Maneuvering random hypersurface expansion target modeling method under multi-scattering point measurement

A technology for expanding targets and multiple scattering points, which can be applied to the field of target modeling under the measurement of multiple scattering points with maneuvering random hypersurfaces, which can solve problems such as time evolution

Active Publication Date: 2017-11-21
HENAN UNIV OF SCI & TECH
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Problems solved by technology

[0004] In order to solve the deficiencies in the prior art, the present invention provides a method for modeling the extended target of the maneuvering stochastic hypersurface under multi-scattering point measurement, which can solve the time evolution problem of the target’s motion state and extended form during the maneuvering process, and can also take into account Deal with the coupling relationship between the two, so as to establish a stochastic hypersurface target joint evolution model that can describe the entire maneuvering process, and ultimately help to achieve the goal of accurate tracking

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  • Maneuvering random hypersurface expansion target modeling method under multi-scattering point measurement
  • Maneuvering random hypersurface expansion target modeling method under multi-scattering point measurement
  • Maneuvering random hypersurface expansion target modeling method under multi-scattering point measurement

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Embodiment Construction

[0046] Embodiments of the present invention will be specifically described below with reference to the accompanying drawings.

[0047] Such as figure 1 As shown, a method for modeling the extended target of the maneuvering stochastic hypersurface under multi-scattering point measurement, the specific steps are as follows:

[0048] Step 1. Obtain the description parameters of the maneuvering stochastic hypersurface extended target from the multi-scattering point measurement and preprocess it,

[0049] Description parameters include:

[0050] (1) Extended form, use random vector Represent; (2) Motion state, use random vector express;

[0051] The preprocessing process includes:

[0052] (1) use Obtain the radial function of the extended target of the maneuvering random hypersurface, perform Fourier series expansion on the radial function, and use the constant term and all coefficients in the expansion to obtain the multidimensional extended shape parameter vector of the...

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Abstract

A maneuvering random hypersurface expansion target modeling method under multi-scattering point measurement comprises the specific steps: 1, obtaining maneuvering random hypersurface expansion target description parameters from multi-scattering point measurement, and preprocessing the description parameters; 2, using the preprocessed description parameters to obtain the maneuvering random hypersurface expansion target form descriptions; 3, translating a maneuvering random hypersurface expansion target contour curve according to the form descriptions, thus obtaining a maneuvering random hypersurface expansion target maneuvering description; 4, using a maneuvering random hypersurface expansion target motion state transfer matrix to solve a system transfer matrix; 5, using the maneuvering description and the system transfer matrix to obtain a maneuvering random hypersurface expansion target system model. The method can solve the time evolution problems of the target motion states and expansion forms in a maneuvering process, thus precisely tracking the target.

Description

technical field [0001] The invention relates to the technical field of target tracking, in particular to a method for modeling a motorized stochastic hypersurface extended target under multi-scattering point measurement. Background technique [0002] With the substantial improvement of the resolution capability of modern high-precision sensors and the rapid development of information processing technology, larger targets in the acquired echoes and distance walking caused by long-term coherent accumulation will cause the target to occupy multiple resolution units of the sensor, thus With high-resolution imaging capabilities. Correspondingly, at each observation moment, the sensor will receive multiple scattering point measurements from the same observation object, and at the same time it can also distinguish the shape, outline and structural features of the target. Using this information can effectively improve the target tracking performance and recognition accuracy . In t...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S7/41G01S13/72
CPCG01S7/415G01S13/723
Inventor 孙力帆何子述张雅媛冀保峰张高远普杰信王旭栋
Owner HENAN UNIV OF SCI & TECH
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