Design, construction, and modeling of a BAUV with propulsion system based on a parallel mechanism for the caudal fin

Cristina Tehaní Aparicio-García; Edisson A.Naula Duchi; Luis E. Garza-Castañón; Adriana Vargas-Martínez; J. Israel Martínez-López; Luis I. Minchala-Ávila

doi:10.3390/app10072426

Design, construction, and modeling of a BAUV with propulsion system based on a parallel mechanism for the caudal fin

Cristina Tehaní Aparicio-García
, Edisson A.Naula Duchi
, Luis E. Garza-Castañón
, Adriana Vargas-Martínez
, J. Israel Martínez-López
, Luis I. Minchala-Ávila

Instituto Tecnologico de Estudios Superiores de Monterrey

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Traditional propulsion systems for autonomous underwater vehicles (AUVs) have several deficiencies, such as the invasion of the aquatic environment through the generation of noise and damage to the ecosystem, higher energy consumption, and a unidirectional thruster vector. The last characteristic constrains the maneuverability of the vehicle. This paper proposes a 3-DOF spherical 3 universal-cylindrical-universal and 1 spherical joint (3UCU-1S) parallel mechanism coupled to an artificial caudal fin to produce a vectored thruster for a biomimetic AUV (BAUV). First, the design and construction of the prototype are described. Then, the kinematics and dynamics analysis of the parallel mechanism is presented. Finally, a motion study shows the types of movements that can be achieved with the mechanism to perform flapping of the caudal fin in different directions.

Original language	English
Article number	2426
Journal	Applied Sciences (Switzerland)
Volume	10
Issue number	7
DOIs	https://doi.org/10.3390/app10072426
State	Published - 1 Apr 2020
Externally published	Yes

Keywords

BAUV (biomimetic autonomous underwater vehicle); 3UCU-1S parallel mechanism
Caudal fin vector propulsion
Vectored thruster

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10.3390/app10072426

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title = "Design, construction, and modeling of a BAUV with propulsion system based on a parallel mechanism for the caudal fin",

abstract = "Traditional propulsion systems for autonomous underwater vehicles (AUVs) have several deficiencies, such as the invasion of the aquatic environment through the generation of noise and damage to the ecosystem, higher energy consumption, and a unidirectional thruster vector. The last characteristic constrains the maneuverability of the vehicle. This paper proposes a 3-DOF spherical 3 universal-cylindrical-universal and 1 spherical joint (3UCU-1S) parallel mechanism coupled to an artificial caudal fin to produce a vectored thruster for a biomimetic AUV (BAUV). First, the design and construction of the prototype are described. Then, the kinematics and dynamics analysis of the parallel mechanism is presented. Finally, a motion study shows the types of movements that can be achieved with the mechanism to perform flapping of the caudal fin in different directions.",

keywords = "BAUV (biomimetic autonomous underwater vehicle); 3UCU-1S parallel mechanism, Caudal fin vector propulsion, Vectored thruster",

author = "Aparicio-Garc{\'i}a, \{Cristina Tehan{\'i}\} and Duchi, \{Edisson A.Naula\} and Garza-Casta{\~n}{\'o}n, \{Luis E.\} and Adriana Vargas-Mart{\'i}nez and Mart{\'i}nez-L{\'o}pez, \{J. Israel\} and Minchala-{\'A}vila, \{Luis I.\}",

note = "Publisher Copyright: {\textcopyright} 2020 by the authors.",

year = "2020",

month = apr,

day = "1",

doi = "10.3390/app10072426",

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T1 - Design, construction, and modeling of a BAUV with propulsion system based on a parallel mechanism for the caudal fin

AU - Aparicio-García, Cristina Tehaní

AU - Duchi, Edisson A.Naula

AU - Garza-Castañón, Luis E.

AU - Vargas-Martínez, Adriana

AU - Martínez-López, J. Israel

AU - Minchala-Ávila, Luis I.

PY - 2020/4/1

Y1 - 2020/4/1

N2 - Traditional propulsion systems for autonomous underwater vehicles (AUVs) have several deficiencies, such as the invasion of the aquatic environment through the generation of noise and damage to the ecosystem, higher energy consumption, and a unidirectional thruster vector. The last characteristic constrains the maneuverability of the vehicle. This paper proposes a 3-DOF spherical 3 universal-cylindrical-universal and 1 spherical joint (3UCU-1S) parallel mechanism coupled to an artificial caudal fin to produce a vectored thruster for a biomimetic AUV (BAUV). First, the design and construction of the prototype are described. Then, the kinematics and dynamics analysis of the parallel mechanism is presented. Finally, a motion study shows the types of movements that can be achieved with the mechanism to perform flapping of the caudal fin in different directions.

AB - Traditional propulsion systems for autonomous underwater vehicles (AUVs) have several deficiencies, such as the invasion of the aquatic environment through the generation of noise and damage to the ecosystem, higher energy consumption, and a unidirectional thruster vector. The last characteristic constrains the maneuverability of the vehicle. This paper proposes a 3-DOF spherical 3 universal-cylindrical-universal and 1 spherical joint (3UCU-1S) parallel mechanism coupled to an artificial caudal fin to produce a vectored thruster for a biomimetic AUV (BAUV). First, the design and construction of the prototype are described. Then, the kinematics and dynamics analysis of the parallel mechanism is presented. Finally, a motion study shows the types of movements that can be achieved with the mechanism to perform flapping of the caudal fin in different directions.

KW - BAUV (biomimetic autonomous underwater vehicle); 3UCU-1S parallel mechanism

KW - Caudal fin vector propulsion

KW - Vectored thruster

UR - https://killkana.ucacue.edu.ec/index.php/killcana_salud/article/view/1068

U2 - 10.3390/app10072426

DO - 10.3390/app10072426

M3 - Artículo

AN - SCOPUS:85083451513

SN - 2076-3417

VL - 10

JO - Applied Sciences (Switzerland)

JF - Applied Sciences (Switzerland)

IS - 7

M1 - 2426

ER -

Design, construction, and modeling of a BAUV with propulsion system based on a parallel mechanism for the caudal fin

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Keywords

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