Uses of Interface
com.irurueta.navigation.inertial.calibration.gyroscope.UnknownBiasGyroscopeCalibrator
Packages that use UnknownBiasGyroscopeCalibrator
Package
Description
Contains classes for gyroscope calibration.
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Uses of UnknownBiasGyroscopeCalibrator in com.irurueta.navigation.inertial.calibration.gyroscope
Subinterfaces of UnknownBiasGyroscopeCalibrator in com.irurueta.navigation.inertial.calibration.gyroscopeModifier and TypeInterfaceDescriptioninterfaceKnownFrameGyroscopeCalibrator<T extends FrameBodyKinematics,L extends KnownFrameGyroscopeCalibratorListener<?>> Interface defining gyroscope calibrators to estimate biases, cross coupling and scaling factors and g-dependant cross biases.interfaceInterface for non-linear gyroscope calibrator where bias is unknown and needs to be estimated.Classes in com.irurueta.navigation.inertial.calibration.gyroscope that implement UnknownBiasGyroscopeCalibratorModifier and TypeClassDescriptionclassEstimates gyroscope biases, cross couplings, scaling factors and G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer.classEstimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer.classEstimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using LMedS robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using an LMedS algorithm to discard outliers.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using LMedS robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using MSAC robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using a MSAC algorithm to discard outliers.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using MSAC robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using PROMedS robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using a PROMedS algorithm to discard outliers.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using PROMedS robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using PROSAC robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using a PROSAC algorithm to discard outliers.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using PROSAC robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using RANSAC robust estimator.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using a RANSAC algorithm to discard outliers.classRobustly estimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer using RANSAC robust estimator.classThis is an abstract class to robustly estimate gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer.classThis is an abstract class to robustly estimate gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer.classThis is an abstract class to robustly estimate gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer.classEstimates gyroscope biases, cross couplings and scaling factors along with G-dependent cross biases introduced on the gyroscope by the specific forces sensed by the accelerometer.