Add to ORKGAquatic vertebrates display a variety of control surfaces that are used for propulsion, stabilization, trim and maneuvering. Control surfaces include paired and median fins in fishes, and flippers and flukes in secondarily aquatic tetrapods. These structures initially evolved from embryonic fin folds in fishes and have been modified into complex control surfaces in derived aquatic tetrapods. Control surfaces function both actively and passively to produce torque about the center of mass by the generation of either lift or drag, or both, and thus produce vector forces to effect rectilinear locomotion, trim control and maneuvers. In addition to fins and flippers, there are other structures that act as control surfaces and enhance functionalit...
From insect wings to tetrapod limbs, the appendages of animals have diversified with the functional ...
The area of fish locomotion is infested with the prevailing and dominating model which violates the ...
The objective of this work is to develop adaptive control for mechanical design of a biomimetic unde...
Abstract—Animals display a variety of control surfaces that can be used for propulsion and maneuveri...
Synopsis The ability to control the flow of water around the body dictates the performance of marine...
This book describes and explains the basis of bio-inspired, leading-edge tubercles based on humpback...
SYNOPSIS. Perturbations vary in period and amplitude, and responses to unavoidable perturbations dep...
As a result of years of research on the comparative biomechanics and physiology of moving through wa...
As aquatic vertebrates increase in size, hydrofoils, which use lift to generate thrust, are increasi...
Submitted in partial fulfillment of the requirements for the degree of Master of Science in Oceanogr...
IEEE Journal of Oceanic Engineering, 32(3): pp. 533-550Fish are remarkable in their ability to maneu...
Despite serving analogous functions, the mechanical designs conceived by human engineering and those...
Presented on February 21, 2012 from 4:00 pm to 5:00 pm in Klaus 1116 West.Runtime: 58:52 minutes.The...
Fish combine a wide variety of passive and active control mechanisms to generate thrust. Muscle actu...
Aquatic animals have splendid ability to move smoothly through water using variety of oscillating fi...
From insect wings to tetrapod limbs, the appendages of animals have diversified with the functional ...
The area of fish locomotion is infested with the prevailing and dominating model which violates the ...
The objective of this work is to develop adaptive control for mechanical design of a biomimetic unde...
Abstract—Animals display a variety of control surfaces that can be used for propulsion and maneuveri...
Synopsis The ability to control the flow of water around the body dictates the performance of marine...
This book describes and explains the basis of bio-inspired, leading-edge tubercles based on humpback...
SYNOPSIS. Perturbations vary in period and amplitude, and responses to unavoidable perturbations dep...
As a result of years of research on the comparative biomechanics and physiology of moving through wa...
As aquatic vertebrates increase in size, hydrofoils, which use lift to generate thrust, are increasi...
Submitted in partial fulfillment of the requirements for the degree of Master of Science in Oceanogr...
IEEE Journal of Oceanic Engineering, 32(3): pp. 533-550Fish are remarkable in their ability to maneu...
Despite serving analogous functions, the mechanical designs conceived by human engineering and those...
Presented on February 21, 2012 from 4:00 pm to 5:00 pm in Klaus 1116 West.Runtime: 58:52 minutes.The...
Fish combine a wide variety of passive and active control mechanisms to generate thrust. Muscle actu...
Aquatic animals have splendid ability to move smoothly through water using variety of oscillating fi...
From insect wings to tetrapod limbs, the appendages of animals have diversified with the functional ...
The area of fish locomotion is infested with the prevailing and dominating model which violates the ...
The objective of this work is to develop adaptive control for mechanical design of a biomimetic unde...