CN112083406A - External radiation source two-dimensional positioning method stable to target height - Google Patents

Abstract

The invention belongs to the technical field of electronic information, and particularly relates to a two-dimensional positioning method of an external radiation source with stable target height. The method is used for determining the plane coordinates of the target by measuring the one-dimensional incoming wave direction and the arrival time difference of the echo signal reflected by the target under the condition that the height of the target is unknown. By using the method provided by the invention, under the condition that the target height is unknown, the positioning accuracy of the plane coordinate (two-dimensional positioning) of the determined target is not influenced by the unknown target height by measuring the one-dimensional wave arrival direction and the arrival time difference of the echo signal reflected by the target.

Description

External radiation source two-dimensional positioning method stable to target height

Technical Field

The invention belongs to the technical field of electronic information, and particularly relates to an external radiation source two-dimensional positioning method based on time difference measurement and one-dimensional direction finding and stable in target height.

Background

There are three main types of methods for locating non-cooperative targets using radio signals. The first type is an active positioning method, in which a positioning station actively transmits a signal and positions a target by receiving a reflected echo of the target. This type of method is prone to reveal the location of the positioning station itself, since the positioning station needs to actively radiate a signal. The second type is a passive positioning method, in which a positioning station receives a signal radiated by a target and positions the target by measuring parameters such as the incoming wave direction, the arrival time difference and the like of the target radiation signal. This type of approach is covert in that the positioning station does not need to actively transmit signals. However, when the non-cooperative target keeps the radio silent and does not radiate a signal, the passive positioning method cannot achieve passive positioning of the target because the radiated signal of the target is not received. The third category is external radiation source localization methods. In fact, a large number of radiation sources exist in the surrounding environment of the positioning station, and signals emitted by these external radiation sources reach the positioning station through target reflection, so that the positioning station can receive echo signals reflected by a target and position the target by measuring parameters such as the incoming wave direction and the arrival time difference of the echo signals reflected by the target. In this kind of method, since the positioning station does not need to actively transmit signals and does not need signals depending on the radiation of the target, it not only has concealment, but also can perform external radiation source positioning on non-cooperative targets keeping radio silent, and has gained more and more attention and application in recent years.

In principle, the positioning station can perform plane (two-dimensional) positioning on the target by measuring the one-dimensional incoming wave direction and arrival time difference of the echo signal reflected by the target by using an external radiation source. However, since the actual height of the target is unknown and the actual height of the target is generally not equal to zero, the planar (two-dimensional) positioning accuracy of the external radiation source positioning method is affected by the height of the target, which limits the popularization and application of the external radiation source positioning method.

Disclosure of Invention

The invention aims to solve the problem of how to determine the plane coordinate (two-dimensional positioning) of a target by measuring the one-dimensional incoming wave direction and arrival time difference of an echo signal reflected by the target under the condition that the height of the target is unknown, so that the positioning accuracy of an external radiation source is not influenced by the unknown height of the target.

The technical scheme adopted by the invention is as follows:

a two-dimensional positioning method of an external radiation source with stable target height is used for determining plane coordinates of a target by measuring one-dimensional incoming wave direction and arrival time difference of echo signals reflected by the target under the condition that the target height is unknown; the method comprises the following steps:

s1, initialization: coordinates (0,0,0) of positioning station, number K of external radiation sources and coordinates (x) of external radiation sources_k,y_k0), one-dimensional direction finding angle

Echo time difference measurement of k-th external radiation source signal reflected by target

k＝1,2,...,K；

S2, determining the distance between the kth external radiation source and the positioning station:

the sum of the distances of the target reflected waves:

c is the speed of light;

s3, determining a positioning matrix:

s4, determining a positioning vector:

s5, obtaining a target positioning result:

wherein Q^TRepresenting the transpose of the positioning matrix Q.

The invention has the beneficial effects that: by using the method provided by the invention, under the condition that the target height is unknown, the positioning accuracy of the plane coordinate (two-dimensional positioning) of the determined target is not influenced by the unknown target height by measuring the one-dimensional wave arrival direction and the arrival time difference of the echo signal reflected by the target.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the following examples.

The implementation of the invention mainly comprises the following steps:

s1, initializing, namely, the light speed c, the coordinates (0,0,0) of the positioning station, the number K of external radiation sources and the coordinates (x) of the external radiation sources_k,y_k0), one-dimensional direction finding

Echo time difference measurement of k-th external radiation source signal reflected by target

K1, 2, K, writing to a memory;

s2, determining the distance between the kth external radiation source and the positioning station:

distance sum of target reflection wave

Wherein K is 1, 2.., K;

s3, determining a positioning matrix:

s4, determining a positioning vector:

s5, determining a target positioning result insensitive to the target height:

wherein Q^TRepresenting the transpose of the positioning matrix Q.

Examples

In this example, the speed of light c is 3e8 m/s, the coordinates of the positioning station are (0,0,0), and the number of external radiation sources K is 2; the coordinates of the first external radiation source are (-1,29,0) and the coordinates of the second external radiation source are (2, -27,0), both in kilometers for this example.

When the actual coordinates of the target are (104,14,0.3), the echo time difference of the first external radiation source signal reflected by the target is measured

For 606.9350 microseconds, the target reflecting the second external radiation source signalEcho time difference measurement

626.2935 microseconds, one-dimensional direction finding

At 10.3565 degrees, the method of the invention determines the target two-dimensional coordinates to be (103.2729,13.9615) and the error to be 0.7281. The positioning station utilizes the first external radiation source to determine the two-dimensional coordinates (103.9503,18.9969) of the target by measuring the one-dimensional wave direction and arrival time difference of the echo signal reflected by the target, and the error is 4.9971; compared with the method, the method has the advantage that the precision is improved by 85.43 percent. The positioning station utilizes a second external radiation source to determine the two-dimensional coordinates (102.6741,18.7637) of the target by measuring the one-dimensional wave direction and arrival time difference of the echo signal reflected by the target, and the error is 4.9448; compared with the method, the precision of the method is improved by 85.28%.

When the target heights are 3, 6, 9, 12, 15 and 18 kilometers respectively, the positioning errors of the method of the invention are 0.2550, 0.2637, 0.2807, 0.3181, 0.3553 and 0.3981 kilometers respectively in the case that the target heights are unknown; the errors of plane positioning of the target by measuring the one-dimensional incoming wave direction and arrival time difference of echo signals reflected by the target by using the first external radiation source are 1.8948, 2.2436, 3.3060, 4.9930, 7.0502 and 9.4280 kilometers respectively, and compared with the method, the method has the advantages that the precision is improved by 86.54%, 88.25%, 91.51%, 93.63%, 94%, 96% and 95.78% respectively; by using the second external radiation source, errors of plane positioning of the target by measuring the one-dimensional incoming wave direction and arrival time difference of echo signals reflected by the target are 1.8871, 2.2048, 3.1983, 4.7844, 6.7082 and 8.9172 kilometers respectively, and compared with the method, the method has the advantages that the precision is improved by 86.49%, 88.04%, 91.22%, 93.35%, 94.70% and 95.54% respectively.

In summary, the present invention provides a method for determining a planar coordinate of a target (two-dimensional positioning) by measuring a one-dimensional incoming wave direction and an arrival time difference of an echo signal reflected by the target under the condition that the target height is unknown, and the positioning accuracy is not affected by the unknown target height.

Claims (1)

1. A two-dimensional positioning method of an external radiation source with stable target height is used for determining plane coordinates of a target by measuring one-dimensional incoming wave direction and arrival time difference of echo signals reflected by the target under the condition that the target height is unknown; the method is characterized by comprising the following steps:

s1, initialization: coordinates (0,0,0) of positioning station, number K of external radiation sources and coordinates (x) of external radiation sources_k,y_k0), one-dimensional direction finding angle

Echo time difference measurement of k-th external radiation source signal reflected by target

S2, determining the distance between the kth external radiation source and the positioning station:

the sum of the distances of the target reflected waves:

c is the speed of light;

s3, determining a positioning matrix:

s4, determining a positioning vector:

s5, obtaining a target positioning result:

wherein Q^TRepresenting the transpose of the positioning matrix Q.