In robot inertial navigation systems, to deal with the problems of drift and noise in the gyroscope and accelerometer and the high computational cost when using extended Kalman filter (EKF) and particle filter (PF), a complementary filtering algorithm is utilized. By combining the Inertial Measurement Unit (IMU) multi-sensor signals, the attitude data are corrected, and the high-precision attitude angles are obtained. In this paper, the quaternion algorithm is used to describe the attitude motion, and the process of attitude estimation is analyzed in detail. Moreover, the models of the sensor and system are given. Ultimately, the attitude angles are estimated by using the quaternion extended Kalman filter, linear complementary filter, and M...
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
Attitude estimation plays a major role in the autonomy of unmanned aerial vehicles and requires fusi...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
This thesis is concerned with attitude estimation of small flying robots using low cost, small-sized...
International audienceFocusing on generalized sensor combinations, this paper deals with attitude es...
This chapter presents a complete development of a complementary filter-based attitude estimation sch...
The paper introduces the attitude estimation and compensation in odometric localization of a differe...
This paper extents the by now classic sensor fusion complementary filter (CF) design, involving two ...
As a mobile robot navigates through an indoor environment, the condition of the floor is of low (or ...
We present an application of a complementary filter system to the attitude determination of a remote...
A low-cost solid-state inertial navigation system. (INS) for mobile robotics applications is describ...
This paper proposes a sensor fusion algorithm by complementary filter technique for attitude estimat...
Obtaining precise attitude information is essential for aircraft navigation and control. This paper ...
Abstract — This paper presents a viable quaternion-based Adaptive Kalman Filter (q-AKF) that is desi...
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
Attitude estimation plays a major role in the autonomy of unmanned aerial vehicles and requires fusi...
Accurate and real-time tracking of the orientation or attitude of rigid bodies has traditional appli...
This thesis is concerned with attitude estimation of small flying robots using low cost, small-sized...
International audienceFocusing on generalized sensor combinations, this paper deals with attitude es...
This chapter presents a complete development of a complementary filter-based attitude estimation sch...
The paper introduces the attitude estimation and compensation in odometric localization of a differe...
This paper extents the by now classic sensor fusion complementary filter (CF) design, involving two ...
As a mobile robot navigates through an indoor environment, the condition of the floor is of low (or ...
We present an application of a complementary filter system to the attitude determination of a remote...
A low-cost solid-state inertial navigation system. (INS) for mobile robotics applications is describ...
This paper proposes a sensor fusion algorithm by complementary filter technique for attitude estimat...
Obtaining precise attitude information is essential for aircraft navigation and control. This paper ...
Abstract — This paper presents a viable quaternion-based Adaptive Kalman Filter (q-AKF) that is desi...
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
[[abstract]]Obtaining precise attitude information is essential for aircraft navigation and control....
Attitude estimation plays a major role in the autonomy of unmanned aerial vehicles and requires fusi...