Deep-sea vessel dynamic positioning oriented high-precision real-time state estimation method and system

A technology of dynamic positioning and real-time status, which is applied in the field of ships and ocean engineering, and can solve problems such as the decrease of filtering accuracy, the accuracy of state estimation that cannot meet the actual application requirements, and the easy divergence of algorithms

Inactive Publication Date: 2014-06-04
WUHAN UNIV OF TECH
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Problems solved by technology

[0004] However, the state estimation filter used in the existing ship dynamic positioning system has the following problems: the classical Kalman filter is only suitable for the state estimation of the linear system; although the extended Kalman filter can be applied to the nonlinear system, its There is a large estimation error, so the accuracy of state estimation cannot meet the needs of practical applications; although the nonlinear passive observer overcomes the shortcomings of the extended Kalman filter and is successfully applied to the state estimation of nonlinear systems, but , under normal circumstances, when the noise parameters introduced by the first-order wa

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  • Deep-sea vessel dynamic positioning oriented high-precision real-time state estimation method and system
  • Deep-sea vessel dynamic positioning oriented high-precision real-time state estimation method and system
  • Deep-sea vessel dynamic positioning oriented high-precision real-time state estimation method and system

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[0020] The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0021] Such as figure 1 As shown, the high-precision real-time state estimation system for deep sea ship dynamic positioning of the present invention includes: sensor data preprocessing module 100, high and low frequency signal separation module 200, high frequency linear parameter estimation module 300, low frequency nonlinear parameter estimation module 400 and edge Optimized particle filter module 500.

[0022] Considering the characteristics of the ship dynamic positioning system itself and the positioning requirements in the deep sea environment, the present invention adopts the marginalized particle filter method and combines the Kalman filter and the particle filter to jointly estimate the motion state of the ship. The Kalman filter is used to obtain the optimal estimation of the high-frequency linear motion state, and the par...

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Abstract

The invention relates to a deep-sea vessel dynamic positioning oriented high-precision real-time state estimation method and system. The method includes: separating a high-frequency signal caused by a first-order wave force from a low-frequency vessel motion signal so as to obtain a high-frequency motion component and a low-frequency motion component; in a marginalized particle filter frame, subjecting both the high-frequency motion component the low-frequency motion component to parameter estimation and state estimation; using results of the parameter estimation and state estimation as input of next-cycle parameter estimation and state estimation, and repeating the steps until the end. The deep-sea vessel dynamic positioning oriented high-precision real-time state estimation method and system has the advantages that the difference between high-frequency linear motion and low-frequency linear motion is fully considered, the nose parameter estimation method applicable to both high-frequency and low-frequency motions is provided, the state estimation method based on marginalized particle filter and oriented towards vessel dynamic positioning is therefore provided, and state estimation precision increase and timeliness are balanced.

Description

technical field [0001] The invention belongs to the field of ships and ocean engineering, and in particular relates to a high-precision real-time state estimation method and system for dynamic positioning of deep-sea ships. Background technique [0002] Countries in the world today are facing serious energy shortages, and the ocean is rich in resources. Therefore, countries around the world are competing to shift their strategic focus to the ocean field, investing a lot of manpower and material resources in marine geological surveys, oil and gas exploration, aquatic fishing, Research work such as marine surveys and underwater archaeology. The 18th National Congress of the Communist Party of my country held in our country also raised the construction of a maritime power to the national strategic level. The development of advanced marine technology and equipment plays an extremely important role in the development of marine resources and the protection of national marine righ...

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Application Information

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IPC IPC(8): G06F19/00
Inventor 冯辉徐海祥李文娟
Owner WUHAN UNIV OF TECH
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