The animation show the three-dimensional vorticity field around a free-swimming hydromedusa Aequorea victoria (crystal jellyfish).A new geometrically conservative arbitrary Lagrangian–Eulerian (ALE) formulation is presented for the moving boundary problems in the swirl-free cylindrical coordinates. The governing equations are multiplied with the radial distance and integrated over arbitrary moving Lagrangian–Eulerian quadrilateral elements. Therefore, the continuity and the geometric conservation equations take very simple form similar to those of the Cartesian coordinates. The continuity equation is satisfied exactly within each element and a special attention is given to satisfy the geometric conservation law (GCL) at the discrete level....
The unique body kinematics of jellyfish embodies the most intriguing form of biological propulsion, ...
The development of a rowing jellyfish biomimetic robot termed as ‘‘Robojelly’’, has led to the disco...
Visual quality, low computational cost, and numerical stability are foremost goals in computer anima...
This thesis presents an automatic animation system for jellyfish that is based on a physical simulat...
The flow structures produced by the hydromedusa Sarsia tubulosa are examined using direct numerical ...
We present simulations of the vortex dynamics associated with the self-propelled motion of jellyfish...
We present an automatic animation system for jellyfish that is based on a physical simulation. We mo...
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...
The current literature suggests that moon jellyfish are the most efficient underwater swimmers for t...
We present a 2D fluid-structure interaction simulation method with a specific focus on articulated a...
The thrust-generating mechanism of a prolate hydromedusa Sarsia tubulosa and an oblate hydromedusa A...
This paper presents an approach to quantify the unsteady fluid forces, moments and mass transport ge...
11th World Congress on Computational Mechanics (WCCM) / 5th European ă Conference on Computational M...
International audienceThe social interaction of fish has been mainly studied in 2D without hydrodyna...
International audienceWe present an efficient algorithm for simulation of deformable bodies interact...
The unique body kinematics of jellyfish embodies the most intriguing form of biological propulsion, ...
The development of a rowing jellyfish biomimetic robot termed as ‘‘Robojelly’’, has led to the disco...
Visual quality, low computational cost, and numerical stability are foremost goals in computer anima...
This thesis presents an automatic animation system for jellyfish that is based on a physical simulat...
The flow structures produced by the hydromedusa Sarsia tubulosa are examined using direct numerical ...
We present simulations of the vortex dynamics associated with the self-propelled motion of jellyfish...
We present an automatic animation system for jellyfish that is based on a physical simulation. We mo...
We present an immersed boundary method for numerical simulation of a swimming fish. The vortici...
The current literature suggests that moon jellyfish are the most efficient underwater swimmers for t...
We present a 2D fluid-structure interaction simulation method with a specific focus on articulated a...
The thrust-generating mechanism of a prolate hydromedusa Sarsia tubulosa and an oblate hydromedusa A...
This paper presents an approach to quantify the unsteady fluid forces, moments and mass transport ge...
11th World Congress on Computational Mechanics (WCCM) / 5th European ă Conference on Computational M...
International audienceThe social interaction of fish has been mainly studied in 2D without hydrodyna...
International audienceWe present an efficient algorithm for simulation of deformable bodies interact...
The unique body kinematics of jellyfish embodies the most intriguing form of biological propulsion, ...
The development of a rowing jellyfish biomimetic robot termed as ‘‘Robojelly’’, has led to the disco...
Visual quality, low computational cost, and numerical stability are foremost goals in computer anima...