Add to ORKGWe examine the stability of the “coast ” motion of fish, that is to say, the motion of a neutrally buoyant fish at constant speed in a straight line. The forces and moments acting on the fish body are thus perfectly balanced. The fish motion is said to be unstable if a perturbation in the conditions surrounding the fish results in forces and moments that tend to increase the perturbation and it is stable if these emerging forces tend to reduce the perturbation and return the fish to its original state. Stability may be achieved actively or passively. Active stabilization requires neurological control that activates musculo-skeletal components to compensate for the external perturbations acting against stability. Passive stabilization on the...
This paper deals with the hydrodynamics and internal dynamics of fish swimming. Our analysis starts ...
Undulatory swimming is employed by many fish for routine swimming and extended sprints. In this biom...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...
Fish excel in their swimming capabilities. These result from a dynamic interplay of actuation, passi...
SYNOPSIS. Perturbations vary in period and amplitude, and responses to unavoidable perturbations dep...
Simple mechanical models emulating fish have been used recently to enable targeted study of individu...
This paper provides analytical insights into the hypothesis that fish exploit resonance to reduce th...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
Biological evidence suggests that fish use muscles to stiffen their bodies and improve their swimmin...
Unlike most manmade machines, animals move through their world using flexible bodies and appendages,...
International audienceA robotic fish is used to test the validity of a simplification made in the co...
An undulatory pattern of body bending in which waves pass along the body from head to tail is a majo...
Our goal is to reproduce the key features of carangiform swimming by modeling muscle functioning usi...
2011-08-08Vortex dynamics and solid-fluid interactions are two of the most important and most studie...
The physical basis for fish schooling is examined using three-dimensional numerical simulations of a...
This paper deals with the hydrodynamics and internal dynamics of fish swimming. Our analysis starts ...
Undulatory swimming is employed by many fish for routine swimming and extended sprints. In this biom...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...
Fish excel in their swimming capabilities. These result from a dynamic interplay of actuation, passi...
SYNOPSIS. Perturbations vary in period and amplitude, and responses to unavoidable perturbations dep...
Simple mechanical models emulating fish have been used recently to enable targeted study of individu...
This paper provides analytical insights into the hypothesis that fish exploit resonance to reduce th...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
Biological evidence suggests that fish use muscles to stiffen their bodies and improve their swimmin...
Unlike most manmade machines, animals move through their world using flexible bodies and appendages,...
International audienceA robotic fish is used to test the validity of a simplification made in the co...
An undulatory pattern of body bending in which waves pass along the body from head to tail is a majo...
Our goal is to reproduce the key features of carangiform swimming by modeling muscle functioning usi...
2011-08-08Vortex dynamics and solid-fluid interactions are two of the most important and most studie...
The physical basis for fish schooling is examined using three-dimensional numerical simulations of a...
This paper deals with the hydrodynamics and internal dynamics of fish swimming. Our analysis starts ...
Undulatory swimming is employed by many fish for routine swimming and extended sprints. In this biom...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...