In this paper we present a novel method for nonlinear rigid body motion estimation from noisy data using heterogeneous sets of objects of the conformal model in geometric algebra. The rigid body motions are represented by motors. We employ state-of-the-art nonlinear optimization tools and compute gradients and Jacobian matrices using forward-mode automatic differentiation based on dual numbers. The use of automatic differentiation enables us to employ a wide range of cost functions in the estimation process. This includes cost functions for motor estimation using points, lines and planes. Moreover, we explain how these cost functions make it possible to use other geometric objects in the conformal model in the motor estimation process, e.g....
We focus on inverse kinematics applications in computer graphics and robotics based on Conformal Geo...
A typical movement analysis problem is the estimation, at every time instant, of the position vector...
In computer graphics and robotics a lot of different mathematical systems like vector algebra, homog...
The motion rotors, or motors, are used to model Euclidean motion in 3D conformal geometric algebra. ...
In this work, we present a novel approach to non-linear optimization of multivectors in the Euclidea...
Part II uses the foundations of Part I [35] to define constraint equations for 2D-3D pose estimation...
Determining three-dimensional (3D) rigid object motion from intensity images is a central problem in...
The body of this thesis has three main sections. The first introduces Oriented Conformal Geometric A...
In this paper, we consider several parameterizations of rigid transformations using motors in 3-D co...
Abstract. We present an algebraic geometric approach to 3-D motion estimation and segmentation of mu...
W e present a physics-based deformable model framework for the incremental object shape estimation a...
A new method for 3D rigid motion estimation is derived under the most general assumption that the me...
UnrestrictedA computational approach to estimation of the kinematic of a mechanical system consistin...
This paper discusses the usage of different image features and their combination in the context of e...
We focus on inverse kinematics applications in computer graphics and robotics based on Conformal Geo...
We focus on inverse kinematics applications in computer graphics and robotics based on Conformal Geo...
A typical movement analysis problem is the estimation, at every time instant, of the position vector...
In computer graphics and robotics a lot of different mathematical systems like vector algebra, homog...
The motion rotors, or motors, are used to model Euclidean motion in 3D conformal geometric algebra. ...
In this work, we present a novel approach to non-linear optimization of multivectors in the Euclidea...
Part II uses the foundations of Part I [35] to define constraint equations for 2D-3D pose estimation...
Determining three-dimensional (3D) rigid object motion from intensity images is a central problem in...
The body of this thesis has three main sections. The first introduces Oriented Conformal Geometric A...
In this paper, we consider several parameterizations of rigid transformations using motors in 3-D co...
Abstract. We present an algebraic geometric approach to 3-D motion estimation and segmentation of mu...
W e present a physics-based deformable model framework for the incremental object shape estimation a...
A new method for 3D rigid motion estimation is derived under the most general assumption that the me...
UnrestrictedA computational approach to estimation of the kinematic of a mechanical system consistin...
This paper discusses the usage of different image features and their combination in the context of e...
We focus on inverse kinematics applications in computer graphics and robotics based on Conformal Geo...
We focus on inverse kinematics applications in computer graphics and robotics based on Conformal Geo...
A typical movement analysis problem is the estimation, at every time instant, of the position vector...
In computer graphics and robotics a lot of different mathematical systems like vector algebra, homog...