CN107271970B - A kind of radar co-interfere method based on distributed platform - Google Patents

Abstract

The invention belongs to radar co-interfere technical fields, are related to a kind of radar co-interfere method based on distributed platform.How method of the invention is used in combination the mode co-interfere radar of compacting and deception mainly when by threat radar, between the platform in multi-platform troop.When interfering radar scanning, as how as few as possible jamming emitter forms the interference covering of the fan comprising all platforms.When some platform is by radar tracking, according to the distribution situation of other platforms, mark off other platforms can cooperate with the interference of tracked platform region and it is final according to enemy radar position determine specifically can co-interfere platform and the conflicting mode that should take；Method of the invention is particularly suitable for hip-based platform use.

Description

A kind of radar co-interfere method based on distributed platform

Technical field

The invention belongs to radar co-interfere technical fields, are related to a kind of radar co-interfere side based on distributed platform Method.

Background technique

At one by multiple distributed platforms that there is independent interference radar ability to form, due to each platform itself Interference performance is limited, possibly can not play good interference effect, at this moment the co-interfere between platform is just particularly important.

The operating mode of radar generally comprises two aspect of scanning and tracking.Outgoing execution task opposes radar to our platform Region carries out scout scan.When radar scanning is interfered in compacting, several particular platforms in platform are targetedly selected Compacting, can effectively increase interference covering of the fan.And the case where pressing type interference is used together compared to all platforms, it can be with Reduce extra jamming emitter.

When some platform is found and tracked by radar, other platforms can cooperate with tracked platform to carry out radar Interference.But interference or cheating interference no matter are suppressed, the platform and tracked platform for requiring collaboration are in same radar beam model In enclosing, the effect of co-interfere otherwise can not be played.It just needs according to the location of enemy's radar at this time, selecting can specifically assist Same platform, and further determine that using pressing type interference or Deceiving interference.

The relevant research achievement of combined type radar co-interfere is less at present, most of to be only based solely on pressing type or take advantage of Deceive the jamming exposure area of formula, and shorter mention it is multi-platform between collaboration.

Summary of the invention

The technical problem to be solved by the present invention is to, when by threat radar, between the platform in multi-platform troop why The mode co-interfere radar of compacting and deception is used in combination in sample.When interfering radar scanning, such as how as few as possible interference Radiation source forms the interference covering of the fan comprising all platforms.When some platform is by radar tracking, according to the distribution feelings of other platforms Condition, the region of tracked platform interference can be cooperateed with and finally specifically may be used according to the determination of enemy radar position by marking off other platforms The platform of co-interfere and the conflicting mode that should be taken；Method of the invention is particularly suitable for hip-based platform use.

The present invention is provided in order to solve the above problem, and the technical scheme comprises the following steps:

A kind of radar co-interfere method based on distributed platform, this method are tracked for a certain platform by radar scanning When, according to the distribution situation of all platforms, the region of tracked platform interference can be cooperateed with and according to target by marking off other platforms The determination of radar position can co-interfere platform and the conflicting mode that should take, equipped with jammer on each platform, It is characterized in that,

When by radar scanning, comprising the following steps:

S1, the jamming power that each platform in distributed platform enters radar receiver input terminal is obtained:

Wherein, P_jFor platform interference source transmission power；For interference source antenna gain function；G_t(θ) is radar reception The gain function of antenna；λ is interference signal wavelength；γ_jIt is interference signal to the polarization loss of radar antenna；B_rFor radar reception Machine bandwidth；R_jFor the distance of radar to interference source；B_jFor jamming signal bandwidth；L_jFor the interference source transmission loss factor；Setting interference Antenna main lobe is directed at radar direction always, i.e.,

S2, the radar return power for obtaining each platform in distributed platform:

Wherein, P_tFor radar transmission power；R_tFor the distance on naval vessel to radar；L_sFor Radar Signal Transmission fissipation factor；σ For the effective sectional area of platform；

S3, the effective interference covering of the fan θ for obtaining each platform_s:

According to the radar return power that the step S1 jamming power obtained and step S2 obtain, each platform P is calculated_rj/P_s =K_jWhen corresponding radar receiving antenna gain G_t(θ):

θ is calculated according to above formula, to obtain effectively interference covering of the fan θ_sAre as follows:

θ_s=2 θ

S4, least interference covering of the fan is obtained:

According to effective interference covering of the fan θ of the step S3 each platform obtained_sAnd the actual distribution positional relationship of platform, Least interference covering of the fan ψ needed for covering all platforms is obtained according to geometrical principle, as shown in Figure 2；

S5, the collaborative platform for determining specific implementation compacting interference:

s.t.F≥ψ

θ_isFor effective interference covering of the fan of each platform of specific implementation compacting interference, subscript i is that the collaborative platform of selection is compiled Number.

When by radar tracking, comprising the following steps:

Area and miscoordination area are cooperateed between two S6, acquisition platforms:

If be tracked platform be G, collaborative platform A, tracking radar B, using be tracked platform G as coordinate origin, by with Straight line where track platform G and collaborative platform A is X-axis, establishes rectangular coordinate system, and radar beam center, which is directed toward, is tracked platform G, BG It is radar beam center line, for collaborative platform A in same radar beam, BA is the boundary line of radar beam width,Be BG and The angle of AB two lines is the half of radar beam width, as shown in Figure 3.

It can be obtained by sine:

If ∠ BGA=θ,Substituting into above formula can obtain:

Due to the position of A, G platform be it is known, in institute's above formula AG be known quantity, what is obtained is the relational expression of BG and θ； Wherein BG is the critical distance of radar and tracked platform when A, G warship are just in same radar beam under current θ value, and being less than should Then A, G platform not in same radar beam and then cannot achieve co-interfere to value, be greater than the value then A, G in same radar beam It is interior and then co-interfere may be implemented；

It enables:

The coordinate value of enemy's radar when A, G platform are just in same radar beam under current angular θ can be obtained；

S7, angle, θ π from 0 to 2 is enabled successively value and to substitute into the calculating formula of BG, the point that each angle, θ is obtained at equal intervals Connection is to get to the line of demarcation for cooperateing with area and miscoordination area of A, G platform；Simulation result is as shown in Fig. 4, wherein " o " generation Table center warship G, " * " represent escort vessel A, and two circles of two sides are the critical line that A, G warship can cooperate with area and miscoordination area.When When opposing radar in two round domains, A, G warship, can not co-interferes not in same radar beam；When enemy's radar is located at two When circle is overseas, A, G warship, can co-interferes in same radar beam.Attached drawing 5 is can be obtained into the amplification of attached drawing 4；

S8, find out tracked platform and any platform cooperate with area, and combine；

S9, the region according to locating for enemy's radar, determination specifically can be with the platform of co-interfere；

S10, co-interfere mode is determined, specifically:

The disturbance suppression ratio J/S of S101, radar receiver input terminal are as follows:

Wherein, P_t(W)、G_tIt (dB) is respectively radar transmission power and antenna gain；σ(m²) be target radar cross section； R_jIt (m) is the distance between radar and jammer；P_j(W)、G_jIt (dB) is respectively interference transmission power and antenna gain；G_t(dB) For radar antenna interference radiating way gain；γ_jFor the polarization mismatch loss coefficient of interference signal and radar signal；R_tIt (m) is thunder Up to the distance between with target；

S102, the total disturbance suppression ratio for calculating radar receiving end

In formula, i is the platform quantity of co-interfere together, a shared n, there was only R in above formula_tFor unknown number, work as thunder Reach the R after determination_jiIt can be expressed as R_tFunction；

S103, orderIt is counter to solve R_tSeparation as compacting interference and cheating interference；

S104, it is greater than R when radar and tracked platform spacing_tThe interference of Shi Caiyong pressing type, is less than R_tIt is dry that Shi Caiyong cheats formula It disturbs.

The invention has the advantages that being given compound between the platform in multi-platform troop when by threat radar Use the method for the mode co-interfere radar of compacting and deception.

Detailed description of the invention

Fig. 1 the method for the present invention flow chart

Minimum covering of the fan explanatory diagram needed for Fig. 2 covers all platforms

Platform, collaborative platform and enemy's radar site relational graph are tracked in Fig. 3 step (2)

Collaboration/miscoordination zoning component of Fig. 4 A, G platform

Collaboration/miscoordination Division partial enlarged view of Fig. 5 A, G platform

Fig. 6 emulates a platform distribution map

Fig. 7 emulates a result figure

Fig. 8 emulates a result partial enlarged view

Fig. 9 emulates one 90 ° of range areas and divides schematic diagram

Figure 10 emulates two platform distribution maps

Figure 11 emulates two result figures

Figure 12 emulates two result partial enlarged views

Figure 13 emulates 2 45 ° of range areas and divides schematic diagram

Specific embodiment

The present invention is further explained in the following with reference to the drawings and specific embodiments.

For method of the invention is applied to hip-based platform, these embodiments are interpreted as being merely to illustrate the present invention Rather than it limits the scope of the invention.After having read the content of the invention recorded, those skilled in the art can be with The present invention is made various changes or modifications, these equivalence changes and modification equally fall into model defined by the claims in the present invention It encloses.

Emulation one

Assuming that enemy's radar is airborne fire control radar, radar beam width is 3 °, antenna gain " flat " in beam angle, That is G_t(θ)=G_t.Our fleet's formation is as shown in Fig. 6, and using A warship as the center of circle, other 6 warships are spacedly distributed is in radius On the circle of 50Km, enemy's airborne fire control radar is in front of the fleet at 200Km.Assuming that the jamming power on every naval vessel, interference antenna increase It is beneficial same.Effective interference covering of the fan θ on every naval vessel_sTwice of radar beam width, i.e., 6 ° are equal to, needed for entire fleet 15 ° of ≈ of least interference covering of the fan ψ=arcsin (50/200).By formula (5) it is found that at least needing 3 warship compacting radars in fleet Can make interfere covering of the fan include entire fleet, from the specific formation of fleet it can be concluded that tri- warships of B, F, G using compacting interfere come pair Anti- radar scanning.

Assuming that A warship, by enemy's radar tracking, other warships collaboration A warship is interfered.Find out first B~G warship respectively with A warship can Area is cooperateed with, and is combined, simulation result is as shown in Fig. 7.Due to the limitation of the conditions such as line-of-sight propagation, radar working distance is opposed From it is not possible that infinitely great, it is assumed that maximum functional distance is 360Km.By attached drawing 7 using A warship as the center of circle, 360Km is that the region of radius is put Attached drawing 8 is obtained greatly.From attached drawing 8 as it can be seen that finally obtained region division also has symmetrically since fleet's formation has symmetry Property only takes the region wherein within the scope of 90 ° to be analyzed, other regions can be obtained a result with analogy.The 90 ° of range areas taken out Be divided into 6 pieces of zonules altogether, number respectively 1.~6. and be drawn as the form of schematic diagram, as shown in Fig. 9.It is every to analyze below The naval vessel that specifically A warship can be cooperateed with to be interfered in block zonule.

1. number 1. number region cooperates with area and D warship cooperateing in area to A warship to A warship in G warship, so when enemy's radar is When region, G, D warship can cooperate with A warship to be interfered.

2. number region cooperateing in area to A warship in D warship, so D warship can cooperate with A when opposing radar at 2. number region Warship is interfered.

3. number region is not in an any warship cooperateing in area to A warship, so not having when opposing radar at 3. number region Other warships can cooperate with A warship, can only A warship itself take jamming countermeasure.

4. number region cooperateing in area to A warship in E warship, so E warship can cooperate with A when opposing radar at 4. number region Warship is interfered.

5. number 5. number region cooperates with area and E warship cooperateing in area to A warship to A warship in B warship, so when enemy's radar is When region, B, E warship can cooperate with A warship to be interfered.

6. number region is not in an any warship cooperateing in area to A warship, so not having when opposing radar at 6. number region Other warships can cooperate with A warship, can only A warship itself take jamming countermeasure.

Specific conflicting mode in each region, substituting into formula (10) calculating according to the actual situation, you can get it.

Emulation two

Radar parameter is with emulation one, our fleet's formation is as shown in Fig. 10, and using A warship as the center of circle, B~E warship divides at equal intervals It is distributed on the circle that radius is 13Km, F, G warship are distributed on the circle that radius is 45Km, oppose airborne fire control radar in front of fleet At 200Km.Assuming that the jamming power of every warship, interference antenna gain are all.Effective interference covering of the fan θ of every warship_sIt is equal to Twice of radar beam width, i.e., 6 °, 13 ° of ≈ of least interference covering of the fan ψ=arcsin (45/200) needed for entire fleet.By formula (5) it is found that at least needing 3 warship compacting radars that can just make to interfere covering of the fan to include entire fleet in fleet, from the specific team of fleet Shape is it can be concluded that tri- warships of E, F, G fight radar scanning using compacting interference.

Assuming that A warship, by enemy's radar tracking, other warships collaboration A warship is interfered.Find out first B~G warship respectively with A warship can Area is cooperateed with, and is combined, simulation result is as shown in Fig. 11.The farthest operating distance of radar is opposed as with emulation one, if For 360Km.By attached drawing 10 using A warship as the center of circle, 360Km is that the region of radius amplifies to obtain attached drawing 12.From attached drawing 13 as it can be seen that dividing Zonule out is more, only takes the region wherein within the scope of 45 ° to be analyzed, other regions can be obtained a result with analogy.It takes out 45 ° of range areas be divided into 11 pieces of zonules altogether, number respectivelyAnd it is drawn as the form of schematic diagram, such as 13 institute of attached drawing Show.Analyze the naval vessel that specifically A warship can be cooperateed with to be interfered in every piece of zonule below.

1. number region is not in an any warship cooperateing in area to A warship, so not having when opposing radar at 1. number region Other warships can cooperate with A warship, can only A warship itself take jamming countermeasure.

2. number region cooperateing in area to A warship in F warship, so F warship can cooperate with A when opposing radar at 2. number region Warship is interfered.

3. number region cooperateing in area to A warship in D warship, so D warship can cooperate with A when opposing radar at 3. number region Warship is interfered.

4. number region cooperates in area also the cooperateing in area to A warship in F warship to A warship in D warship, so when enemy's radar exists 4. D, F warship can cooperate with A warship to be interfered when number region.

5. number region cooperates with area, D warship to cooperate with area and F warship to cooperate with area to A warship to A warship on A warship in C warship It is interior, so C, D, F warship can cooperate with A warship to be interfered when opposing radar at 5. number region.

6. number region cooperates with area, E warship to cooperate with area and F warship to cooperate with area to A warship to A warship on A warship in D warship It is interior, so D, E, F warship can cooperate with A warship to be interfered when opposing radar at 6. number region.

7. number region is not in an any warship cooperateing in area to A warship, so not having when opposing radar at 7. number region Other warships can cooperate with A warship, can only A warship itself take jamming countermeasure.

8. number region cooperates with area, D warship to cooperate with area, E warship to cooperate with area and F to A warship to A warship on A warship in C warship Warship cooperates in area to A warship, so C, D, E, F warship can cooperate with A warship to be interfered when opposing radar at 8. number region.

9. number region cooperates with area, C warship to cooperate with area, D warship to cooperate with area, E to A warship to A warship on A warship in B warship Warship cooperates with area and F warship cooperateing in area to A warship to A warship, so when opposing radar at 9. number region, B, C, D, E, F warship A warship can be cooperateed with to be interfered.

10. number region cooperates with area, D warship to cooperate with area and E warship to cooperate with area to A warship to A warship on A warship in C warship It is interior, so C, D, E warship can cooperate with A warship to be interfered when opposing radar at 10. number region.

Number region cooperates with area, C warship to cooperate with area, D warship to cooperate with area and E to A warship to A warship on A warship in B warship Warship cooperates in area to A warship, so when enemy's radar existsWhen number region, B, C, D, E warship can cooperate with A warship to be interfered.

Specific conflicting mode in each region, substituting into formula (10) calculating according to the actual situation, you can get it.

Claims (1)

1. a kind of radar co-interfere method based on distributed platform, this method is tracked for a certain platform by radar scanning When, according to the distribution situation of all platforms, the region of tracked platform interference can be cooperateed with and according to target by marking off other platforms The determination of radar position can co-interfere platform and the conflicting mode that should take, equipped with jammer on each platform, It is characterized in that,

When by radar scanning, comprising the following steps:

S1, the jamming power that each platform in distributed platform enters radar receiver input terminal is obtained:

Wherein, P_jFor platform interference source transmission power；For interference source antenna gain function；G_t(θ) is radar receiving antenna Gain function；λ is interference signal wavelength；γ_jIt is interference signal to the polarization loss of radar antenna；B_rFor radar receiver band It is wide；R_jFor the distance of radar to interference source；B_jFor jamming signal bandwidth；L_jFor the interference source transmission loss factor；Setting interference antenna Main lobe is directed at radar direction always, i.e.,

S2, the radar return power for obtaining each platform in distributed platform:

Wherein, P_tFor radar transmission power；R_tFor the distance on naval vessel to radar；L_sFor Radar Signal Transmission fissipation factor；σ is flat The effective sectional area of platform；

S3, the effective interference covering of the fan θ for obtaining each platform_s:

According to the radar return power that the step S1 jamming power obtained and step S2 obtain, each platform P is calculated_rj/P_s=K_jWhen Corresponding radar receiving antenna gain G_t(θ):

θ is calculated according to above formula, to obtain effectively interference covering of the fan θ_sAre as follows:

θ_s=2 θ

S4, least interference covering of the fan is obtained:

According to effective interference covering of the fan θ of the step S3 each platform obtained_sAnd the actual distribution positional relationship of platform, according to several Least interference covering of the fan ψ needed for what principle obtains all platforms of covering；

S5, the collaborative platform for determining specific implementation compacting interference:

s.t.F≥ψ

θ_isFor effective interference covering of the fan of each platform of specific implementation compacting interference, subscript i is that the collaborative platform of selection is numbered.

When by radar tracking, comprising the following steps:

Area and miscoordination area are cooperateed between two S6, acquisition platforms:

If being tracked platform is that G, collaborative platform A, tracking radar B are tracked flat using being tracked platform G as coordinate origin Straight line where platform G and collaborative platform A is X-axis, establishes rectangular coordinate system, and radar B beam center, which is directed toward, is tracked platform G, and BG is Radar B beam central line, for collaborative platform A in same radar B wave beam, BA is the boundary line of radar B beam angle,Be BG and The angle of AB two lines is the half of radar B beam angle.

It can be obtained by sine:

If ∠ BGA=θ,Substituting into above formula can obtain:

Due to the position of A, G platform be it is known, in institute's above formula AG be known quantity, what is obtained is the relational expression of BG and θ；Wherein BG is the critical distance of radar and tracked platform when A, G warship are just in same radar B wave beam under current θ value, is less than the value Then A, G platform not in same radar B wave beam and then cannot achieve co-interfere, be greater than the value then A, G in same radar B wave beam It is interior and then co-interfere may be implemented；

It enables:

The coordinate value of enemy's radar when A, G platform are just in same radar B wave beam under current angular θ can be obtained；

S7, angle, θ π from 0 to 2 is enabled successively value and to substitute into the calculating formula of BG at equal intervals, the point that each angle, θ is obtained connects It connects to get to the line of demarcation for cooperateing with area and miscoordination area of A, G platform；

S8, find out tracked platform and any platform cooperate with area, and combine；

S9, the region according to locating for enemy radar B, determination specifically can be with the platform of co-interfere；

S10, co-interfere mode is determined, specifically:

The disturbance suppression ratio J/S of S101, radar B receiver inlet are as follows:

Wherein, P_t(W)、G_t(dB) be respectively radar B transmission power and receiving antenna gain function；σ(m²) it is the effective of platform Sectional area；R_jIt (m) is the distance of radar B to interference source；P_j(W)、G_jIt (dB) is respectively platform interference source transmission power and interference source Antenna gain；γ_jIt is interference signal to the polarization loss of radar B antenna；R_tIt (m) is the distance on naval vessel to radar B；

S102, the total disturbance suppression ratio for calculating the receiving end radar B

In formula, i is the platform quantity of co-interfere together, a shared n, there was only R in above formula_tFor unknown number, when radar B comes R after to determination_jiIt can be expressed as R_tFunction；

S103, orderIt is counter to solve R_tSeparation as compacting interference and cheating interference；

S104, it is greater than R when radar B and tracked platform spacing_tThe interference of Shi Caiyong pressing type, is less than R_tShi Caiyong Deceiving interference.