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A Parameter Adaptive Trajectory Prediction Method for Mobile Nodes

A trajectory prediction, mobile node technology, applied in wireless communication, network topology, service based on location information, etc., to achieve the effect of improving positioning accuracy and speed

Inactive Publication Date: 2018-10-02
SHANGHAI MARITIME UNIVERSITY
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  • Claims
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AI Technical Summary

Problems solved by technology

[0005] The invention provides a parameter adaptive trajectory prediction method for mobile nodes, which solves the problems of high dynamics and other problems faced in the positioning of nodes in wireless sensor networks for maritime search and rescue, can improve the ability of dynamic node positioning at sea, and improve the speed and success rate of maritime search and rescue

Method used

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  • A Parameter Adaptive Trajectory Prediction Method for Mobile Nodes
  • A Parameter Adaptive Trajectory Prediction Method for Mobile Nodes
  • A Parameter Adaptive Trajectory Prediction Method for Mobile Nodes

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specific Embodiment

[0073] Determining the Motion Correlation Coefficient

[0074] Construct the wave motion model with linear wave waves, and use the ship-borne Global Positioning System (Global Position System, GPS), emergency radio position indicating beacon (Emergency Position Indicator Radio Beacon, EPIRB), search or search and rescue astronomical artificial satellite system (Search And Rescue) in case of shipwreck Rescue Satellite AidedTracking, SARSAT) and other equipment determine the initial position and motion of the node when it falls into the water, as the initial speed and direction of the node motion under the GMMM model, and the motion speed and direction of the node at the next moment are updated according to the motion data of the previous time period of the node .

[0075] Suppose a certain sea area m mobile beacon node p 1 ,p 2 ,...p m The position is known in real time, let a certain node p i The set of positions at time 1, time 2, ... time t is:

[0076] {p i |(x 1 ,...

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Abstract

The invention relates to a mobile node parameter adaptive track prediction method. The influences of environmental factors on nodes under a dynamic sea condition are considered; the adaptability to a variable environment is fully considered specific to the requirement of a sea moving object on a positioning method; and the motion situations of beacon nodes are introduced into node motion track prediction. After a motion track is determined, a sampling region and a sample point weight are determined on the basis of an improved Monte Carlo method. Information about relative positions with one-hop and two-hop beacon nodes in the motion processes of unknown nodes is taken as a filter condition, so that the sampling rate, sampling speed and positioning accuracy are increased. The adaptive track prediction method can be established according to environmental changes. The motion tracks of the unknown nodes are predicted through effective utilization of the motion situations of sea area beacon nodes, and an improved Monte Carlo positioning method is put forward in combination with motion characteristics, so that the sea dynamic node positioning capability can be enhanced, and the sea search-rescue speed and success rate are increased.

Description

technical field [0001] The invention relates to the field of maritime search and rescue wireless sensor networks, in particular to a parameter adaptive trajectory prediction method of a mobile node. Background technique [0002] The rapid development of the economy and the continuous expansion of foreign trade have promoted the development of marine undertakings such as maritime transportation, and the ocean has become an important support for the survival and development of human society. People's efforts to develop, utilize, protect and manage the ocean are constantly increasing. Coastal countries have taken the development of marine economy as an important development strategy. With the rapid development of maritime economy and trade, the number of marine employees has increased sharply, and the number of maritime accidents and casualties has also continued to rise, resulting in increasingly arduous tasks of maritime search and rescue and object tracking and positioning. ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04W64/00H04W84/18H04W4/029
CPCH04W4/027H04W4/029H04W64/006H04W84/18
Inventor 吴华锋郭世俊
Owner SHANGHAI MARITIME UNIVERSITY
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