Research on vertical air-water transmedia control of Hybrid Unmanned Aerial Underwater Vehicles based on adaptive sliding mode dynamical surface control

被引：35

作者：

Ma, Zongcheng ^{[1
]}

Feng, Jinfu ^{[1
]}

Yang, Jian ^{[1
]}

机构：

[1] Air Force Engn Univ, Aeronaut Engn Coll, Baling Rd, Xian 710038, Shaanxi, Peoples R China

来源：

INTERNATIONAL JOURNAL OF ADVANCED ROBOTIC SYSTEMS | 2018年 / 15卷 / 02期

基金：

中国国家自然科学基金;

关键词：

HUAUV; vertical water-air trans-media; adaptive sliding mode dynamical surface control;

D O I：

10.1177/1729881418770531

中图分类号：

TP24 [机器人技术];

学科分类号：

080202 ; 1405 ;

摘要：

We address the problem of vertical air-water trans-media control of Hybrid Unmanned Aerial Underwater Vehicles in the presence of parameters uncertainty and disturbances. Hybrid Unmanned Aerial Underwater Vehicle suffers from huge changes of added mass, fluid drag force, and "ground effect" during crossing air-water surface, which easily lead to transmedia failure. A novel structure of Hybrid Unmanned Aerial Underwater Vehicle is built and introduced which adopts dual deck propellers including four air propellers and four water propellers. The dynamic model of trans-media process is developed for the trans-media process in condition that added mass, floatage, and drag force are linearized while linearization errors and "ground effect" are treated as disturbances. Attitude and altitude-depth controllers are designed based on Lyapunov stability theory and adaptive sliding mode dynamical surface control. The proposed controllers accomplish air, underwater, and "seamless" trans-media process integrated control without a priori boundary of disturbances, forcing the tracking errors to an arbitrarily small neighborhood of zero. Simulation results are presented to illustrate the control algorithm with good performance and robustness.

引用

页数：10

共 50 条

[31] Adaptive Fuzzy Attitude Sliding Mode Control for a Quadrotor Unmanned Aerial Vehicle
Tianpeng Huang
Xiaoyang Gao
Tieshan Li
International Journal of Fuzzy Systems, 2024, 26 : 686 - 701
[32] Hybrid fuzzy-based sliding-mode control approach, optimized by genetic algorithm for quadrotor unmanned aerial vehicles
M. Pazooki
A. H. Mazinan
Complex & Intelligent Systems, 2018, 4 : 79 - 93
[33] Adaptive Backstepping Sliding Mode Control of Coaxial Octorotora Unmanned Aerial Vehicle
Ali, Rashid
Peng Yunfeng
Iqbal, M. Touseef
Ul Amin, Rooh
Zahid, M. Omer
Khan, Omair Irfan
IEEE ACCESS, 2019, 7 : 27526 - 27534
[34] Adaptive Fuzzy Attitude Sliding Mode Control for a Quadrotor Unmanned Aerial Vehicle
Huang, Tianpeng
Gao, Xiaoyang
Li, Tieshan
INTERNATIONAL JOURNAL OF FUZZY SYSTEMS, 2024, 26 (02) : 686 - 701
[35] Hybrid fuzzy-based sliding-mode control approach, optimized by genetic algorithm for quadrotor unmanned aerial vehicles
Pazooki, M.
Mazinan, A. H.
COMPLEX & INTELLIGENT SYSTEMS, 2018, 4 (02) : 79 - 93
[36] Robust adaptive control for hybrid electric vehicles using sliding mode control
Ding, Jingang
Jiao, Xiaohong
Zhang, Jingyi
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART I-JOURNAL OF SYSTEMS AND CONTROL ENGINEERING, 2024, 238 (02) : 272 - 287
[37] Backstepping Sliding Mode Control Algorithm for Unmanned Aerial Vehicles Based on Fractional-Order Theory
Zhang, Yanzhu
Zhuang, Bo
Ma, Chunhao
Zhang, Cheng
Wang, Yaoyao
JOURNAL OF ROBOTICS, 2023, 2023
[38] Research on Adaptive Backstepping Sliding Mode Control Method for a Hex-rotor Unmanned Aerial Vehicle
Zhang, Zhuo
Liu, Zhenghua
Wen, Nuan
2016 IEEE CHINESE GUIDANCE, NAVIGATION AND CONTROL CONFERENCE (CGNCC), 2016, : 547 - 552
[39] Fixed-Time Nonsingular Terminal Sliding Mode Control for Unmanned Aerial Vehicles
Zhang, Dou
Jiang, Guo-Ping
Zhou, Ying-Jiang
Wan, You-Hong
Jia, Zhen
PROCEEDINGS 2018 33RD YOUTH ACADEMIC ANNUAL CONFERENCE OF CHINESE ASSOCIATION OF AUTOMATION (YAC), 2018, : 220 - 225
[40] Integral Sliding Mode Active Fault-Tolerant Control for Unmanned Aerial Vehicles
Ge, Zhiwen
Liu, Jianwei
Yang, Pu
2019 CHINESE AUTOMATION CONGRESS (CAC2019), 2019, : 2216 - 2220

← 1 2 3 4 5 →