Design and extensibility analysis of a variable buoyancy system for small autonomous underwater vehicles

Yi Xia, Yonglong Li, Hongbin Zang, Yanpian Mao, Haoran Wang, Jialong Li
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Abstract

Purpose

A switching depth controller based on a variable buoyancy system (VBS) is proposed to improve the performance of small autonomous underwater vehicles (AUVs). First, the requirements of VBS for small AUVs are analyzed. Second, a modular VBS with high extensibility and easy integration is proposed based on the concepts of generality and interchangeability. Subsequently, a depth-switching controller is proposed based on the modular VBS, which combines the best features of the linear active disturbance rejection controller and the nonlinear active disturbance rejection controller.

Design/methodology/approach

The controller design and endurance of tiny AUVs are challenging because of their low environmental adaptation, limited energy resources and nonlinear dynamics. Traditional and single linear controllers cannot solve these problems efficiently. Although the VBS can improve the endurance of AUVs, the current VBS is not extensible for small AUVs in terms of the differences in individuals and operating environments.

Findings

The switching controller’s performance was examined using simulation with water flow and external disturbances, and the controller’s performance was compared in pool experiments. The results show that switching controllers have greater effectiveness, disturbance rejection capability and robustness even in the face of various disturbances.

Practical implications

A high degree of standardization and integration of VBS significantly enhances the performance of small AUVs. This will help expand the market for small AUV applications.

Originality/value

This solution improves the extensibility of the VBS, making it easier to integrate into different models of small AUVs. The device enhances the endurance and maneuverability of the small AUVs by adjusting buoyancy and center of gravity for low-power hovering and pitch angle control.

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小型自动潜航器可变浮力系统的设计和扩展性分析
目的 提出一种基于可变浮力系统(VBS)的开关深度控制器,以提高小型自动潜航器(AUV)的性能。首先,分析了小型自动潜航器对 VBS 的要求。其次,根据通用性和互换性的概念,提出了一种具有高度可扩展性和易于集成的模块化 VBS。随后,在模块化 VBS 的基础上,提出了一种深度切换控制器,该控制器结合了线性主动干扰抑制控制器和非线性主动干扰抑制控制器的最佳特性。传统和单一线性控制器无法有效解决这些问题。虽然 VBS 可以提高 AUV 的续航能力,但由于个体和工作环境的差异,目前的 VBS 无法扩展到小型 AUV 上。研究结果通过模拟水流和外部干扰检验了开关控制器的性能,并在水池实验中比较了控制器的性能。结果表明,即使面对各种干扰,开关控制器也具有更高的有效性、干扰抑制能力和鲁棒性。原创性/价值该解决方案提高了 VBS 的可扩展性,使其更容易集成到不同型号的小型 AUV 中。该装置通过调整浮力和重心来实现低功率悬停和俯仰角控制,从而增强了小型自动潜航器的续航能力和机动性。
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