Vishwanathan V.
20
Coauthors
5
Documentos
Volumen de publicaciones por año
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| Año de publicación | Num. Publicaciones |
|---|---|
| 2012 | 2 |
| 2013 | 1 |
| 2014 | 2 |
Publicaciones por áreas de conocimiento
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| Área de conocimiento | Num. Publicaciones |
|---|---|
| Robótica | 5 |
| Biotecnología | 1 |
Publicaciones por áreas temáticas
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| Área temática | Num. Publicaciones |
|---|---|
| Otras ramas de la ingeniería | 5 |
| Física aplicada | 4 |
Principales fuentes de datos
| Origen | Num. Publicaciones |
|---|---|
| Scopus | 5 |
| Google Scholar | 0 |
| RRAAE | 0 |
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Coautores destacados por número de publicaciones
| Coautor | Num. Publicaciones |
|---|---|
| Prasad B. | 5 |
| Sanjib Kumar Panda | 5 |
| Chowdhury A.R. | 5 |
| Kumar R. | 5 |
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Top Keywords
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Publicaciones del autor
Bio-harmonized dynamic model of a biology inspired carangiform robotic fish underwater vehicle
Conference ObjectAbstract: This paper presents a novel dynamic model of a bio-inspired robotic fish underwater vehicle by unifyPalabras claves:Biology-inspired robotics, Carangiform, Dynamics modeling, Kane's method, lighthill slender body theoryAutores:Chowdhury A.R., Kumar R., Prasad B., Sanjib Kumar Panda, Vishwanathan V.Fuentes: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: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: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