dlsim#
- scipy.signal.dlsim(system, u, t=None, x0=None)[source]#
- Simulate output of a discrete-time linear system. - Parameters:
- systemtuple of array_like or instance of dlti
- A tuple describing the system. The following gives the number of elements in the tuple and the interpretation: - 1: (instance of - dlti)
- 3: (num, den, dt) 
- 4: (zeros, poles, gain, dt) 
- 5: (A, B, C, D, dt) 
 
- uarray_like
- An input array describing the input at each time t (interpolation is assumed between given times). If there are multiple inputs, then each column of the rank-2 array represents an input. 
- tarray_like, optional
- The time steps at which the input is defined. If t is given, it must be the same length as u, and the final value in t determines the number of steps returned in the output. 
- x0array_like, optional
- The initial conditions on the state vector (zero by default). 
 
- systemtuple of array_like or instance of 
- Returns:
- toutndarray
- Time values for the output, as a 1-D array. 
- youtndarray
- System response, as a 1-D array. 
- xoutndarray, optional
- Time-evolution of the state-vector. Only generated if the input is a - StateSpacesystem.
 
 - See also - Examples - A simple integrator transfer function with a discrete time step of 1.0 could be implemented as: - >>> import numpy as np >>> from scipy import signal >>> tf = ([1.0,], [1.0, -1.0], 1.0) >>> t_in = [0.0, 1.0, 2.0, 3.0] >>> u = np.asarray([0.0, 0.0, 1.0, 1.0]) >>> t_out, y = signal.dlsim(tf, u, t=t_in) >>> y.T array([[ 0., 0., 0., 1.]])