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A comparison of functional control strategies for underwater vehicles: theories, simulations and experiments

A comparison of functional control strategies for underwater vehicles: theories, simulations and experiments
A comparison of functional control strategies for underwater vehicles: theories, simulations and experiments

Functional control is key for any autonomous robot, linking high-level artificial intelligence with the robot actuators. Due to environmental disturbances, model uncertainties and nonlinear dynamic systems, reliable functional control is essential and improvements in the controller design can significantly benefit the overall vehicle performance. Even though there are many published studies considering the design of various advanced controllers, most of them are not evaluated in physical experiments. In this research, four different control strategies have been investigated: Proportional-Integral-Derivative Control (PID), Sliding Mode Control (SMC), Backstepping Control (BC) and Fuzzy Logic Control (FLC). The performances of these four controllers were simulated initially and evaluated by practical experiments in different conditions, including various environmental disturbances and hydrodynamic coefficients. The main contributions are as follows: Firstly, this paper reports a comparison study between different types of controllers based on simulations and physical experiments in various conditions; Secondly, this paper provides an improved SMC algorithm combining the merits from linear control and nonlinear control, and a customized second-order FLC method.

AUV, Control theories, FLC, ROV, SMC
0029-8018
Xu, Zhizun
48299771-f38a-45d6-8700-7f7bab3edcf7
Haroutunian, Maryam
f519154e-664f-40a4-9833-38c5f17f31d5
Murphy, Alan J.
8e021dad-0c60-446b-a14e-cddd09d44626
Neasham, Jeff
66bcaecc-b93f-416f-8f2c-6a1c5608d892
Norman, Rose
6d2518aa-ece8-498f-82dc-dee5ec7b1b37
Xu, Zhizun
48299771-f38a-45d6-8700-7f7bab3edcf7
Haroutunian, Maryam
f519154e-664f-40a4-9833-38c5f17f31d5
Murphy, Alan J.
8e021dad-0c60-446b-a14e-cddd09d44626
Neasham, Jeff
66bcaecc-b93f-416f-8f2c-6a1c5608d892
Norman, Rose
6d2518aa-ece8-498f-82dc-dee5ec7b1b37

Xu, Zhizun, Haroutunian, Maryam, Murphy, Alan J., Neasham, Jeff and Norman, Rose (2020) A comparison of functional control strategies for underwater vehicles: theories, simulations and experiments. Ocean Engineering, 215, [107822]. (doi:10.1016/j.oceaneng.2020.107822).

Record type: Article

Abstract

Functional control is key for any autonomous robot, linking high-level artificial intelligence with the robot actuators. Due to environmental disturbances, model uncertainties and nonlinear dynamic systems, reliable functional control is essential and improvements in the controller design can significantly benefit the overall vehicle performance. Even though there are many published studies considering the design of various advanced controllers, most of them are not evaluated in physical experiments. In this research, four different control strategies have been investigated: Proportional-Integral-Derivative Control (PID), Sliding Mode Control (SMC), Backstepping Control (BC) and Fuzzy Logic Control (FLC). The performances of these four controllers were simulated initially and evaluated by practical experiments in different conditions, including various environmental disturbances and hydrodynamic coefficients. The main contributions are as follows: Firstly, this paper reports a comparison study between different types of controllers based on simulations and physical experiments in various conditions; Secondly, this paper provides an improved SMC algorithm combining the merits from linear control and nonlinear control, and a customized second-order FLC method.

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More information

Accepted/In Press date: 19 July 2020
e-pub ahead of print date: 26 August 2020
Published date: 26 August 2020
Keywords: AUV, Control theories, FLC, ROV, SMC

Identifiers

Local EPrints ID: 483831
URI: http://eprints.soton.ac.uk/id/eprint/483831
DOI: doi:10.1016/j.oceaneng.2020.107822
ISSN: 0029-8018
PURE UUID: 04e9375e-d2d7-400f-8f67-c51f4a346800

Catalogue record

Date deposited: 06 Nov 2023 18:19
Last modified: 17 Mar 2024 05:37

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Contributors

Author: Zhizun Xu
Author: Maryam Haroutunian
Author: Alan J. Murphy
Author: Jeff Neasham
Author: Rose Norman

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