Distribution and filtering on SO(3) x Euclidean space
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angular velocity noise parameters
- parameters.omegaNoise.randomWalk: random walk noise for angular velocity
- parameters.omegaNoise.biasInstability: bias random walk noise for angular velocity
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measurement noise parameters
- parameters.meaNoise
- A 3-by-3 matrix if meaIsVec==false, representing the covariance for attitude uncertainty (GaussMea==true), or S for attitude uncertainty (GaussMea==false).
- A nVecRef-by-1 vector if meaIsVec==true, representing the variance for isotropic vector measurement uncertainty (GaussMea==true), or kappa for unit vector uncertainty (GaussMea==false).
- parameters.meaNoise
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other settings
- parameters.setting.omegaLocal: true if angular velocity is measured in body-fixed frame; false if angular velocity is measured in inertial frame.
- parameters.setting.GaussMea: true if the measurement noise is Gaussian; false if the measurement noise is matrix Fisher (meaIsVec==false) or von Mises Fisher (meaIsVec==true).
- parameters.setting.meaIsVec: true if measurements are vectors; false if measurement is attitude.
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vector measurement settings
- parameters.setting.vecRefInertial: true if reference vector is in inertial frame; false if reference vector is in body-fixed frame.
- parameters.setting.nVecRef: number of reference vectors.
- parameters.setting.vRef: reference vectors, a 3*nVecRef-by-1 vector.
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attitude measurement settings
- parameters.setting.attMeaLocal: true if the noise is in the body-fixed frame; false if the noise is in inertial frame.
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initialization settings
- parameters.initValue.Miu: initial bias, which is to be substracted.
- parameters.initValue.U
- parameters.initValue.V
- parameters.initValue.xNoise: covariance for the initial bias
- parameters.initValue.RNoise: covariance for initial attitude (GaussMea==true), or S for initial attitude (GaussMea==false).