Example #1
0
 def __init__(self, maxAA, accelSpeed):
     at_pid = PID2(0, 0, 0, -1, 1)
     av_pid = PID2(0, 0, 0, -3, 3)
     engine = Engine(self.maxThrust, accelSpeed, accelSpeed * 2)
     self.atc = ATC(engine, self.lever,
                    self.maxThrust * self.lever / maxAA * 2, at_pid,
                    av_pid, 0.8)
Example #2
0
 def simAA(error,
           maxAA,
           engine,
           base_thrust,
           wheels_ratio,
           error_rate=0,
           error_time=0):
     at_pid = PID2(1, 0.0, 1, 0, np.pi * 10)
     av_pid = PID3(1, 0.0, 1, -1, 1, 3 * dt)
     if wheels_ratio < 1:
         MoI = engine.maxThrust * lever * 2 / maxAA / (
             1 - wheels_ratio) * base_thrust
         wheels_torque = maxAA * wheels_ratio * MoI
     else:
         base_thrust = 0
         wheels_torque = engine.maxThrust * lever * 2
         MoI = wheels_torque / maxAA
     atc = ATC(engine, lever, MoI, at_pid, av_pid, base_thrust,
               tune_steering, wheels_torque)
     if error_rate > 0:
         if error_time > 0:
             return atc.simulate_random_attitude(error, error_rate,
                                                 error_time,
                                                 clampL(error * 2, 60))
         return atc.simulate_linear_attitude(error, error_rate,
                                             clampL(error * 2, 60))
     return atc.simulate_static_attitude(error, clampL(error * 2, 60))
Example #3
0
def sim_PID():
    np.random.seed(42)

    def rSV(val, delta):
        return max(0, min(100,
                          val + (delta * np.random.random() - delta / 2.0)))

    t1 = 10.0
    PV = 10.0
    SV = [rSV(50, 100)]
    T = np.arange(0, t1, PID.dt)
    sSV = SV[-1]
    for _t in T[1:]:
        r = np.random.random()
        if r < 0.98:
            SV.append(SV[-1])
            continue
        sSV = rSV(sSV, 50)
        SV.append(sSV)

    pid1 = PID(0.8, 0.2, 0.001, -10, 10)
    pid2 = PID2(0.8, 0.2, 0.001, -10, 10)

    pid1.sim(PV, SV, T)
    pid2.sim(PV, SV, T)
    plt.show()
Example #4
0
def sim_Altitude():
    #     vs = loadCSV('VS-filtering-26.csv', ('AbsAlt', 'TerAlt', 'Alt', 'AltAhead', 'Err', 'VSP', 'aV', 'rV', 'dV'))
    # #     ter = vs.TerAlt[-10:10:-1]
    #     vs = vs[vs.Alt > 3]
    #     ter = vs.TerAlt[17000:22000]

    sim1 = VSF_sim(AS=0.12, DS=0.5)
    sim1.t1 = 60.0
    thrust = [100]  # np.arange(100, 300, 50)

    def run_sim(c, n, A, sA, pid):
        for t in thrust:
            sim1.run_alt(A, sA, thrust=t, pid=pid)
            i = 0;
            r = 7
            sim1.plot_alt(r, c, c * i + n)
            i += 1
            sim1.plot_ter(r, c, c * i + n)
            i += 1
            sim1.plot_ralt(r, c, c * i + n)
            i += 1
            sim1.plot_vs(r, c, c * i + n)
            i += 1
            sim1.plot_vsp(r, c, c * i + n)
            i += 1
            sim1.plot_dvsp(r, c, c * i + n)
            i += 1
            sim1.plot_k(r, c, c * i + n)
            i += 1
            sim1.describe()
        #     run_sim(2,1, 100.0, pid)

    run_sim(2, 1, 50.0, 0.0, PID2(0.3, 0.0, 0.3, -9.9, 9.9))
    run_sim(2, 2, 50.0, 105.0, PID2(0.3, 0.0, 0.3, -9.9, 9.9))
    #    run_sim(4,3, -alt/10.0, pid)
    #    run_sim(4,4, -alt, pid)
    sim1.legend()
    plt_show_maxed()
 def simAA(error, maxAA, error_rate=0, error_time=0):
     at_pid = PID2(1, 0, 0, 0, np.pi * 10)
     av_pid = PID3(1, 0.1, 0, -1, 1, 3 * dt)
     wheels_torque = maxAA
     MoI = 1
     atc = BRC(wheels_torque, MoI, at_pid, av_pid, tune_steering)
     if error_rate > 0:
         if error_time > 0:
             return atc.simulate_random_attitude(error, error_rate,
                                                 error_time,
                                                 clampL(error * 2, 60))
         return atc.simulate_linear_attitude(error, error_rate,
                                             clampL(error * 2, 60))
     return atc.simulate_static_attitude(error, clampL(error * 2, 60))
Example #6
0
        gamedir = u'/home/storage/Games/KSP_linux/PluginsArchives/Development/AT_KSP_Plugins/KSP-test/'
        game = u'KSP_test_1.2.1'
        gamedata = u'GameData'

        def gamefile(filename):
            return os.path.join(gamedir, game, filename)

        def datafile(filename):
            return os.path.join(gamedir, game, gamedata, filename)

        wheesly = Engine.from_file(
            datafile('Squad/Parts/Engine/jetEngines/jetEngineBasic.cfg'))
        wiplash = Engine.from_file(
            datafile('Squad/Parts/Engine/jetEngines/jetEngineTurbo.cfg'))

        at_pid = PID2(2, 0.0, 0.1, -1, 1)
        av_pid = PID2(1, 0.0, 1.1, -3, 3)

        def square_lever(lever):
            return np.sqrt(lever[0]**2 + lever[1]**2)

        # Jet Hangar Test.AttitudeControl:
        # MoI: (747.4614, 83.5321, 789.1782); | v | = 1090.174
        # lever: (-1.83199, 3.203556, 3.024457); | v | = 4.771405
        # maxThrust: 130,
        # lever: (1.836533, 3.203599, 3.021605); | v | = 4.771372
        # maxThrust: 130,
        # lever: (-1.830195, -3.227458, 3.020665); | v | = 4.784403
        # maxThrust: 130,
        # lever: (1.836236, -3.225128, 3.017829); | v | = 4.783357
        # maxThrust: 130