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Single-step predictive control stabilization method for high-speed multi-hull ship

A technology of predictive control and multihull ships, applied in vehicle position/route/height control, attitude control, adaptive control, etc., can solve problems such as weak robustness, limited anti-rolling performance, chattering in sliding mode control, etc.

Active Publication Date: 2020-12-11
HARBIN ENG UNIV
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Problems solved by technology

[0005] Traditional anti-rolling control adopts pitching and heave channels to be separated and then controlled, and PD anti-rolling control method is designed, but it needs a lot of time to debug parameters offline, the robustness is weak, and the anti-rolling effect is average
[0006] On the other hand, the optimal control of modern control theory has poor robustness, and the chattering phenomenon exists in sliding mode control, resulting in limited anti-rolling performance, poor self-adaptive ability, and limited application range.

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  • Single-step predictive control stabilization method for high-speed multi-hull ship
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  • Single-step predictive control stabilization method for high-speed multi-hull ship

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Embodiment Construction

[0070] The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0071] The purpose of the present invention is to provide a single-step predictive control anti-rolling method of a high-speed multi-hull ship, which can improve the longitudinal motion stability of the high-speed multi-hull ship.

[0072] A single-step predictive control anti-rolling method for a high-speed multihull ship, specifically comprising the following steps:

[0073] S1, establish the vertical motion model of multihull coupling;

[0074] S2, mathematically transform the coupled vertical motion model to obtain a decoupled heave and pitch motion model with single input and single output;

[0075] S3, design a finite time observer, estimate the coupling item of the heave motion and pitch motion of the multihull ship online, and obtain the compensation amount of anti-rolling;

[0076] S4, design a single-step predictive contro...

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Abstract

The invention provides a single-step predictive control stabilization method for a high-speed multi-hull ship. The method comprises the following steps that a coupled vertical motion model of a multi-hull ship is established; mathematical transformation is conducted on the coupled vertical motion model to obtain a single-input single-output decoupling heaving and pitching motion model; a finite time observer is designed, a coupling item of heaving motion and pitching motion of the multi-hull ship is estimated on line, and the stabilization compensation amount is obtained; a single-step predictive control law is designed, and the stabilization feedback control amount of heaving motion and pitching motion is calculated; and the compensation amount and the feedback control amount are added, and the control attack angle of a T-shaped wing and a wave suppression plate is obtained through inverse operation of a control distribution matrix of a stabilization appendage. According to the invention, heaving and pitching of the multi-hull ship in motion are obviously reduced. The predictive control method with a finite time expansion observer is applied to longitudinal stabilization of a high-speed multi-hull ship. The method is suitable for a multi-interference and high-ship-speed marine navigation environment, the influence of sea waves on the stability of the multi-hull ship can be effectively reduced, and the performance of the multi-hull ship is improved.

Description

technical field [0001] The invention relates to a single-step predictive control anti-rolling method, in particular to a single-step predictive control anti-rolling method for a high-speed multi-hull ship, belonging to the field of high-speed multi-hull ship longitudinal motion anti-rolling control. Background technique [0002] High-speed multihull ships have good lateral stability, seakeeping and maneuverability, and have a wide range of applications. However, its unique linearity and structure lead to excessive pitch and heave during navigation, which seriously affects its performance, so it is particularly important to suppress its heave and pitch. [0003] At present, most multihull ships use T-shaped wings and wave suppressors as anti-rolling appendages, and design reasonable control strategies for anti-rolling control. [0004] Affected by different sea conditions and hull motion states encountered in actual navigation, the motion of multihull ships is relatively com...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04G05D1/08
CPCG05B13/048G05B13/042G05D1/0875
Inventor 刘志林郑林熇朱齐丹曾薄文张军余鹏
Owner HARBIN ENG UNIV
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