Nonlinear Complementary Filters on the Special Orthogonal Group

Mahony, Robert; Hamel, Tarek; Pflimlin, Jean Michel

doi:10.1109/tac.2008.923738

Cited by 1,508 publications

(1,313 citation statements)

References 37 publications

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“…This is important since f n = −g n due to wave excitation of the vessel. The attitude observer, Σ 1 , by Grip et al [22], developed from [23], is given as…”

Section: Estimating the Total Vessel Motion And The Gyro Biasmentioning

confidence: 99%

Design of inertial navigation systems for marine craft with adaptive wave filtering aided by triple‐redundant sensor packages

Bryne

Fossen

Johansen

2015

Adaptive Control & Signal

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SUMMARYMarine craft feedback control systems typically require estimates of position, velocity and heading where the wave-induced motions should be suppressed. This paper presents a strapdown inertial navigation system with adaptive wave filtering. Wave filtering based on inertial navigation systems differ from previous vesselmodel-based designs which require knowledge of vessel parameters and mathematical models for estimation of thruster and wind forces and moments based on auxiliary sensors. The origin of the inertial navigation system error states is proven to be uniformly semiglobally exponentially stable (USGES). The wave-filtering scheme uses the estimated states of the inertial navigation system to separate the low-frequency motion of the craft from the wave-frequency motions. The observer structure also allows for estimation of the timevarying encounter frequency by using a signal-based frequency tracker or an adaptive observer. Finally, the structural properties of the triple-redundant sensors packages have been utilized to obtain optimal and robust sensor fusion with respect to sensor performance and faults.

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“…This is important since f n = −g n due to wave excitation of the vessel. The attitude observer, Σ 1 , by Grip et al [22], developed from [23], is given as…”

Section: Estimating the Total Vessel Motion And The Gyro Biasmentioning

confidence: 99%

Design of inertial navigation systems for marine craft with adaptive wave filtering aided by triple‐redundant sensor packages

Bryne

Fossen

Johansen

2015

Adaptive Control & Signal

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“…Hua [16] used the vector-based attitude observer of Hamel and Mahony [17] and Mahony, Hamel, and Pflimlin [8] as the basis for an attitude and velocity observer that depends only on inertial measurements, GNSS velocity measurements, and magnetometer measurements. Hua's observer exploits the fact that the vehicle's acceleration vector in the navigation frame is implicitly available in the derivative of the GNSS velocity.…”

Section: A Nonlinear Observers For Gnss/ins Integrationmentioning

confidence: 99%

Nonlinear observer for GNSS-aided inertial navigation with quaternion-based attitude estimation

Grip

Fossen

Johansen

et al. 2013

2013 American Control Conference

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Abstract-For applications with limited computational capacity, observers designed based on nonlinear stability theory offer an alternative to computationally demanding extended Kalman filters. In this paper, we present a semiglobally stable nonlinear observer for estimating position, velocity, attitude, and gyro bias by combining a GNSS receiver with an inertial measurement unit including a magnetometer. Previous work by the authors on this topic was based on local navigation equations that ignored the Earth's rotation and curvature. Moreover, the attitude was represented by an over-parameterized 9-degrees-of-freedom matrix. The current paper improves on these aspects by using navigation equations that take the Earth's rotation and curvature into account, and by representing the attitude estimate as a unit quaternion. Furthermore, the observer is tested experimentally on data from a light fixedwing aircraft.

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“…For this purpose we use the Complementary filter (CF) [13], which integrates the gyroscopic measurements ω and corrects them with measurements of known directions v i . The state of the filter consists of the attitude represented by a unit quaternionq and a vector of additive gyroscope biasesb g .…”

Section: Attitude Estimation With the Complementary Filtermentioning

confidence: 99%

“…To overcome this problem, EKFs using the Inertia Measurement Unit (IMU) directly in the prediction step were proposed [12]. Focussing only on the attitude estimation based on an IMU, Mahony et al [13] introduced the concept of the Complementary filter (CF) and demonstrated its performance on a micro aerial vehicle. This variety of solutions require a deeper investigation on how the IMU should be used in an EKF.…”

Section: Introductionmentioning

confidence: 99%

State Estimation for Shore Monitoring Using an Autonomous Surface Vessel

Hitz

Pomerleau

Colas

et al. 2015

Experimental Robotics

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Abstract. Although many applications of small Autonomous Surface Vessels rely on two-dimensional state estimation, inspection tasks based on long-range sensors require more accurate attitude estimates. In the context of shoreline monitoring relying on a nodding laser scanner, we evaluate three different extended Kalman filter approaches with respect to an accurate ground truth in the range of millimeters. Our experimental setup allowed us to track the impact of sensors noise, including GPS non-Gaussian error, a phenomenon often underestimated. Extensive field experiments demonstrate that the use of a complementary filter in combination with a model-based extended Kalman filter performed best and reduced velocity errors by 73% compared to GPS. Finally, following our state estimation observations, we present a long-term shore monitoring result highlighting changes in the environment over a period of 6 months.

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Nonlinear Complementary Filters on the Special Orthogonal Group

Cited by 1,508 publications

References 37 publications

Design of inertial navigation systems for marine craft with adaptive wave filtering aided by triple‐redundant sensor packages

Design of inertial navigation systems for marine craft with adaptive wave filtering aided by triple‐redundant sensor packages

Nonlinear observer for GNSS-aided inertial navigation with quaternion-based attitude estimation

State Estimation for Shore Monitoring Using an Autonomous Surface Vessel

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