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54 lines
1.5 KiB
54 lines
1.5 KiB
import numpy as np
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def get_kalman_gain(dt, A, C, Q, R, iterations=100):
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P = np.zeros_like(Q)
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for _ in range(iterations):
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P = A.dot(P).dot(A.T) + dt * Q
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S = C.dot(P).dot(C.T) + R
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K = P.dot(C.T).dot(np.linalg.inv(S))
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P = (np.eye(len(P)) - K.dot(C)).dot(P)
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return K
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class KF1D:
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# this EKF assumes constant covariance matrix, so calculations are much simpler
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# the Kalman gain also needs to be precomputed using the control module
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def __init__(self, x0, A, C, K):
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self.x0_0 = x0[0][0]
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self.x1_0 = x0[1][0]
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self.A0_0 = A[0][0]
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self.A0_1 = A[0][1]
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self.A1_0 = A[1][0]
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self.A1_1 = A[1][1]
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self.C0_0 = C[0]
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self.C0_1 = C[1]
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self.K0_0 = K[0][0]
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self.K1_0 = K[1][0]
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self.A_K_0 = self.A0_0 - self.K0_0 * self.C0_0
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self.A_K_1 = self.A0_1 - self.K0_0 * self.C0_1
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self.A_K_2 = self.A1_0 - self.K1_0 * self.C0_0
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self.A_K_3 = self.A1_1 - self.K1_0 * self.C0_1
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# K matrix needs to be pre-computed as follow:
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# import control
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# (x, l, K) = control.dare(np.transpose(self.A), np.transpose(self.C), Q, R)
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# self.K = np.transpose(K)
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def update(self, meas):
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#self.x = np.dot(self.A_K, self.x) + np.dot(self.K, meas)
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x0_0 = self.A_K_0 * self.x0_0 + self.A_K_1 * self.x1_0 + self.K0_0 * meas
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x1_0 = self.A_K_2 * self.x0_0 + self.A_K_3 * self.x1_0 + self.K1_0 * meas
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self.x0_0 = x0_0
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self.x1_0 = x1_0
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return [self.x0_0, self.x1_0]
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@property
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def x(self):
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return [[self.x0_0], [self.x1_0]]
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def set_x(self, x):
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self.x0_0 = x[0][0]
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self.x1_0 = x[1][0]
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