Exemplo n.º 1
0
def test_sdof_pid():
    """Check PID controller outputs"""
    tf = 2  # simulation time
    npts = 500  # simulation samples
    tau = 1E-2  # time constant of derivative filter

    # Create system/controller and run simulation
    sys = FirstOrder(1)
    ctl = PIDController([[3]], [[2]], [[0.6]], dv_tau=tau)
    clsys = ctl + sys
    sim = clsys.compute_trajectory(0, r=step(1), tf=tf, n=npts)

    # error
    e = (sim.r - sim.y)[:, 0]

    # integral of error
    e_int = integrate.cumtrapz(e, sim.t, initial=0)

    # filtered derivative of error
    e_fd = filtered_deriv(e, sim.t, tau)

    # Check controller output
    ctl_ref = (e * ctl.KP + e_int * ctl.KI + e_fd * ctl.KD).reshape((sim.n, ))

    assert np.allclose(sim.u[:, 0], ctl_ref, atol=0, rtol=1E-2)
Exemplo n.º 2
0
def test_check_and_normalize():
    # Check normalization of scalars to 2D array
    ctl = PIDController(1, 1, 1)
    for arr in [ctl.KP, ctl.KI, ctl.KD]:
        assert arr.ndim == 2
        assert arr.shape == (1, 1)
        assert arr[0, 0] == 1

    # Check normalization of 1D array to 2D array
    vals = [1, 2, 3]
    ctl = PIDController(vals, vals, vals)
    for arr in [ctl.KP, ctl.KI, ctl.KD]:
        assert arr.ndim == 2
        assert arr.shape == (1, 3)
        assert np.all(vals == arr)

    # Check that 2D arrays should be unchanged
    vals = np.ones((3, 4)) * 2.3
    ctl = PIDController(vals, vals, vals)
    for arr in [ctl.KP, ctl.KI, ctl.KD]:
        assert arr.ndim == 2
        assert arr.shape == vals.shape
        assert np.all(vals == arr)

    # Check default zero values for KI and KD
    for testval in [1, [1, 2, 3], np.ones((8, 10))]:
        ctl = PIDController(testval)
        for arr in [ctl.KI, ctl.KD]:
            assert arr.shape == ctl.KP.shape
            assert np.all(arr == np.zeros(ctl.KP.shape))

    with pytest.raises(ValueError):
        ctl = PIDController(1, KI=np.ones(2))
    with pytest.raises(ValueError):
        ctl = PIDController(1, KD=np.ones(2))
    with pytest.raises(ValueError):
        ctl = PIDController(np.ones((2, 3)), KI=np.ones((3, 2)))
    with pytest.raises(ValueError):
        ctl = PIDController(np.ones((2, 3)), KD=np.ones((3, 2)))
Exemplo n.º 3
0
def test_nd_pid():
    tf = 2
    npts = 500
    tau = 1E-2

    class DummyManipulator(TwoLinkManipulator):
        """Manipulator with null response to inputs"""
        def __init__(self):
            super().__init__()
            self.p = 2

        def B(self, q):
            return np.zeros(self.dof)

        def h(self, x, u, t):
            """Read joint positions"""
            return x[:2]

    sys = DummyManipulator()
    ctl = PIDController(KP=np.ones((2, 2)),
                        KI=np.ones((2, 2)),
                        KD=np.ones((2, 2)),
                        dv_tau=tau)
    clsys = ctl + sys

    x0 = [np.pi - 0.5, np.pi / 2, 0, 0]
    sim = clsys.compute_trajectory(x0=x0, tf=tf, n=npts)

    errors = sim.r - sim.y

    e_int = integrate.cumtrapz(errors, sim.t, axis=0, initial=0)

    e_der = np.empty(errors.shape)
    for j in range(errors.shape[1]):
        e_der[:, j] = filtered_deriv(errors[:, j], sim.t, tau=tau)

    ctl_ref = errors.dot(ctl.KP.T) + e_int.dot(ctl.KI.T) + e_der.dot(ctl.KD.T)

    assert np.allclose(sim.u, ctl_ref, atol=0.05)
Exemplo n.º 4
0
# -*- coding: utf-8 -*-
"""
Created on Jun 2 2021
@author: Alex
"""
import numpy as np
from pyro.dynamic import massspringdamper
from pyro.control.linear import PIDController
# Plant
sys = massspringdamper.TwoMass(output_mass=1)
sys.m1 = 1
sys.m2 = 1
sys.k1 = 1
sys.k2 = 1
sys.b1 = 0.5
sys.b2 = 0.5
sys.compute_ABCD()
# LQR controller
kp = 1
ki = 1
kd = 1
tau = 0.1
ctl = PIDController(kp, ki, kd, tau)
ctl.rbar[0] = 2  # reference
# Simulation Closed-Loop Non-linear with LQR controller
cl_sys = ctl + sys
cl_sys.compute_trajectory(30)
cl_sys.plot_trajectory('y')
cl_sys.animate_simulation()
Exemplo n.º 5
0
# -*- coding: utf-8 -*-
"""
Created on Jun 2 2021
@author: Alex
"""
import numpy as np
from pyro.dynamic               import massspringdamper
from pyro.control.linear        import PIDController

# Plant
sys = massspringdamper.TwoMass()
sys.m1 = 2
sys.m2 = 3
sys.k1 = 5
sys.k2 = 2
sys.b1 = 0.1
sys.b2 = 0.2
sys.compute_ABCD()

# LQR controller
kp  = 5
ki  = 0
kd  = 2
tau = 0.1
ctl = PIDController(kp, ki, kd, tau)
# Simulation Closed-Loop Non-linear with LQR controller
cl_sys = ctl + sys
cl_sys.x0[1] = 1
cl_sys.compute_trajectory()
cl_sys.plot_trajectory('xu')
Exemplo n.º 6
0
# -*- coding: utf-8 -*-
"""
Created on Jun 2 2021
@author: Alex
"""
from pyro.dynamic import massspringdamper
from pyro.control.linear import PIDController
# Plant
sys = massspringdamper.FloatingThreeMass(output_mass=1)
sys.m1 = 1
sys.m2 = 1
sys.m3 = 1
sys.k2 = 3
sys.k3 = 3
sys.b2 = 1
sys.compute_ABCD()
# PID controller
kp = 2
ki = 0
kd = 0
tau = 0.01
ctl = PIDController(kp, ki, kd, tau)
ctl.rbar[0] = 2  # reference
# Simulation Closed-Loop Non-linear with LQR controller
cl_sys = ctl + sys
cl_sys.compute_trajectory(30)
cl_sys.plot_trajectory('y')
cl_sys.animate_simulation()