Add to ORKGAnimal propulsors such as wings and fins bend during motion and these bending patterns are believed to contribute to the high efficiency of animal movements compared with those of man-made designs. However, efforts to implement flexible designs have been met with contradictory performance results. Consequently, there is no clear understanding of the role played by propulsor flexibility or, more fundamentally, how flexible propulsors should be designed for optimal performance. Here we demonstrate that during steady-state motion by a wide range of animals, from fruit flies to humpback whales, operating in either air or water, natural propulsors bend in similar ways within a highly predictable range of characteristic motions. By providing empi...
SYNOPSIS. The morphological designs of animals represent a balance between stability for efficient l...
Maneuverability is one of the most important and least understood aspects of animal locomotion. The ...
A central paradigm of aquatic locomotion is that cetaceans use fluke strokes to power their swimming...
Animal propulsors such as wings and fins bend during motion and these bending patterns are believed ...
Animal propulsors such as wings and fins bend during motion and these bending patterns are believed ...
Wing or fin flexibility can dramatically affect the performance of flying and swimming animals. Both...
The flukes are the primary locomotor structure in cetaceans, which produce hydrodynamic thrust as th...
ABSTRACT- Flexible bodies possessed by fish and marine mammals have been shown to permit high levels...
Birds and aquatic animals exploit the surrounding fluid to propel themselves in air or water. In ine...
Thesis (Ph. D.)--University of Washington, 2002The wings of flying animals change shape dramatically...
The importance of the leading-edge sweep angle of propulsive surfaces used by unsteady swimming and ...
An undulatory pattern of body bending in which waves pass along the body from head to tail is a majo...
Session : Biomechanics in Nature : Swimming and FlyingThe carangiform and thunniform types of swimmi...
Many aquatic animals propel themselves by flapping their tails. Leveraging a recently proposed snapp...
Recently, some engineers have turned to the study of swimming and flying animals to provide insight ...
SYNOPSIS. The morphological designs of animals represent a balance between stability for efficient l...
Maneuverability is one of the most important and least understood aspects of animal locomotion. The ...
A central paradigm of aquatic locomotion is that cetaceans use fluke strokes to power their swimming...
Animal propulsors such as wings and fins bend during motion and these bending patterns are believed ...
Animal propulsors such as wings and fins bend during motion and these bending patterns are believed ...
Wing or fin flexibility can dramatically affect the performance of flying and swimming animals. Both...
The flukes are the primary locomotor structure in cetaceans, which produce hydrodynamic thrust as th...
ABSTRACT- Flexible bodies possessed by fish and marine mammals have been shown to permit high levels...
Birds and aquatic animals exploit the surrounding fluid to propel themselves in air or water. In ine...
Thesis (Ph. D.)--University of Washington, 2002The wings of flying animals change shape dramatically...
The importance of the leading-edge sweep angle of propulsive surfaces used by unsteady swimming and ...
An undulatory pattern of body bending in which waves pass along the body from head to tail is a majo...
Session : Biomechanics in Nature : Swimming and FlyingThe carangiform and thunniform types of swimmi...
Many aquatic animals propel themselves by flapping their tails. Leveraging a recently proposed snapp...
Recently, some engineers have turned to the study of swimming and flying animals to provide insight ...
SYNOPSIS. The morphological designs of animals represent a balance between stability for efficient l...
Maneuverability is one of the most important and least understood aspects of animal locomotion. The ...
A central paradigm of aquatic locomotion is that cetaceans use fluke strokes to power their swimming...