CN108919195A - A kind of alternative optimization search irregular middle repetition PD design method of arteries and veins group - Google Patents

Abstract

The present invention proposes a kind of alternative optimization search irregular middle repetition PD design method of arteries and veins group, according to the design method of " irregular+shake ", using the irregular arteries and veins group design of repetition PD system in the method realization of alternative optimization search, 4 pairs of arteries and veins groups are designed altogether, each pair of arteries and veins group is shaken by the repetition period realizes range ambiguity resolving, it is blind apart from mending to pass through irregular realization between any two, 4 pairs blind using realization speed benefit simultaneously；The method of the present invention is up to principle with the covering of distance-speed, speed mends blind or ambiguity solution flexibility between taking into account range ambiguity resolving in the single sweep operation period and mending the blind, scan period, can emit within an antenna period 4 pairs of arteries and veins groups be completed at the same time range ambiguity resolving/benefit is blind, speed mend it is blind, transmitting 1/2# and 3/4# two can also be recycled between antenna scan period to arteries and veins group, 5/6# and 7/8# two to arteries and veins group, it realizes that range ambiguity resolving and benefit are blind within the monocycle, it is blind to realize that speed is mended during week.

Description

A kind of alternative optimization search irregular middle repetition PD design method of arteries and veins group

Technical field

The invention belongs to radar system design technical fields, and in particular to middle repetition pulse Doppler radar arteries and veins group is irregular to be set Meter method.

Background technique

Modern battlefield environment is increasingly sophisticated, and unfriendly target always carries out under active/passive interference or ground and sea clutter shielding Prominent anti-, complicated background environment often makes radar system both be difficult to effectively screen and extract real goal parameter information, in time Corresponding threat level is made to enemy's target to differentiate, and easily expends system detection time resource, and task amount and treating capacity is caused to overload. For ground surveillance radar, clutter recognition is always radar system design and information processing needs emphasis one of to consider the problems of, Common clutter suppression method has conventional Moveing target indication (Moving Target Indication, MTI), moving-target detection (Moving Target Detect, MTD) and pulse Doppler (Pulse Doppler, PD) etc..According to《Radar handbook》In Definition, makes the unambiguous repetition of maximum detectable range be known as low repetition (conventional MTI and MTD radar), makes to detect the maximum speed of target Spend unambiguous repetition and be known as Gao Zhongying, distance and the fuzzy repetition of speed be known as in repetition, by repetition in use and Gao Chong The radar of frequency is known as PD radar.

For executing the radar of ground surveillance task, operating distance is all more than hundreds of kilometer, if using the low of routine Design of pulse repetition, then pulse recurrence frequency (Pulse Repetition Frequency, PRF) is smaller, at this time in Doppler frequency In range, clutter spectrum will occupy relatively wide range, i.e. Doppler circle of good definition is relatively narrow, and with carrier frequency increase or clutter spectrum exhibition Width, Doppler circle of good definition reduce, and probability of the target together with clutter spectrum aliasing increases, and reduce target detection performance, therefore, Low repetition applies in general to weak clutter environment.Gao Zhongying radar can have fast-moving target and clutter in Doppler domain Effect separation, obtains target speed information, but due to apart from high blur under Gao Zhongying mode, so that target is had at a distance It is competed with nearby strong clutter, and will lead to using high duty ratio when Gao Zhongying mode and generate biggish obstruction loss apart from upper, needed Complicated irregular arteries and veins group is designed for obtaining the complete range information of target；Gao Zhongying is generally used for strong clutter environment medium-long range Detect the target of fast approaching, such as the fire control radar of airborne early warning radar, air to air speed search mode and mode of shooting downward.

Middle repetition has some merits and demerits of low repetition and Gao Zhongying simultaneously, is joined by design arteries and veins group reasonably Difference, the shortcomings that can be avoided low repetition and Gao Zhongying, while the feature performance benefit both kept, unknown to target conditions, and again When needing to obtain target range and velocity information in big investigative range simultaneously, middle repetition is optimal selection.About middle repetition PD Radar Technology, foreign countries have conducted a research and have applied many years ago, representative such as French MASTER series radar, but domestic It starts late in the research of this aspect, and disclosed technical data is less.In document《Repetition PD in ground based on genetic algorithm Radar PRF group selection》It proposes using genetic algorithm in (modern radar, 2008,30 (9), pp.33-35) based on M/N criterion The middle irregular arteries and veins group design method of repetition PD mode, but such method needs N group pulse simultaneously using that could complete detection demand, i.e., N group pulse close coupling, seriously limits flexibility and radar data rate, generally using less.Use for reference the design of MASTER radar Thought, in document《PD working method design in ground radar》(electronic technology and soft project, 2015, pp.120-122) and 《The research of PD working method in three coordinate Surveillance Radar of ground》Centering weight in (Institutes Of Technology Of Nanjing's master thesis, 2013) Frequency PD Radar operation modes have carried out research and performance evaluation, in document《Irregular jittered dynamic fuzzy distance solution method applied analysis》 Realize that range ambiguity resolving is applied to based on irregular jittered flowing mode in (modern radar, 2011,33 (3), pp.20-23) Analysis, but these documents do not provide the specific design method of the irregular arteries and veins group of middle repetition PD mode.

Summary of the invention

The present invention proposes a kind of alternative optimization for the urgent need of defect and practical engineering application existing for background technique The irregular middle repetition PD design method of arteries and veins group is searched for, it is real with every a pair of of shake arteries and veins group according to the design method of " irregular+shake " Existing range ambiguity resolving, then realize that distance benefit is blind, speed benefit is blind with other several pairs of arteries and veins groups.During a kind of alternative optimization search arteries and veins group is irregular Repetition PD design method is up to principle with the covering of distance-speed, takes into account range ambiguity resolving and benefit in the single sweep operation period Speed mends blind or ambiguity solution flexibility between the blind, scan period, designs 4 pairs of arteries and veins groups altogether, and each pair of arteries and veins group is trembled by the repetition period Dynamic to realize range ambiguity resolving, realization between any two is blind apart from mending, and 4 pairs blind using realization speed benefit simultaneously, i.e. 1/2# and 3/4# arteries and veins Group simultaneously using realize range ambiguity resolving and apart from mending it is blind, 5/6# and 7/8# arteries and veins group is simultaneously using realization range ambiguity resolving and distance Mend it is blind, 4 pairs of arteries and veins groups simultaneously using realize range ambiguity resolving, distance mend blind and speed mend it is blind.The design method can be according to radar Data rate request flexibly uses 4 pairs of arteries and veins groups, if radar time resource allows, can emit simultaneously within an antenna period 4 pairs of arteries and veins groups, be completed at the same time range ambiguity resolving/benefit is blind, speed mend it is blind, can be in antenna scanning if data rate request is higher Circulation transmitting 1/2# and 3/4#, 5/6# and 7/8# two realize that range ambiguity resolving and benefit are blind to arteries and veins group within the monocycle during week, It is blind to realize that speed is mended during week.

A kind of alternative optimization search irregular middle repetition PD design method of arteries and veins group specifically includes following steps：

Step 1：Set basic parameter；

If middle repetition PD mode radar detection maximum distance is R_max, maximum target speed is V_max, according to range ambiguity time Number N_ambRepetition PD mode pulse repetition rate variation range is PRF ∈ [PRF in setting_min,PRF_max], then pulse repetition period Value range is PRI ∈ [PRI_min,PRI_max], wherein PRI_min=1/PRF_max, PRI_max=1/PRF_min, Average pulse repeating interval is PRI_ave=(PRI_min+PRI_max)/2；If radar emission average duty ratio is D_ave, maximum duty cycle D_max, then transmitting can be calculated Pulse width is τ=min (PRI_aveD_ave,PRI_minD_max), wherein min () is minimizing operation；If radar sampling rate is F_s, then one A distance unit is Δ R=C/ (2F_s), wherein C is the light velocity, if a pair of of arteries and veins group repetition interval amount of jitter is N_jitA distance unit Corresponding time, i.e. arteries and veins group repetition interval amount of jitterWhereinFor the operation that rounds up.

Step 2：Coherent pulse number and Doppler filter group in arteries and veins group is calculated to design；

It after determining pulsewidth, is required to determine coherent pulse number in arteries and veins group according to radar range, when increase coherent arteries and veins When rushing number makes the covering of radar power be able to satisfy operating distance requirement, using pulse number at this time as coherent pulse number in arteries and veins group； After determining coherent pulse number, using digital synthesis Doppler filter group design method, according to the clutter spectrum width of setting and Filter minor level carries out Doppler filter design by channel；After Design of filter banks, it is with normalized response -3dB Thresholding, calculating single group filter group normalized frequency coverage area are ρ_vis。

Step 3：Calculate first pair of shake arteries and veins group repetition interval；

According to radar range R_max, it is contemplated that range ambiguity resolving surplus takes the corresponding distance R of a pulse width_min τ/2=C, with distance (R_max+R_min) calculate distance it is not fuzzy when corresponding minimum repetition period be PRI_na=2 (R_max+R_min)/C, According to the range ambiguity times N of setting_amb, take first arteries and veins group repetition interval to beThen first pair 2# arteries and veins group repetition interval is PRI₂=PRI₁+T_jit。

Step 4：Calculate second pair of arteries and veins group repetition interval；

After first pair of arteries and veins group repetition interval determines, in [PRI_min,PRI_max] the interior search 3# arteries and veins group repetition interval of range PRI₃, the criterion of search is, first pair of arteries and veins group and second pair of arteries and veins group simultaneously in use, under the conditions of maximum apart from coverage rate, Make first pair of arteries and veins group and second couple of maximum repetition period PRI of arteries and veins group speed coverage rate₃, then corresponding to 4# arteries and veins group repetition interval is PRI₄=PRI₃+T_jit；Quantization R is carried out with distance unit Δ R range of adjusting the distance_t∈[0,R_max+R_min], distance unit sum isWith the minimum speed interval delta V of setting to velocity interval V_t∈[0,V_max] quantified, Speed unit sum isFor any one repetition period PRI_iIf PRF_i=1/PRI_i, for each Distance unit R_t, it is mod (2R apart from coverage condition_t/C,PRI_i) > τ, wherein mod () expression takes the remainder operation, for each Speed unit V_t, speed coverage condition is | mod (2V_t/λ,PRF_i)/PRF_i- 0.5 | < ρ_vis/ 2, wherein λ is wavelength, if distance Capping unit number is N_{R_C}, speed capping unit number is N_{V_C}, then repetition period PRI_iApart from coverage rate be N_{R_C}/N_{R_All}, Speed coverage rate is N_{V_C}/N_{V_All}。

Step 5：Calculate third to and the 4th pair of arteries and veins group repetition interval；

After the repetition period that first pair of 1/2# and second pair of 3/4# arteries and veins group has been determined, third is to 5/6# and the 4th couple of 7/8# The selection principle of arteries and veins group repetition interval is, third to and the 4th pair of repetition period independently use when distance covering it is maximum, and the Three pairs and the 4th pair of repetition period velocity coverage rate make four pairs of repetition periodic distances-speed covering maximum when meeting setting value；If 5# arteries and veins group and 7# arteries and veins group repetition interval are respectively PRI₅And PRI₇, corresponding 6# arteries and veins group and 8# arteries and veins group repetition interval are respectively PRI₆= PRI₅+T_jitAnd PRI₈=PRI₇+T_jit, for any one repetition period PRI_iIf PRF_i=1/PRI_i, for each distance unit R_tWith speed unit V_t, distance-speed coverage condition is mod (2R_t/C,PRI_i) > τ and | mod (2V_t/λ,PRF_i)/PRF_i-0.5 | < ρ_vis/ 2, if distance-speed capping unit number is N_RV__C, then repetition period PRI_iDistance-speed coverage rate be N_{RV_C}/ (N_{R_All}N_{V_All})；Defining Optimizing Search function is：

Wherein γ_RVFor four pairs of arteries and veins group distance-speed coverage rates, mean (PRI_1-8) it is four pairs of arteries and veins group repetition interval mean values, α For weighting coefficient；If four pairs of arteries and veins group distance-speed coverage rate minimum thresholds are β₁, third to and the 4th pair of arteries and veins group speed coverage rate Minimum threshold is β₂, meeting thresholding β₁And β₂In the range of the corresponding result of Optimizing Search function maxima be PRI₅With PRI₇。

Step 6：The correctness that the irregular arteries and veins group parameter of repetition PD is chosen in verifying；

Distance range R is calculated with four pairs of arteries and veins group repetition intervals of search_t∈[0,R_max+R_min] and velocity interval V_t∈[0, V_max] in each unit whether meet distance-speed covering, draw distance-velocity overlays verify in the irregular arteries and veins group weight of repetition PD The correctness that the multiple period is chosen.

Detailed description of the invention

Fig. 1 is a kind of alternative optimization search irregular middle repetition PD design method design flow diagram of arteries and veins group of the present invention.

Fig. 2 is radar coverage figure when determining arteries and veins intra class correlation pulse number in the specific embodiment of the invention.

Fig. 3 is the Doppler filter group frequency response chart designed in the specific embodiment of the invention.

Fig. 4 is distance and speed coverage rate when searching for second pair of arteries and veins group repetition interval in the specific embodiment of the invention.

Fig. 5 be in the specific embodiment of the invention search for third to and the 4th pair of arteries and veins group repetition interval apart from coverage rate.

Fig. 6 be searched in the specific embodiment of the invention third to and when the 4th pair of arteries and veins group repetition interval four to arteries and veins group distance- Speed coverage rate.

Fig. 7 be in the specific embodiment of the invention search for third to and the 4th pair of arteries and veins group repetition interval speed coverage rate.

Fig. 8 is the distance-speed coverage rate for meeting search setting thresholding in the specific embodiment of the invention.

Fig. 9 is four pairs of preferred arteries and veins group distance-velocity overlays in the specific embodiment of the invention.

Specific embodiment

A kind of alternative optimization of the present invention search irregular middle repetition PD design method design cycle of arteries and veins group as shown in Figure 1, In conjunction with flow chart and embodiment, the embodiment of the method for the present invention is specifically addressed, process is as follows：

Step 1：Set basic parameter；

If middle repetition PD mode radar detection maximum distance is R_max, maximum target speed is V_max, according to range ambiguity time Number N_ambRepetition PD mode pulse repetition rate variation range is PRF ∈ [PRF in setting_min,PRF_max], then pulse repetition period Value range is PRI ∈ [PRI_min,PRI_max], wherein PRI_min=1/PRF_max, PRI_max=1/PRF_min, Average pulse repeating interval is PRI_ave=(PRI_min+PRI_max)/2；If radar emission average duty ratio is D_ave, maximum duty cycle D_max, then transmitting can be calculated Pulse width is τ=min (PRI_aveD_ave,PRI_minD_max), wherein min () is minimizing operation；If radar sampling rate is F_s, then one A distance unit is Δ R=C/ (2F_s), wherein C is the light velocity, if a pair of of arteries and veins group repetition interval amount of jitter is N_jitA distance unit Corresponding time, i.e. arteries and veins group repetition interval amount of jitter T_jit=2N_jitΔ R/C=[N_jit/F_s], whereinFor the fortune that rounds up It calculates.

Middle repetition mode radar maximum detectable range is set in the present embodiment as R_max=60km, maximum target speed are V_max= 1000m/s, if range ambiguity number is N_amb=3, pulse recurrence frequency variation range is PRF ∈ [5kHz, 10kHz], then pulse Repetition period value range is PRI ∈ [100us, 200us], Average pulse repeating interval PRI_ave=150us；If radar emission is flat Equal duty ratio is D_ave=10%, maximum duty cycle D_max=15%, then fire pulse width is τ=15us；If radar sampling Rate is F_s=2MHz, a pair of of arteries and veins group repetition interval amount of jitter are N_jit=4 distance unit, corresponding shaky time T_jit=N_jit/ F_s=2us.

Step 2：Coherent pulse number and Doppler filter group in arteries and veins group is calculated to design；

It after determining pulsewidth, is required to determine coherent pulse number in arteries and veins group according to radar range, when increase coherent arteries and veins When rushing number makes the covering of radar power be able to satisfy operating distance requirement, using pulse number at this time as coherent pulse number in arteries and veins group. The repetition PD search in the use of 0 °, 3 ° and 6 ° of low latitude, draws radar coverage-diagram according to radar system parameters, works as arteries and veins in the present embodiment Coherent pulse number is N in group_pulseWhen=15, operating distance requirement can satisfy, as shown in Figure 2.

After determining coherent pulse number, using digital synthesis Doppler filter group design method, according to the miscellaneous of setting Wave spectrum is wide and filter minor level is by channel progress Doppler filter design；After Design of filter banks, to normalize sound Answering -3dB is thresholding, and calculating single group filter group normalized frequency coverage area is ρ_vis.The 15 ranks filtering designed in the present embodiment Device group is as shown in figure 3, single group filter group normalized frequency coverage area is ρ_vis=76%.

Step 3：Calculate first pair of shake arteries and veins group repetition interval；

According to radar range R_max, it is contemplated that range ambiguity resolving surplus takes the corresponding distance R of a pulse width_min τ/2=C, with distance (R_max+R_min) calculate distance it is not fuzzy when corresponding minimum repetition period be PRI_na=2 (R_max+R_min)/C, According to the range ambiguity times N of setting_amb, take first arteries and veins group repetition interval to beThen first pair 2# arteries and veins group repetition interval is PRI₂=PRI₁+T_jit。

According to the parameter set in step 1, can be calculated first arteries and veins group repetition interval is the present embodimentFirst pair of 2# arteries and veins group repetition interval is PRI₂=141us.

Step 4：Calculate second pair of arteries and veins group repetition interval；

After first pair of arteries and veins group repetition interval determines, in [PRI_min,PRI_max] the interior search 3# arteries and veins group repetition interval of range PRI₃, the criterion of search is, first pair of arteries and veins group and second pair of arteries and veins group simultaneously in use, under the conditions of maximum apart from coverage rate, Make first pair of arteries and veins group and second couple of maximum repetition period PRI of arteries and veins group speed coverage rate₃, then corresponding to 4# arteries and veins group repetition interval is PRI₄=PRI₃+T_jit；Quantization R is carried out with distance unit Δ R range of adjusting the distance_t∈[0,R_max+R_min], distance unit sum isWith the minimum speed interval delta V of setting to velocity interval V_t∈[0,V_max] quantified, Speed unit sum isFor any one repetition period PRI_iIf PRF_i=1/PRI_i, for each Distance unit R_t, it is mod (2R apart from coverage condition_t/C,PRI_i) > τ, wherein mod () expression takes the remainder operation, for each Speed unit V_t, speed coverage condition is | mod (2V_t/λ,PRF_i)/PRF_i- 0.5 | < ρ_vis/ 2, wherein λ is wavelength, if distance Capping unit number is N_{R_C}, speed capping unit number is N_{V_C}, then repetition period PRI_iApart from coverage rate be N_{R_C}/N_{R_All}, Speed coverage rate is N_{V_C}/N_{V_All}。

3# arteries and veins group repetition interval PRI is searched in the present embodiment in PRI ∈ [100us, 200us] range₃, draw distance and cover Lid rate curve and speed coverage rate curve select speed coverage rate most as shown in figure 4, under the premise of meeting apart from coverage rate maximum The big repetition period is as PRI₃, it can be seen from the figure that in the maximum section of coverage rate, speed covering maximum value is 92.04%, the corresponding repetition period is 164us, therefore takes PRI₃=164us, corresponding 4# arteries and veins group repetition interval are PRI₄= 166us。

Step 5：Calculate third to and the 4th pair of arteries and veins group repetition interval；

After the repetition period that first pair of 1/2# and second pair of 3/4# arteries and veins group has been determined, third is to 5/6# and the 4th couple of 7/8# The selection principle of arteries and veins group repetition interval is, third to and the 4th pair of repetition period independently use when distance covering it is maximum, and the Three pairs and the 4th pair of repetition period velocity coverage rate make four pairs of repetition periodic distances-speed covering maximum when meeting setting value；If 5# arteries and veins group and 7# arteries and veins group repetition interval are respectively PRI₅And PRI₇, corresponding 6# arteries and veins group and 8# arteries and veins group repetition interval are respectively PRI₆= PRI₅+T_jitAnd PRI₈=PRI₇+T_jit, for any one repetition period PRI_iIf PRF_i=1/PRI_i, for each distance unit R_tWith speed unit V_t, distance-speed coverage condition is mod (2R_t/C,PRI_i) > τ and | mod (2V_t/λ,PRF_i)/PRF_i-0.5 | < ρ_vis/ 2, if distance-speed capping unit number is N_{RV_C}, then repetition period PRI_iDistance-speed coverage rate be N_{RV_C}/ (N_{R_All}N_{V_All})；Defining Optimizing Search function is

Wherein γ_RVFor four pairs of arteries and veins group distance-speed coverage rates, mean (PRI_1-8) it is four pairs of arteries and veins group repetition interval mean values, α For weighting coefficient；If four pairs of arteries and veins group distance-speed coverage rate minimum thresholds are β₁, third to and the 4th pair of arteries and veins group speed coverage rate Minimum threshold is β₂, meeting thresholding β₁And β₂In the range of the corresponding result of Optimizing Search function maxima be PRI₅With PRI₇。

The present embodiment searches for 5# arteries and veins group and 7# arteries and veins group repetition interval PRI within the scope of 100-200us₅And PRI₇, third to 4th pair of arteries and veins group repetition interval is apart from coverage rate as shown in figure 5, four pairs of arteries and veins group repetition interval distance-speed coverage rate such as Fig. 6 institutes Show, third to and the 4th pair of arteries and veins group repetition interval speed coverage rate it is as shown in Figure 7.

Third to and the 4th pair of repetition periodic distance coverage rate it is maximum under the conditions of, if four pairs of arteries and veins group distance-speed are covered Lid rate minimum threshold is β₁=94.5%, third to and the 4th pair of arteries and veins group speed coverage rate minimum threshold be β₂=91%, meet door Limit β₁And β₂Distance-speed coverage rate as shown in figure 8, meeting thresholding β₁And β₂In the range of Optimizing Search function maxima For f_max=0.9531, corresponding search result is PRI₅=125us and PRI₇=177us, corresponding PRI₆=127us and PRI₈= 179us。

Step 6：The correctness that the irregular arteries and veins group parameter of repetition PD is chosen in verifying；

Distance range R is calculated with four pairs of arteries and veins group repetition intervals of search_t∈[0,R_max+R_min] and velocity interval V_t∈[0, V_max] in each unit whether meet distance-speed covering, draw distance-velocity overlays verify in the irregular arteries and veins group weight of repetition PD The correctness that the multiple period is chosen.

The present embodiment four is selected as 139/141us, 164/166us, 125/127us and 177/ to arteries and veins group repetition interval When 179us, distance-velocity overlays are drawn, as shown in figure 9, white area indicates that the distance and speed can cover in figure, it is black Color region is distance-velocity shadow；Distance-speed coverage rate in 0-62.25km distance range, 0-1000m/s velocity interval It is 94.70%, four pairs of arteries and veins group repetition interval average values are 152us, and average duty ratio 9.85% meets design requirement.

Claims (1)

1. a kind of alternative optimization searches for the irregular middle repetition PD design method of arteries and veins group, it is characterised in that：

Step 1：Set basic parameter；

If middle repetition PD mode radar detection maximum distance is R_max, maximum target speed is V_max, according to range ambiguity times N_amb Repetition PD mode pulse repetition rate variation range is PRF ∈ [PRF in setting_min,PRF_max], then pulse repetition period value model It encloses for PRI ∈ [PRI_min,PRI_max], wherein PRI_min=1/PRF_max, PRI_max=1/PRF_min, Average pulse repeating interval PRI_ave =(PRI_min+PRI_max)/2；If radar emission average duty ratio is D_ave, maximum duty cycle D_max, then transmitting pulse can be calculated Width is τ=min (PRI_aveD_ave,PRI_minD_max), wherein min () is minimizing operation；If radar sampling rate is F_s, then one away from It is Δ R=C/ (2F from unit_s), wherein C is the light velocity, if a pair of of arteries and veins group repetition interval amount of jitter is N_jitA distance unit is corresponding Time, i.e. arteries and veins group repetition interval amount of jitterWhereinFor the operation that rounds up；

Step 2：Coherent pulse number and Doppler filter group in arteries and veins group is calculated to design；

After determining pulsewidth, required to determine coherent pulse number in arteries and veins group according to radar range, it is a when increasing coherent pulse When number makes the covering of radar power be able to satisfy operating distance requirement, using pulse number at this time as coherent pulse number in arteries and veins group；When true After determining coherent pulse number, using digital synthesis Doppler filter group design method, according to the clutter spectrum width of setting and filtering Device minor level carries out Doppler filter design by channel；After Design of filter banks, using normalized response -3dB as thresholding, Calculating single group filter group normalized frequency coverage area is ρ_vis；

Step 3：Calculate first pair of shake arteries and veins group repetition interval；

According to radar range R_max, it is contemplated that range ambiguity resolving surplus takes the corresponding distance R of a pulse width_min=C τ/ 2, with distance (R_max+R_min) calculate distance it is not fuzzy when corresponding minimum repetition period be PRI_na=2 (R_max+R_min)/C, according to The range ambiguity times N of setting_amb, take first arteries and veins group repetition interval to beThen first pair of 2# arteries and veins Group repetition interval is PRI₂=PRI₁+T_jit；

Step 4：Calculate second pair of arteries and veins group repetition interval；

After first pair of arteries and veins group repetition interval determines, in [PRI_min, PRI_max] the interior search 3# arteries and veins group repetition interval PRI of range₃, search The criterion of rope is that first pair of arteries and veins group and second pair of arteries and veins group make first pair simultaneously in use, under the conditions of maximum apart from coverage rate Arteries and veins group and second pair of arteries and veins group speed coverage rate maximum repetition period are PRI₃, then corresponding to 4# arteries and veins group repetition interval is PRI₄= PRI₃+T_jit；Quantization R is carried out with distance unit Δ R range of adjusting the distance_t∈[0,R_max+R_min], distance unit sum isWith the minimum speed interval delta V of setting to velocity interval V_t∈[0,V_max] quantified, Speed unit sum isFor any one repetition period PRI_iIf PRF_i=1/PRI_i, for each Distance unit R_t, it is mod (2R apart from coverage condition_t/C,PRI_i) > τ, wherein mod () expression takes the remainder operation, for each Speed unit V_t, speed coverage condition is | mod (2V_t/λ,PRF_i)/PRF_i- 0.5 | < ρ_vis/ 2, wherein λ is wavelength, if distance Capping unit number is N_{R_C}, speed capping unit number is N_{V_C}, then repetition period PRI_iApart from coverage rate be N_{R_C}/N_{R_All}, Speed coverage rate is N_{V_C}/N_{V_All}；

Step 5：Calculate third to and the 4th pair of arteries and veins group repetition interval；

After the repetition period that first pair of 1/2# and second pair of 3/4# arteries and veins group has been determined, third is to 5/6# and the 4th pair of 7/8# arteries and veins group The selection principle of repetition period is, third to and the 4th pair of repetition period independently use when distance covering it is maximum, and in third pair Make four pairs of repetition periodic distances-speed covering maximum when meeting setting value with the 4th pair of repetition period velocity coverage rate；If 5# arteries and veins Group and 7# arteries and veins group repetition interval are respectively PRI₅And PRI₇, corresponding 6# arteries and veins group and 8# arteries and veins group repetition interval are respectively PRI₆=PRI₅+ T_jitAnd PRI₈=PRI₇+T_jit, for any one repetition period PRI_iIf PRF_i=1/PRI_i, for each distance unit R_tWith Speed unit V_t, distance-speed coverage condition is mod (2R_t/C,PRI_i) > τ and | mod (2V_t/λ,PRF_i)/PRF_i- 0.5 | < ρ_vis/ 2, if distance-speed capping unit number is N_{RV_C}, then repetition period PRI_iDistance-speed coverage rate be N_{RV_C}/ (N_{R_All}N_{V_All})；Defining Optimizing Search function is：

Wherein γ_RVFor four pairs of arteries and veins group distance-speed coverage rates, mean (PRI_1-8) it is four pairs of arteries and veins group repetition interval mean values, α is to add Weight coefficient；If four pairs of arteries and veins group distance-speed coverage rate minimum thresholds are β₁, third to and the 4th pair of arteries and veins group speed coverage rate it is minimum Thresholding is β₂, meeting thresholding β₁And β₂In the range of the corresponding result of Optimizing Search function maxima be PRI₅And PRI₇；

Step 6：The correctness that the irregular arteries and veins group parameter of repetition PD is chosen in verifying；

Distance range R is calculated with four pairs of arteries and veins group repetition intervals of search_t∈[0,R_max+R_min] and velocity interval V_t∈[0,V_max] in Whether each unit meets the covering of distance-speed, draws the irregular arteries and veins group repetition interval of repetition PD in the verifying of distance-velocity overlays The correctness of selection.