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@ -572,7 +572,7 @@ def smoothn(data, s=None, weight=None, robust=False, z0=None, tolz=1e-3,
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def gcv(p, aow, Lambda, DCTy, y, Wtot, IsFinite, nof, noe):
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# Search the smoothing parameter s that minimizes the GCV score
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s = 10 ** p
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s = 10.0 ** p
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Gamma = 1.0 / (1 + s * Lambda ** 2)
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# RSS = Residual sum-of-squares
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if aow > 0.9: # aow = 1 means that all of the data are equally weighted
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@ -589,7 +589,6 @@ def gcv(p, aow, Lambda, DCTy, y, Wtot, IsFinite, nof, noe):
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return GCVscore
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# Robust weights
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def RobustWeights(r, I, h, wstr):
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# weights for robust smoothing.
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MAD = np.median(abs(r[I] - np.median(r[I]))) # median absolute deviation
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@ -882,7 +881,7 @@ class Kalman(object):
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self.x = x # Initial state estimate.
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self.P = P # Initial covariance estimate.
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self.A = A # State transition matrix.
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self.B = B # Control matrix.
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self.B = B # Control matrix.
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self.Q = Q # Estimated error in process.
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self.H = H # Observation matrix.
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self.reset()
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@ -890,38 +889,55 @@ class Kalman(object):
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def reset(self):
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self._filter = self._filter_first
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def _filter_first(self, z, u):
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self._filter = self._filter_main
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auto_init = self.x is None
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if auto_init:
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n = np.size(z)
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else:
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n = np.size(self.x)
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def _set_A(self, n):
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if self.A is None:
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self.A = np.eye(n)
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self.A = np.atleast_2d(self.A)
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def _set_Q(self, n):
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if self.Q is None:
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self.Q = np.zeros((n, n))
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self.Q = np.atleast_2d(self.Q)
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def _set_H(self, n):
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if self.H is None:
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self.H = np.eye(n)
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self.H = np.atleast_2d(self.H)
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def _set_P(self, HI):
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if self.P is None:
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self.P = np.dot(np.dot(HI, self.R), HI.T)
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self.P = np.atleast_2d(self.P)
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def _init_first(self, n):
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self._set_A(n)
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self._set_Q(n)
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self._set_H(n)
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try:
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HI = np.linalg.inv(self.H)
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except:
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HI = np.eye(n)
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if self.P is None:
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self.P = np.dot(np.dot(HI, self.R), HI.T)
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self._set_P(HI)
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return HI
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self.P = np.atleast_2d(self.P)
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if auto_init:
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# initialize state estimate from first observation
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self.x = np.dot(HI, z)
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def _first_state(self, z):
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n = np.size(z)
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HI = self._init_first(n)
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# initialize state estimate from first observation
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x = np.dot(HI, z)
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return x
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def _filter_first(self, z, u):
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self._filter = self._filter_main
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if self.x is None:
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self.x = self._first_state(z)
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return self.x
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else:
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return self._filter_main(z, u)
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n = np.size(self.x)
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self._init_first(n)
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return self._filter_main(z, u)
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def _predict_state(self, x, u):
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return np.dot(self.A, x) + np.dot(self.B, u)
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@ -1043,12 +1059,12 @@ def lti_disc(F, L=None, Q=None, dt=1):
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def test_kalman_sine():
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"""Kalman Filter demonstration with sine signal."""
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sd = 1.
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sd = 0.5
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dt = 0.1
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w = 1
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T = np.arange(0, 30 + dt / 2, dt)
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n = len(T)
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X = np.sin(w * T)
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X = 3*np.sin(w * T)
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Y = X + sd * np.random.randn(n)
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''' Initialize KF to values
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@ -1091,7 +1107,7 @@ def test_kalman_sine():
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_ht = plt.plot(truth, 'g-', label='true voltage')
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plt.legend()
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plt.title('Automobile Voltimeter Example')
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plt.show()
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plt.show('hold')
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# for k in range(m):
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# [M,P] = kf_predict(M,P,A,Q);
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@ -1274,6 +1290,22 @@ class HampelFilter(object):
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ADX = dx * np.ones(Y.shape)
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return Y0, S0, ADX
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def _fixed(self, Y, X, dx):
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localwindow = self.localwindow
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Y0, S0, ADX = self._init(Y, dx)
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for i in range(len(Y)):
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Y0[i], S0[i] = localwindow(X, Y, dx, i)
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return Y0, S0, ADX
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def _filter(self, Y, X, dx):
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if len(X) <= 1:
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Y0, S0, ADX = self._init(Y, dx)
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elif self.adaptive is None:
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Y0, S0, ADX = self._fixed(Y, X, dx)
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else:
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Y0, S0, ADX = self._adaptive(Y, X, dx) # 'adaptive'
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return Y0, S0, ADX
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def __call__(self, y, x=None):
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Y = np.atleast_1d(y).ravel()
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if x is None:
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@ -1283,21 +1315,14 @@ class HampelFilter(object):
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dx = 3 * np.median(np.diff(X)) if self.dx is None else self.dx
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self._check(dx)
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if len(X) > 1:
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if self.adaptive is None:
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localwindow = self.localwindow
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Y0, S0, ADX = self._init(Y, dx)
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for i in range(len(Y)):
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Y0[i], S0[i] = localwindow(X, Y, dx, i)
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else: # 'adaptive'
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Y0, S0, ADX = self._adaptive(Y, X, dx)
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Y0, S0, ADX = self._filter(Y, X, dx)
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YY = Y.copy()
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T = self.t
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# Prepare Output
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self.UB = Y0 + T * S0
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self.LB = Y0 - T * S0
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outliers = np.abs(Y - Y0) > T * S0 # possible outliers
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YY[outliers] = Y0[outliers]
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np.putmask(YY, outliers, Y0) # YY[outliers] = Y0[outliers]
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self.outliers = outliers
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self.num_outliers = outliers.sum()
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self.ADX = ADX
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@ -1308,7 +1333,7 @@ class HampelFilter(object):
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return YY
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def test_hampel():
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def demo_hampel():
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randint = np.random.randint
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Y = 5000 + np.random.randn(1000)
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outliers = randint(0, 1000, size=(10,))
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@ -1450,12 +1475,12 @@ def test_docstrings():
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doctest.testmod(optionflags=doctest.NORMALIZE_WHITESPACE)
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if __name__ == '__main__':
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test_docstrings()
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# test_kalman_sine()
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# test_docstrings()
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test_kalman_sine()
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# test_tide_filter()
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# test_hampel()
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# demo_hampel()
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# test_kalman()
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# test_smooth()
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# test_hodrick_cardioid()
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test_smoothn_1d()
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# test_smoothn_1d()
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# test_smoothn_cardioid()
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