This paper presents a nonlinear numerical observer for accurate position, velocity and attitude (PVA) estimation including the accelerometer bias and gyro bias estimation. The Moving Horizon Observer (MHO) processes the accelerometer, gyroscope and magnetometer measurements from the Inertial Measurement Unit (IMU) and the position and velocity measurements from the Global Navigation Satellite System (GNSS). The nonlinear measurement equations with the rotation matrix, expressed through the quaternion parametrization, in combination with the state-space rigid body kinematic model of translational and rotational motion is the subject of optimization defined on a receding data window. The gradient-based trust-region method is applied to solve ...
A sequential filtering algorithm is presented for attitude and attitude-rate estimation from Global ...
This chapter presents a complete development of a complementary filter-based attitude estimation sch...
In this paper, exponentially stable nonlinear observers for the estimation of position, velocity, sp...
In order to efficiently control an unmanned vehicle, knowledge about the position, velocity and atti...
This thesis is motivated by recent interest in nonlinear observers for navigation. The field of navi...
The rise of autonomous systems operating close to humans imposes new challenges in terms of robustne...
Inertial sensors are used in an increasing number of autonomous applications. Integrating such senso...
The design of high–performance state estimators for future autonomous vehicles constitutes a challen...
180 pages : color illustrationsPolyU Library Call No.: [THS] LG51 .H577P LSGI 2017 YangCOne of the k...
This chapter is the study of state estimators for robust navigation. Navigation of vehicles is a vas...
A sigma-point Kalman filter is derived for integrating GPS measurements with inertial measurements f...
In this paper a nonlinear observer for estimation of position, velocity, acceleration, attitude and ...
In this paper, a new and efficient algorithm is developed for attitude determination from Global Pos...
The aim of this work is to develop a Global Navigation Satellite System (GNSS) and Inertial Measurem...
The literature since Apollo contains exhaustive material on attitude filtering, usually treating the...
A sequential filtering algorithm is presented for attitude and attitude-rate estimation from Global ...
This chapter presents a complete development of a complementary filter-based attitude estimation sch...
In this paper, exponentially stable nonlinear observers for the estimation of position, velocity, sp...
In order to efficiently control an unmanned vehicle, knowledge about the position, velocity and atti...
This thesis is motivated by recent interest in nonlinear observers for navigation. The field of navi...
The rise of autonomous systems operating close to humans imposes new challenges in terms of robustne...
Inertial sensors are used in an increasing number of autonomous applications. Integrating such senso...
The design of high–performance state estimators for future autonomous vehicles constitutes a challen...
180 pages : color illustrationsPolyU Library Call No.: [THS] LG51 .H577P LSGI 2017 YangCOne of the k...
This chapter is the study of state estimators for robust navigation. Navigation of vehicles is a vas...
A sigma-point Kalman filter is derived for integrating GPS measurements with inertial measurements f...
In this paper a nonlinear observer for estimation of position, velocity, acceleration, attitude and ...
In this paper, a new and efficient algorithm is developed for attitude determination from Global Pos...
The aim of this work is to develop a Global Navigation Satellite System (GNSS) and Inertial Measurem...
The literature since Apollo contains exhaustive material on attitude filtering, usually treating the...
A sequential filtering algorithm is presented for attitude and attitude-rate estimation from Global ...
This chapter presents a complete development of a complementary filter-based attitude estimation sch...
In this paper, exponentially stable nonlinear observers for the estimation of position, velocity, sp...