We present an algorithm for the real-time simulation of virtual cables using inverse kinematics. A cable is modeled by consecutive cylinder segments of equal size. The segments are connected by ball joints. At every joint there is a spiral spring acting against the excursion of the joint. Given a start and an end position of the cable, the algorithm calculates the shape of the cable that leads to minimal total energy. The total energy is the sum of the potential energies of the segments and the elastic energies of the springs. First, the algorithm calculates a cable with minimal total energy consisting of two segments. This is taken as a starting basis for the computation of a cable consisting of four segments. At each following step, the n...
In this article, the author deform the virtual object by interaction between user and virtual object...
Summary. We present a model of exible rods | based on Kirchhoff\\\'s geometrically exact theory | wh...
With the development of materials science, deformable material objects are used in more andmore fiel...
We present an algorithm for the real-time simulation of virtual cables using inverse kinematics. A c...
We present an algorithm for the real-time simulation of virtual cables using inverse kinematics. A c...
We present an algorithm for the real-time simulation of virtual cables using inverse kinematics. A c...
Computer simulation can provide significant help to solve practical problems concerning the optimal ...
A new method for the realistic visualization of virtual cables in a 2D environment, which is represe...
In this paper a physically accurate real time cable sim-ulation is presented and validated. The simu...
In this paper, we propose a complete model handling physical simulation of deformable 1D objects. We...
A complete simulation system is proposed that can be used as an educational tool by physicians in tr...
This paper introduces the CableRobot simulator, which was developed at the Max Planck Institute for ...
Computer simulations play an ever growing role for the development of automotive products. Assembly ...
This paper introduces the CableRobot simulator, which was developed at the Max Planck Institute for ...
In a virtual environment with multiple participants, it is necessary that the user`s actions be repl...
In this article, the author deform the virtual object by interaction between user and virtual object...
Summary. We present a model of exible rods | based on Kirchhoff\\\'s geometrically exact theory | wh...
With the development of materials science, deformable material objects are used in more andmore fiel...
We present an algorithm for the real-time simulation of virtual cables using inverse kinematics. A c...
We present an algorithm for the real-time simulation of virtual cables using inverse kinematics. A c...
We present an algorithm for the real-time simulation of virtual cables using inverse kinematics. A c...
Computer simulation can provide significant help to solve practical problems concerning the optimal ...
A new method for the realistic visualization of virtual cables in a 2D environment, which is represe...
In this paper a physically accurate real time cable sim-ulation is presented and validated. The simu...
In this paper, we propose a complete model handling physical simulation of deformable 1D objects. We...
A complete simulation system is proposed that can be used as an educational tool by physicians in tr...
This paper introduces the CableRobot simulator, which was developed at the Max Planck Institute for ...
Computer simulations play an ever growing role for the development of automotive products. Assembly ...
This paper introduces the CableRobot simulator, which was developed at the Max Planck Institute for ...
In a virtual environment with multiple participants, it is necessary that the user`s actions be repl...
In this article, the author deform the virtual object by interaction between user and virtual object...
Summary. We present a model of exible rods | based on Kirchhoff\\\'s geometrically exact theory | wh...
With the development of materials science, deformable material objects are used in more andmore fiel...