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Sinopsis
Seventy percent of the earth is surrounded by water and there may be lots of raw material still unexplored. A human being cannot dive longer because breathing could be one of the major constraints. For the deep-sea applications like debris removal, pipeline inspection, surveys, telecommunications support, research, maintenance, there must be need of some technology which can venture down without any constraints. Underwater robots technology is the best solution to this because robots do not have to breathe like a human being. But there are problems in case of underwater robots. One of the major problems is trajectory control of the link. Because of dynamic coupling between the base and the link, on which various forces acting on the link and manipulator, the arm deviates from its desired trajectory in the presence of buoyancy forces. This dissertation work presents the dynamic modeling and trajectory control of underwater robot using bond graph, which include the base of the plant, one link arm and the motor. The underwater robot is modeled with the integration of the overwhelming controller. The integrated bond graph model is also made for the complete underwater vehicle. Modelin
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Seventy percent of the earth is surrounded by water and there may be lots of raw material still unexplored. A human being cannot dive longer because breathing could be one of the major constraints. For the deep-sea applications like debris removal, pipeline inspection, surveys, telecommunications support, research, maintenance, there must be need of some technology which can venture down without any constraints. Underwater robots technology is the best solution to this because robots do not have to breathe like a human being. But there are problems in case of underwater robots. One of the major problems is trajectory control of the link. Because of dynamic coupling between the base and the link, on which various forces acting on the link and manipulator, the arm deviates from its desired trajectory in the presence of buoyancy forces. This dissertation work presents the dynamic modeling and trajectory control of underwater robot using bond graph, which include the base of the plant, one link arm and the motor. The underwater robot is modeled with the integration of the overwhelming controller. The integrated bond graph model is also made for the complete underwater vehicle. Modelin
Biografía del autor
Dr. Chandan Deep Singh is working as assistant professor in department of mechanical engineering, Punjabi University, Patiala. He has completed his Ph.D. in 2016. He has guided around 30 students for M.Tech. thesis and has around 60 publications to his name.
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Modeling and Simulation of Underwater Flexible Robot
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LAP LAMBERT Academic Publishing, 2017
ISBN 10: 3330053550
ISBN 13: 9783330053557
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Librería: moluna, Greven, Alemania
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Condición: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Autor/Autorin: Singh Chandan DeepDr. Chandan Deep Singh is working as assistant professor in department of mechanical engineering, Punjabi University, Patiala. He has completed his Ph.D. in 2016. He has guided around 30 students for M.Tech. thesis . Nº de ref. del artículo: 151234904
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Modeling and Simulation of Underwater Flexible Robot
Publicado por
LAP LAMBERT Academic Publishing, 2017
ISBN 10: 3330053550
ISBN 13: 9783330053557
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Librería: Revaluation Books, Exeter, Reino Unido
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Paperback. Condición: Brand New. 56 pages. 8.66x5.91x0.13 inches. In Stock. Nº de ref. del artículo: 3330053550
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Modeling and Simulation of Underwater Flexible Robot
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LAP LAMBERT Academic Publishing Mär 2017, 2017
ISBN 10: 3330053550
ISBN 13: 9783330053557
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Librería: buchversandmimpf2000, Emtmannsberg, BAYE, Alemania
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Taschenbuch. Condición: Neu. Neuware -Seventy percent of the earth is surrounded by water and there may be lots of raw material still unexplored. A human being cannot dive longer because breathing could be one of the major constraints. For the deep-sea applications like debris removal, pipeline inspection, surveys, telecommunications support, research, maintenance, there must be need of some technology which can venture down without any constraints. Underwater robots technology is the best solution to this because robots do not have to breathe like a human being. But there are problems in case of underwater robots. One of the major problems is trajectory control of the link. Because of dynamic coupling between the base and the link, on which various forces acting on the link and manipulator, the arm deviates from its desired trajectory in the presence of buoyancy forces. This dissertation work presents the dynamic modeling and trajectory control of underwater robot using bond graph, which include the base of the plant, one link arm and the motor. The underwater robot is modeled with the integration of the overwhelming controller. The integrated bond graph model is also made for the complete underwater vehicle. ModelinBooks on Demand GmbH, Überseering 33, 22297 Hamburg 56 pp. Englisch. Nº de ref. del artículo: 9783330053557
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Modeling and Simulation of Underwater Flexible Robot
Publicado por
LAP LAMBERT Academic Publishing, 2017
ISBN 10: 3330053550
ISBN 13: 9783330053557
Nuevo
Taschenbuch
Librería: AHA-BUCH GmbH, Einbeck, Alemania
Calificación del vendedor: 5 de 5 estrellas
Taschenbuch. Condición: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Seventy percent of the earth is surrounded by water and there may be lots of raw material still unexplored. A human being cannot dive longer because breathing could be one of the major constraints. For the deep-sea applications like debris removal, pipeline inspection, surveys, telecommunications support, research, maintenance, there must be need of some technology which can venture down without any constraints. Underwater robots technology is the best solution to this because robots do not have to breathe like a human being. But there are problems in case of underwater robots. One of the major problems is trajectory control of the link. Because of dynamic coupling between the base and the link, on which various forces acting on the link and manipulator, the arm deviates from its desired trajectory in the presence of buoyancy forces. This dissertation work presents the dynamic modeling and trajectory control of underwater robot using bond graph, which include the base of the plant, one link arm and the motor. The underwater robot is modeled with the integration of the overwhelming controller. The integrated bond graph model is also made for the complete underwater vehicle. Modelin. Nº de ref. del artículo: 9783330053557
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