Rigid body localization refers to a problem of estimating the position of a rigid body along with its orientation using anchors. We consider a setup in which a few sensors are mounted on a rigid body. The absolute position of the rigid body is not known, but, the relative po-sition of the sensors or the topology of the sensors on the rigid body is known. We express the absolute position of the sensors as an affine function of the Stiefel manifold and propose a simple least-squares (LS) estimator as well as a constrained total least-squares (CTLS) estimator to jointly estimate the orientation and the position of the rigid body. To account for the perturbations of the sensors, we also propose a constrained total least-squares (CTLS) estimator...
To this day, inertial localization systems are failing to incorporate biomechanical constraints in t...
The paper presents an algorithm for the real-time evaluation of the actual end-effector orientation ...
This thesis develops, validates and applies the Least-Squares Axis of Rotation (LSAR) method, a new ...
Rigid body localization refers to a problem of estimating the position of a rigid body along with it...
In this paper we focus on the relative position and orientation estimation between rigid bodies in a...
Abstract—A framework to track the position and orientation of a moving rigid body is proposed. We co...
Localization has been a very important and fundamental research topic in GPS, radar, sonar, and espe...
We present a method to obtain the position and orientation of an object through measurement from mul...
This thesis studies the estimation of the motion of a rigid-body from body-point motion data. This s...
A typical movement analysis problem is the estimation, at every time instant, of the position vector...
The paper presents an original analytic procedure for unambiguously determining the relative positio...
The sensor localization problem can be formalized using distance and orientation constraints, typica...
The paper presents an algorithm for estimating the pose of a rigid body in real-time. The method rel...
The sensor localization problem can be formalized using distance and orientation constraints, typica...
International audienceThis work presents a new method to determine a rigid body orientation, based o...
To this day, inertial localization systems are failing to incorporate biomechanical constraints in t...
The paper presents an algorithm for the real-time evaluation of the actual end-effector orientation ...
This thesis develops, validates and applies the Least-Squares Axis of Rotation (LSAR) method, a new ...
Rigid body localization refers to a problem of estimating the position of a rigid body along with it...
In this paper we focus on the relative position and orientation estimation between rigid bodies in a...
Abstract—A framework to track the position and orientation of a moving rigid body is proposed. We co...
Localization has been a very important and fundamental research topic in GPS, radar, sonar, and espe...
We present a method to obtain the position and orientation of an object through measurement from mul...
This thesis studies the estimation of the motion of a rigid-body from body-point motion data. This s...
A typical movement analysis problem is the estimation, at every time instant, of the position vector...
The paper presents an original analytic procedure for unambiguously determining the relative positio...
The sensor localization problem can be formalized using distance and orientation constraints, typica...
The paper presents an algorithm for estimating the pose of a rigid body in real-time. The method rel...
The sensor localization problem can be formalized using distance and orientation constraints, typica...
International audienceThis work presents a new method to determine a rigid body orientation, based o...
To this day, inertial localization systems are failing to incorporate biomechanical constraints in t...
The paper presents an algorithm for the real-time evaluation of the actual end-effector orientation ...
This thesis develops, validates and applies the Least-Squares Axis of Rotation (LSAR) method, a new ...