Mostrando 8 resultados de: 8
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Publisher
2012 IEEE/OES Autonomous Underwater Vehicles, AUV 2012(1)
2013 IEEE International Conference on Robotics and Biomimetics, ROBIO 2013(1)
International Conference on Control, Automation and Systems(1)
International Journal of Advanced Robotic Systems(1)
Journal of Marine Science and Technology (Japan)(1)
Área temáticas
Otras ramas de la ingeniería(8)
Física aplicada(7)
Métodos informáticos especiales(2)
Anatomía humana, citología, histología(1)
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scopus(8)
Biomimicking a brain-map based BCF mode carangiform swimming behaviour in a robotic-fish underwater vehicle
Conference ObjectAbstract: The objective of this paper is to biomimic a rectilinear swimming behaviour propulsion mechanism ofPalabras claves:Biomimetic, Carangiform, Closed loop control, Des, Lighthill Equation, Robot behaviourAutores:Chowdhury A.R., Sanjib Kumar PandaFuentes:scopusBrain-map based carangiform swimming behaviour modeling and control in a robotic fish underwater vehicle
ArticleAbstract: Fish swimming demonstrates impressive speeds and exceptional characteristics in the fluid environmenPalabras claves:Behavior modeling, Bio-inspired systems, Carangiform, Des, Distributed Control, Lighthill Equation, roboticsAutores:Chowdhury A.R., Sanjib Kumar PandaFuentes:scopusFinding an operating region for a bio-inspired robotic fish underwater vehicle in the Lighthill framework
Conference ObjectAbstract: Sir J. Lighthill mathematical slender body swimming model formulates the biological fish propulsionPalabras claves:BCF, Biomimetic, Kinematic modeling, Lagrange-Euler equations, Lighthill Equation, Operating region, roboticsAutores:Chowdhury A.R., Kumar R., Prasad B., Sanjib Kumar Panda, Vishwanathan V.Fuentes:scopusHydrodynamics study of a BCF mode bioinspired robotic-fish underwater vehicle using Lighthill’s slender body model
ArticleAbstract: This paper investigates the hydrodynamic characteristics of the rectilinear motion of a robotic fishPalabras claves:Bio-inspired robotics, Carangiform swimming, Hydrodynamic modeling, Lighthill Equation, Naiver-Stokes equationsAutores:Behera M.R., Chowdhury A.R., Sanjib Kumar Panda, Xue W.Fuentes:scopusImplementation of a BCF mode bio-mimetic robotic-fish underwater vehicle based on Lighthill mathematical model
Conference ObjectAbstract: The objective of this paper is to mimic the propulsion mechanism of the BCF mode carangiform swimminPalabras claves:BCF, Biomimetic, Kinematic modeling, Lagrange-Euler equations, Lighthill Equation, roboticsAutores:Chowdhury A.R., Kumar R., Prasad B., Sanjib Kumar Panda, Vishwanathan V.Fuentes:scopusInverse dynamics control of a bio-inspired robotic-fish underwater vehicle propulsion based on Lighthill slender body theory
Conference ObjectAbstract: A 2-joint, 3-link multibody vehicle model biologically inspired by a Body Caudal Fin (BCF) carangifoPalabras claves:BCF, Biomimetic, Computed-Torque, control, Feed-Forward, Lighthill Equation, roboticsAutores:Chowdhury A.R., Kumar R., Prasad B., Sanjib Kumar Panda, Vishwanathan V.Fuentes:scopusKinematic parameter based behaviour modelling and control of a bio-inspired robotic fish
Conference ObjectAbstract: Fish swimming demonstrates impressive speeds and exceptional characteristics in the fluid environmenPalabras claves:Behavior modeling, Bio-inspired systems, Carangiform, Des, Distributed Control, Lighthill Equation, roboticsAutores:Chowdhury A.R., Sanjib Kumar PandaFuentes:scopusKinematics study and implementation of a biomimetic robotic-fish underwater vehicle based on Lighthill slender body model
Conference ObjectAbstract: Sir J. Lighthill mathematical slender body swimming model formulates the biological fish propulsionPalabras claves:BCF, Biomimetic, Kinematic modeling, Lagrange-Euler equations, Lighthill Equation, roboticsAutores:Chowdhury A.R., Kumar R., Prasad B., Sanjib Kumar Panda, Vishwanathan V.Fuentes:scopus