Dynamic positioning information fusion method for underwater unmanned robot cluster

A technology of dynamic positioning and fusion methods, which is applied in the directions of instruments, navigation, surveying and navigation, etc., can solve the problems of unsuitable AUV cluster formation, narrow bandwidth of underwater acoustic communication channel, and low data transmission rate, so as to avoid the problem of asynchronous filtering, The effect of eliminating gross observation errors and ensuring timeliness

Pending Publication Date: 2021-06-29
JIANGSU UNIV OF SCI & TECH
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Problems solved by technology

[0003] However, compared with the traditional land and air co-location method based on radio communication network, multi-AUV cluster co-location based on acoustic communication network has completely different technical characteristics and difficulties.
A single AUV only has local perception and communication capabilities, and underwater acoustic communication has problems such as narrow channel bandwidth, low data transmission rate, long measurement time, and insufficient real-time performance. Centralized decision-making and global decision-making methods are not suitable for the submarine environment next need
The deep-sea environment is complex and changeable, which leads to the communication of AUV cluster formations showing sparse and dynamic characteristics, and the message passing method in the distributed co-location method relies on tree or ring communication topology, so for AUV with dynamic topology Swarm formation is almost impossible to apply

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  • Dynamic positioning information fusion method for underwater unmanned robot cluster
  • Dynamic positioning information fusion method for underwater unmanned robot cluster
  • Dynamic positioning information fusion method for underwater unmanned robot cluster

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Embodiment

[0074] Example: such as Figure 1 to Figure 4 As shown, a dynamic positioning information fusion method for underwater unmanned robot swarms, the method includes the following steps:

[0075] Step 1: Build the state space model of the multi-AUV collaborative positioning system, comprehensively consider the dynamic characteristics of the platform, determine the input parameters, add Gaussian noise, and establish the motion equation. Build a communication network model based on the average network undirected graph, describe the sparsity through the effective communication connection edge set between any nodes, and describe the sparse network by monitoring the change of the relative probability value in the average adjacency matrix and the average Laplacian matrix Random dynamic changes, describing the convergence of the consensus method from the perspective of mean square convergence.

[0076] Step 2: Use threshold weighting to eliminate gross errors in local information: the b...

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Abstract

The invention relates to the technical field of unmanned robot clusters, in particular to a dynamic positioning information fusion method for an underwater unmanned robot cluster. A concept of a consistency method under dynamic topology is introduced, a distributed unscented Kalman filtering method is combined, a local unscented filter and a weighted average consistency filter are embedded in each node of a communication network, and the local unscented filter utilizes local multi-source observation information of each AUV node to obtain a local unbiased estimator about the positioning state of the measured node; and meanwhile, the weighted average consistency filter carries out consistent fusion on all local posteriori estimations, so that a global posteriori estimation result is output in a mode that an information matrix weights a posteriori estimation mean value.

Description

technical field [0001] The invention relates to the technical field of unmanned robot swarms, in particular to a dynamic positioning information fusion method for underwater unmanned robot swarms. Background technique [0002] With the maturity of AUV technology, the difficulty and complexity of the tasks it faces are also increasing. Due to its own limitations, a single AUV can no longer meet the new requirements of increasingly precise, diverse and complex tasks. AUV is moving towards miniaturization. , Simplified structure, intelligent, hybrid and group development. In particular, multiple AUVs have some advantages that a single AUV does not have, such as higher fault tolerance, robustness, high-efficiency operations, reconfigurability, distributed perception and coordination, and wider application fields. [0003] However, compared with the traditional land and air co-location method based on radio communication network, multi-AUV cluster co-location based on acoustic c...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C21/20
CPCG01C21/203
Inventor 朱志宇简杰魏海峰
Owner JIANGSU UNIV OF SCI & TECH
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