Control package: Difference between revisions
Jump to navigation
Jump to search
Line 480: | Line 480: | ||
-ml\ddot{x}\cos{\theta}+(ml^2+I)\ddot{\theta}+b\dot{\theta}+mgl\sin{\theta}=0 | -ml\ddot{x}\cos{\theta}+(ml^2+I)\ddot{\theta}+b\dot{\theta}+mgl\sin{\theta}=0 | ||
\end{cases} | \end{cases} | ||
</math>, | </math> | ||
, | |||
where the variables are defined as | where the variables are defined as | ||
Line 515: | Line 516: | ||
ml\dot{x}+(ml^2+I)\ddot{\theta}+b\dot{\theta}-mgl\theta=0 | ml\dot{x}+(ml^2+I)\ddot{\theta}+b\dot{\theta}-mgl\theta=0 | ||
\end{cases} | \end{cases} | ||
</math>. | </math> | ||
. | |||
==References== | ==References== |
Revision as of 14:20, 28 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
.