sigmaoptions
Sigma plot options
Description
Use the sigmaoptions
command to create a
SigmaOptions
object to customize your sigma plot appearance. Use this
object to customize the appearance of a Bode plot created using sigmaplot
and override the plot preferences for the MATLAB® session in which you create the sigma plot.
The options you specify for a SigmaOptions
object correspond to
properties of a SigmaPlot
chart
object.
Creation
Description
returns a default
set of plot options for use with plotoptions
= sigmaoptionssigmaplot
. You can use these options
to customize sigma plot appearance using the command line. This syntax is useful when you
want to write a script to generate plots that look the same regardless of the preference
settings of the MATLAB session in which you run the script.
initializes the plot options with the options you selected in the Control System Toolbox™ Preferences Editor. For more information about the editor, see Specify Toolbox Preferences for Linear Analysis Plots. This syntax is useful when you want to change a few
plot options but otherwise use your default preferences. A script that uses this syntax
might generate results that look different when run in a session with different
preferences.plotoptions
= sigmaoptions("cstprefs")
Properties
Units and Scaling
FreqUnits
— Frequency units
'rad/s'
(default) | 'Hz'
| 'rpm'
| 'auto'
| ...
Frequency units, specified as one of the following values:
'Hz'
'rad/s'
'rpm'
'kHz'
'MHz'
'GHz'
'rad/nanosecond'
'rad/microsecond'
'rad/millisecond'
'rad/minute'
'rad/hour'
'rad/day'
'rad/week'
'rad/month'
'rad/year'
'cycles/nanosecond'
'cycles/microsecond'
'cycles/millisecond'
'cycles/hour'
'cycles/day'
'cycles/week'
'cycles/month'
'cycles/year'
You can also specify 'auto'
which uses frequency
'rad/TimeUnit'
, where TimeUnit
is the
TimeUnit
property of the input system.
This option corresponds to the FrequencyUnit
property of the chart object.
FreqScale
— Frequency scale
'log'
(default) | 'linear'
Frequency scale, specified as either 'log'
or 'linear'
.
This option corresponds to the FrequencyScale
property of the chart object.
MagUnits
— Magnitude units
'dB'
(default) | 'abs'
Magnitude units, specified as one of the following:
'dB'
— Decibels'abs'
— Absolute value
This option corresponds to the MagnitudeUnit
property of the chart object.
MagScale
— Magnitude scale
'log'
(default) | 'linear'
Magnitude scale, specified as either 'log'
or 'linear'
.
This option corresponds to the MagnitudeScale
property of the
chart object.
Title and Axis Labels
Title
— Title text and style
structure
Title text and style, specified as a structure with the following fields:
String
— Label text, specified as a character vector. By default, the plot is titled 'Bode Diagram'.FontSize
— Font size, specified as a scalar value greater than zero in point units. The default font size depends on the specific operating system and locale. One point equals1/72
inch.FontWeight
— Character thickness, specified as'Normal'
or'bold'
. MATLAB uses theFontWeight
property to select a font from those available on your system. Not all fonts have a bold weight. Therefore, specifying a bold font weight can still result in the normal font weight.FontAngle
— Character slant, specified as'Normal'
or'italic'
. Not all fonts have both font styles. Therefore, the italic font might look the same as the normal font.Color
— Text color, specified as an RGB triplet. The default color is black specified by the RGB triplet[0,0,0]
.Interpreter
— Text interpreter, specified as one of these values:'tex'
— Interpret characters using a subset of TeX markup. This is the default value ofInterpreter
.'latex'
— Interpret characters using LaTeX markup.'none'
— Display literal characters.
This option corresponds to the Title
property of the chart object.
XLabel
— X-axis label text and style
structure
X-axis label text and style, specified as a structure with the following fields:
String
— Label text, specified as a character vector. By default, the axis is titled based on the frequency unitsFreqUnits
.FontSize
— Font size, specified as a scalar value greater than zero in point units. The default font size depends on the specific operating system and locale. One point equals1/72
inch.FontWeight
— Character thickness, specified as'Normal'
or'bold'
. MATLAB uses theFontWeight
property to select a font from those available on your system. Not all fonts have a bold weight. Therefore, specifying a bold font weight can still result in the normal font weight.FontAngle
— Character slant, specified as'Normal'
or'italic'
. Not all fonts have both font styles. Therefore, the italic font might look the same as the normal font.Color
— Text color, specified as an RGB triplet. The default color is black specified by the RGB triplet[0,0,0]
.Interpreter
— Text interpreter, specified as one of these values:'tex'
— Interpret characters using a subset of TeX markup. This is the default value ofInterpreter
.'latex'
— Interpret characters using LaTeX markup.'none'
— Display literal characters.
This option corresponds to the XLabel
property of the chart object.
YLabel
— Y-axis label text and style
structure
Y-axis label text and style, specified as a structure with the following fields:
String
— Label text, specified as a cell array of character vectors. By default, the axis label is a 1x2 cell array with 'Magnitude' and 'Phase'.FontSize
— Font size, specified as a scalar value greater than zero in point units. The default font size depends on the specific operating system and locale. One point equals1/72
inch.FontWeight
— Character thickness, specified as'Normal'
or'bold'
. MATLAB uses theFontWeight
property to select a font from those available on your system. Not all fonts have a bold weight. Therefore, specifying a bold font weight can still result in the normal font weight.FontAngle
— Character slant, specified as'Normal'
or'italic'
. Not all fonts have both font styles. Therefore, the italic font might look the same as the normal font.Color
— Text color, specified as an RGB triplet. The default color is black specified by the RGB triplet[0,0,0]
.Interpreter
— Text interpreter, specified as one of these values:'tex'
— Interpret characters using a subset of TeX markup. This is the default value ofInterpreter
.'latex'
— Interpret characters using LaTeX markup.'none'
— Display literal characters.
This option corresponds to the YLabel
property of the chart object.
TickLabel
— Tick label style
structure
Tick label style, specified as a structure with the following fields:
FontSize
— Font size, specified as a scalar value greater than zero in point units. The default font size depends on the specific operating system and locale. One point equals1/72
inch.FontWeight
— Character thickness, specified as'Normal'
or'bold'
. MATLAB uses theFontWeight
property to select a font from those available on your system. Not all fonts have a bold weight. Therefore, specifying a bold font weight can still result in the normal font weight.FontAngle
— Character slant, specified as'Normal'
or'italic'
. Not all fonts have both font styles. Therefore, the italic font might look the same as the normal font.Color
— Text color, specified as an RGB triplet. The default color is black specified by the RGB triplet[0,0,0]
.
Grid
Grid
— Toggle grid display
'off'
(default) | 'on'
Toggle grid display on the plot, specified as either 'off
' or 'on
'.
This option corresponds to the GridVisible
property of the chart object.
GridColor
— Color of the grid lines
[0.15 0.15 0.15]
(default) | RGB triplet
Color of the grid lines, specified as an RGB triplet. The default color is light grey specified by the RGB triplet [0.15 0.15 0.15]
.
Axis Limits
XLimMode
— X-axis limit selection mode
'auto'
(default) | 'manual'
| cell array
X-axis limit selection mode, specified as one of the following values:
'auto'
— Enable automatic limit selection, which is based on the total span of the plotted data.'manual'
— Manually specify the axis limits. To specify the axis limits, set theXLim
option.
This option corresponds to the XLimitsMode
property of the chart object.
YLimMode
— Y-axis limit selection mode
'auto'
(default) | 'manual'
| cell array
Selection mode for the y-axis limits, specified as one of these values:
'auto'
— Enable automatic limit selection, which is based on the total span of the plotted data.'manual'
— Manually specify the axis limits. To specify the axis limits, set theYLim
option.
This option corresponds to the YLimitsMode
property of the chart object.
XLim
— X-axis limits
'{[1,10]}'
(default) | cell array of two-element vectors of the form [min,max]
| cell array
X-axis limits, specified as a cell array of two-element vector of the form [min,max]
.
This option corresponds to the XLimits
property of the chart object.
YLim
— Y-axis limits
'{[1,10]}'
(default) | cell array of two-element vector of the form [min,max]
| cell array
Y-axis limits, specified as a cell array of two-element vector of the form [min,max]
.
This option corresponds to the YLimits
property of the chart object.
Object Functions
sigmaplot | Plot singular values for frequency response of dynamic system |
Examples
Customize Sigma Plot
For this example, use the plot handle to change the frequency units to Hz and turn on the grid.
Generate a random state-space model with 5 states and create the sigma plot with chart object sp
.
rng("default")
sys = rss(5);
sp = sigmaplot(sys);
Change the units to Hz and turn on the grid.
sp.FrequencyUnit = "Hz"; grid on
Alternatively, you can also use the sigmaoptions
command to specify the required plot options. First, create an options set based on the toolbox preferences.
p = sigmaoptions('cstprefs');
Change properties of the options set by setting the frequency units to Hz and enable the grid.
p.FreqUnits = 'Hz'; p.Grid = 'on'; sigmaplot(sys,p);
Depending on your own toolbox preferences, the plot you obtain might look different from this plot. Only the properties that you set explicitly, in this example Grid
and FreqUnits
, override the toolbox preferences.
Custom Sigma Plot Settings Independent of Preferences
For this example, create a sigma plot that uses 15-point red text for the title. This plot should look the same, regardless of the preferences of the MATLAB session in which it is generated.
First, create a default options set using sigmaoptions
.
plotoptions = sigmaoptions;
Next, change the required properties of the options set plotoptions
.
plotoptions.Title.FontSize = 15; plotoptions.Title.Color = [1 0 0]; plotoptions.FreqUnits = 'Hz'; plotoptions.Grid = 'on';
Now, create a sigma plot using the options set plotoptions
.
h = sigmaplot(tf(1,[1,1]),plotoptions);
Because plotoptions
begins with a fixed set of options, the plot result is independent of the toolbox preferences of the MATLAB session.
Customized Sigma Plot of Transfer Function
For this example, create a sigma plot of the following continuous-time SISO dynamic system. Then, turn the grid on, rename the plot and change the frequency scale.
Create the transfer function sys
.
sys = tf([1 0.1 7.5],[1 0.12 9 0 0]);
Next, create the options set using sigmaoptions
and change the required plot properties.
plotoptions = sigmaoptions; plotoptions.Grid = 'on'; plotoptions.FreqScale = 'linear'; plotoptions.Title.String = 'Singular Value Plot of Transfer Function';
Now, create the sigma plot with the custom option set plotoptions
.
h = sigmaplot(sys,plotoptions);
sigmaplot
automatically selects the plot range based on the system dynamics.
Singular Value Plot of Identified Parametric and Nonparametric Models
For this example, compare the SV for the frequencies of a parametric model, identified from input/output data, to a non-parametric model identified using the same data. Identify parametric and non-parametric models based on the data.
Load the data and create the parametric and non-parametric models using tfest
and spa
, respectively.
load iddata2 z2; w = linspace(0,10*pi,128); sys_np = spa(z2,[],w); sys_p = tfest(z2,2);
spa
and tfest
require System Identification Toolbox™ software. The model sys_np
is a non-parametric identified model while, sys_p
is a parametric identified model.
Create an options set to turn the grid on. Then, create a sigma plot that includes both systems using this options set.
plotoptions = sigmaoptions; plotoptions.Grid = 'on'; h = sigmaplot(sys_p,'b--',sys_np,'r--',w,plotoptions); legend('Parametric Model','Non-Parametric model');
Modified Singular Value Plot of MIMO System
Consider the following two-input, two-output dynamic system.
Plot the singular value responses of H(s) and I + H(s). Set appropriate titles using the plot option set.
H = [0, tf([3 0],[1 1 10]) ; tf([1 1],[1 5]), tf(2,[1 6])]; opts1 = sigmaoptions; opts1.Grid = 'on'; opts1.Title.String = 'Singular Value Plot of H(s)'; h1 = sigmaplot(H,opts1);
Use input 2 to plot the modified SV of type, I + H(s).
opts2 = sigmaoptions; opts2.Grid = 'on'; opts2.Title.String = 'Singular Value Plot of I+H(s)'; h2 = sigmaplot(H,[],2,opts2);
Version History
Introduced in R2008a
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