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Unscented Kalman Filter

Published byMartha Bradford Modified over 6 years ago

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Presentation on theme: "Unscented Kalman Filter"— Presentation transcript:

1 Unscented Kalman Filter

2 Linearization via Unscented Transform
EKF UKF

3 Unscented Transform intuition: it should be easier to approximate a given distribution than it is to approximate an arbitrary non-linear function it is easy to transform a point through a non-linear function use a set of points that capture the mean and covariance of the distribution, transform the points through the non-linear function, then compute the (weighted) mean and covariance of the transformed points

4 Unscented Transform

5 Unscented Transform

6 UKF Sigma-Point Estimate (2)
EKF UKF

7 UKF Sigma-Point Estimate (3)
EKF UKF

8 UKF Sigma-Point Estimate (4)

9 Unscented Transform for an n-dimensional Gaussian with mean μ and covariance Σ , the unscented transform uses 2n+1 sigma points (and associated weights) Sigma points Weights

10 Unscented Transform choose κ ≥ 0 to guarantee a “reasonable” covariance matrix value is not critical, so choose κ = 0 by default choose 0 ≤ α ≤ 1 controls the spread of the sigma point distribution; should be small when nonlinearities are strong choose β ≥ 0 β = 2 is optimal if distribution is Gaussian

11 Unscented Transform Pass sigma points through nonlinear function
Recover mean and covariance

12 UKF_localization ( mt-1, St-1, ut, zt, m):
Prediction: Motion noise Measurement noise Augmented state mean Augmented covariance Sigma points Prediction of sigma points Predicted mean Predicted covariance

13 UKF_localization ( mt-1, St-1, ut, zt, m):
Correction: Measurement sigma points Predicted measurement mean Pred. measurement covariance Cross-covariance Kalman gain Updated mean Updated covariance

14 UKF Prediction Step

15 UKF Observation Prediction Step

16 UKF Correction Step

17 Estimation Sequence EKF PF UKF

18 Estimation Sequence EKF UKF

19 Prediction Quality velocity_motion_model EKF UKF

20 UKF Summary Highly efficient: Same complexity as EKF, with a constant factor slower in typical practical applications Better linearization than EKF: Accurate in first two terms of Taylor expansion (EKF only first term) Derivative-free: No Jacobians needed Still not optimal!

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