+b*c -m*g*l*c 0]);
G2 = tf([-m*l],
[(M+m)*(m*l^2+I)-m^2*l^2 (M+m)*b+(m*l^2+I)*c -(M+m)*m*g*l+b*c -m*g*l*c]);
|
and by invoking the bode command
Code: Bode plot for the inverted pendulum |
bode(G1);
bode(G2);
|
One obtains the Bode plots of the two transfer functions.