scipy.signal.StateSpace¶
-
class
scipy.signal.
StateSpace
(*system, **kwargs)[source]¶ Linear Time Invariant system in state-space form.
Represents the system as the continuous-time, first order differential equation \(\dot{x} = A x + B u\) or the discrete-time difference equation \(x[k+1] = A x[k] + B u[k]\).
StateSpace
systems inherit additional functionality from thelti
, respectively thedlti
classes, depending on which system representation is used.- Parameters
- *system: arguments
The
StateSpace
class can be instantiated with 1 or 3 arguments. The following gives the number of input arguments and their interpretation:1:
lti
ordlti
system: (StateSpace
,TransferFunction
orZerosPolesGain
)4: array_like: (A, B, C, D)
- dt: float, optional
Sampling time [s] of the discrete-time systems. Defaults to None (continuous-time). Must be specified as a keyword argument, for example,
dt=0.1
.
See also
Notes
Changing the value of properties that are not part of the
StateSpace
system representation (such aszeros
orpoles
) is very inefficient and may lead to numerical inaccuracies. It is better to convert to the specific system representation first. For example, callsys = sys.to_zpk()
before accessing/changing the zeros, poles or gain.Examples
>>> from scipy import signal
>>> a = np.array([[0, 1], [0, 0]]) >>> b = np.array([[0], [1]]) >>> c = np.array([[1, 0]]) >>> d = np.array([[0]])
>>> sys = signal.StateSpace(a, b, c, d) >>> print(sys) StateSpaceContinuous( array([[0, 1], [0, 0]]), array([[0], [1]]), array([[1, 0]]), array([[0]]), dt: None )
>>> sys.to_discrete(0.1) StateSpaceDiscrete( array([[1. , 0.1], [0. , 1. ]]), array([[0.005], [0.1 ]]), array([[1, 0]]), array([[0]]), dt: 0.1 )
>>> a = np.array([[1, 0.1], [0, 1]]) >>> b = np.array([[0.005], [0.1]])
>>> signal.StateSpace(a, b, c, d, dt=0.1) StateSpaceDiscrete( array([[1. , 0.1], [0. , 1. ]]), array([[0.005], [0.1 ]]), array([[1, 0]]), array([[0]]), dt: 0.1 )
- Attributes
A
State matrix of the
StateSpace
system.B
Input matrix of the
StateSpace
system.C
Output matrix of the
StateSpace
system.D
Feedthrough matrix of the
StateSpace
system.dt
Return the sampling time of the system, None for
lti
systems.poles
Poles of the system.
zeros
Zeros of the system.
Methods
__mul__
(self, other)Post-multiply another system or a scalar
to_ss
(self)Return a copy of the current
StateSpace
system.to_tf
(self, \*\*kwargs)Convert system representation to
TransferFunction
.to_zpk
(self, \*\*kwargs)Convert system representation to
ZerosPolesGain
.