A. V. Klekovkin, Yu. L. Karavaev, A. A. Kilin, A. V. Nazarov, “The influence of tail fins on the speed of an aquatic robot driven by internal moving masses”, Computer Research and Modeling, 16:4 (2024), 869

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Computer Research and Modeling, 2024, Volume 16, Issue 4, Pages 869–882
DOI: https://doi.org/10.20537/2076-7633-2024-16-4-869-882 (Mi crm1196)

This article is cited in 1 scientific paper (total in 1 paper)

MODELS IN PHYSICS AND TECHNOLOGY

The influence of tail fins on the speed of an aquatic robot driven by internal moving masses

A. V. Klekovkin^a, Yu. L. Karavaev^b, A. A. Kilin^c, A. V. Nazarov^b

^a P. G. Demidov Yaroslavl State University, 14 Sovetskaya st., Yaroslavl, 150003, Russia
^b Kalashnikov Izhevsk State Technical University, 7 Studencheskaya st., Izhevsk, 426069, Russia
^c Ural Mathematical Center, Udmurt State University, 1 Universitetskaya st., Izhevsk, 426034, Russia

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DOI: https://doi.org/10.20537/2076-7633-2024-16-4-869-882

URL: http://crm.ics.org.ru/journal/article/3498/

Abstract: This paper describes the design of an aquatic robot moving on the surface of a fluid and driven by two internal moving masses. The body of the aquatic robot in cross section has the shape of a symmetrical airfoil with a sharp edge. In this prototype, two internal masses move in circles and are rotated by a single DC motor and a gear mechanism that transmits torque from the motor to each mass. Angular velocities of moving masses are used as a control action, and the developed kinematic scheme for transmitting rotation from the motor to the moving masses allows the rotation of two masses with equal angular velocities in magnitude, but with a different direction of rotation. It is also possible to install additional tail fins of various shapes and sizes on the body of this robot. Also in the work for this object, the equations of motion are presented, written in the form of Kirchhoff equations for the motion of a solid body in an ideal fluid, which are supplemented by terms of viscous resistance. A mathematical description of the additional forces acting on the flexible tail fin is presented. Experimental studies on the influence of various tail fins on the speed of motion in the fluid were carried out with the developed prototype of the robot. In this work, tail fins of the same shape and size were installed on the robot, while having different stiffness. The experiments were carried out in a pool with water, over which a camera was installed, on which video recordings of all the experiments were obtained. Next processing of the video recordings made it possible to obtain the object’s movements coordinates, as well as its linear and angular velocities. The paper shows the difference in the velocities developed by the robot when moving without a tail fin, as well as with tail fins having different stiffness. The comparison of the velocities developed by the robot, obtained in experimental studies, with the results of mathematical modeling of the system is given.

Keywords: mobile robot, aquatic robot, motion simulation, experimental investigations

Funding agency	Grant number
Udmurt State University	075-02-2024-1445
Russian Science Foundation	21-71-30011
Ministry of Science and Higher Education of the Russian Federation	FZZN-2020-0011
The mathematical model of the aquatic robot was developed by A. A. Kilin at the Ural Mathematical Center (Agreement No. 075-02-2024-1445). The calculation of hydrodynamic forces acting on the flexible tail, the design of the tail fins were carried out by A. V. Klekovkin within the framework of the grant of the Russian Science Foundation (project No. 21-71- 30011, https://rscf.ru/en/project/21-71-30011/). The development of an experimental prototype and experimental research were carried out by Yu. L. Karavaev within the framework of the state assignment of the Ministry of Education and Science of Russia FZZN-2020-0011 and A. V. Nazarov.

Received: 23.04.2024
Revised: 21.06.2024
Accepted: 11.07.2024

Document Type: Article

UDC: 681.5

Language: Russian

Citation: A. V. Klekovkin, Yu. L. Karavaev, A. A. Kilin, A. V. Nazarov, “The influence of tail fins on the speed of an aquatic robot driven by internal moving masses”, Computer Research and Modeling, 16:4 (2024), 869–882

Citation in format AMSBIB

\Bibitem{KleKarKil24}

\by A.~V.~Klekovkin, Yu.~L.~Karavaev, A.~A.~Kilin, A.~V.~Nazarov

\paper The influence of tail fins on the speed of an aquatic robot driven by internal moving masses

\jour Computer Research and Modeling

\yr 2024

\vol 16

\issue 4

\pages 869--882

\mathnet{http://mi.mathnet.ru/crm1196}

\crossref{https://doi.org/10.20537/2076-7633-2024-16-4-869-882}

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