Add to ORKGModel-based optical motion capture systems require knowledge of the position of the markers relative to the underlying skeleton, the lengths of the skeleton's limbs, and which limb each marker is attached to. These model parameters are typically assumed and entered into the system manually, although techniques exist for calculating some of them, such as the position of the markers relative to the skeleton's joints. We present a fully automatic procedure for determining these model parameters. It tracks the 2D positions of the markers on the cameras' image planes and determines which markers lie on each limb before calculating the position of the underlying skeleton. The only assumption is that the skeleton consists of rigid limbs connected ...
\begin{abstract} For realistic animation of an artificial character a body model that represents the...
Human Motion Capture is a widely used technique to obtain motion data for animation of virtual chara...
A common problem in optical motion capture of human-body movementis the so-called missing marker pro...
Model-based optical motion capture systems require knowledge of the position of the markers relative...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
. Identifying a precise anatomic skeleton is important in order to ensure high quality motion captur...
We present a novel fully-automatic approach for estimating an articulated skeleton of a moving subj...
This report considers the problem of using marker locations from optical motion capture data to iden...
Optical motion capture systems suffer from marker occlusions resulting in loss of useful information...
We present a novel fully-automatic approach for estimating an articulated skeleton of a moving subje...
We present a novel fully-automatic approach for estimating an articulated skeleton of a moving subje...
Identifying a precise anatomic skeleton is important in order to ensure high-quality motion capture....
In this paper we present a computer vision algorithm for building a human body model skeleton in an ...
\begin{abstract} For realistic animation of an artificial character a body model that represents the...
Human Motion Capture is a widely used technique to obtain motion data for animation of virtual chara...
A common problem in optical motion capture of human-body movementis the so-called missing marker pro...
Model-based optical motion capture systems require knowledge of the position of the markers relative...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
. Identifying a precise anatomic skeleton is important in order to ensure high quality motion captur...
We present a novel fully-automatic approach for estimating an articulated skeleton of a moving subj...
This report considers the problem of using marker locations from optical motion capture data to iden...
Optical motion capture systems suffer from marker occlusions resulting in loss of useful information...
We present a novel fully-automatic approach for estimating an articulated skeleton of a moving subje...
We present a novel fully-automatic approach for estimating an articulated skeleton of a moving subje...
Identifying a precise anatomic skeleton is important in order to ensure high-quality motion capture....
In this paper we present a computer vision algorithm for building a human body model skeleton in an ...
\begin{abstract} For realistic animation of an artificial character a body model that represents the...
Human Motion Capture is a widely used technique to obtain motion data for animation of virtual chara...
A common problem in optical motion capture of human-body movementis the so-called missing marker pro...