CN109708659A - A kind of distributed intelligence photoelectricity low latitude guard system - Google Patents

Abstract

The invention discloses a kind of distributed intelligence photoelectricity low latitude guard systems, imaging system is distributed including the photoelectricity based on laser active illumination, and server and display and control terminal, photoelectricity is distributed imaging system and passes through LAN connection server and display and control terminal, display and control terminal obtains business information by connection server and realizes human-computer interaction, and photoelectricity distribution imaging system includes single station photodetection subsystem of multiple distributed settings.This system includes work step following six: system detection and parameter configuration, photodetection low target, distributed subsystem scheduling of resource, binocular/multi-vision visual imaging, target video automatically track evidence obtaining and human-computer interaction and intergrated information display.

Description

A kind of distributed intelligence photoelectricity low latitude guard system

Technical field

The present invention relates to low latitude unmanned air vehicle technique control field more particularly to a kind of distributed intelligence photoelectricity low latitude protection systems System.

Background technique

In recent years, civilian small miniature drone development is swift and violent, and unmanned plane quantity is at geometric growth, and the management of unmanned plane Serious lag.Unmanned plane " black to fly ", " disorderly flying " phenomenon are got worse, flight safety of the unmanned plane to civil aviation, military aviation Constitute new threat.It is counted according to FAA, the event that annual unmanned plane influences flight is more than 1000, is and is in rise year by year Gesture.It is seriously threatened it can be seen that unmanned plane produces aviation safety, how effectively to detect, identify and monitor low latitude unmanned plane, Existing technology and equipment is relied on, carries out mature, reliable and inexpensive detection system for ensureing that civil aviaton, army flight safety has Significance.

Currently, single to the detection of small miniature drone target, identification and monitoring means, it is difficult to realize to unmanned plane target Quick three-dimensional positioning is effectively monitored to target classification identification, to cooperation unmanned plane, it is difficult to be reached round-the-clock all weather operations and be wanted It asks.For existing system generally using radar as core detection system, price is more expensive.Patent CN101285883 proposes one kind Mobile radar bird-exploring device is only able to achieve target two-dimensional detection, can not achieve target classification identification；Patent CN106932753A It is proposed a kind of anti-UAV system based on UAV's telecomma signal monitoring, direction cross positioning, the system investigative range Small, positioning accuracy is poor, cannot obtain unmanned plane identity information；In addition, patent CN205958746U propose it is a kind of include radar and The anti-unmanned plane detection system of photoelectricity, the system is when visual condition is bad, it is difficult to realize target identification, it cannot be to cooperative target It is monitored.

Summary of the invention

To solve the above-mentioned problems, the present invention proposes a kind of distributed intelligence photoelectricity low latitude guard system, including based on sharp The photoelectricity distribution imaging system and server and display and control terminal of light active illumination, the photoelectricity distribution imaging system pass through office Domain net connection server and display and control terminal, the display and control terminal are also connect with server；The photoelectricity is distributed imaging system Single station photodetection subsystem of multiple distributed settings.

Distributed intelligence photoelectricity low latitude guard system includes following several work steps:

S1. system detection and parameter configuration: system boots up self-test, working condition is entered when without exception, and carry out work ginseng Number configuration, the running parameter configuration including each single station photodetection subsystem and server；

S2. photodetection low target: single station photodetection subsystem executes comprehensive automatic search and finds low latitude invasion Target, receive server passback target track or location information after, capture target simultaneously it is tracked and is identified, on The pose and characteristic information for reporting target are to server, then judge whether to intercept the target, finally calculate the landing place of target；? In this step, as long as target enters single station photodetection subsystem detection viewing field, i.e., image is recorded and mark mesh in real time Target location information；

S3. distributed subsystem scheduling of resource: the target relevant information that server is reported according to single station photodetection subsystem, The orientation and pitch information of target is roughly calculated, and combines the relative position of each single station photodetection subsystem, starting is for the first time Detect single station photodetection subsystem around single station photodetection subsystem of target；

S4. binocular/multi-vision visual imaging: the multistation photoelectricity being made of two or more single station photodetection subsystems Detection subsystem is directed toward by the working condition and the optical axis that configure adjacent sites, and using the image-forming principle of camera, passes through binocular Or multi-vision visual realizes the position measurement of target；

S5. target video automatically tracks evidence obtaining: according to target bearing, pitching and the location information obtained, being converted into photoelectricity and turns Platform and camera control parameter realize the blur-free imaging to target；Image procossing is carried out again, and estimating target motion parameter adjusts light Electric turntable and camera control parameter, realization automatically track the video of target；

S6. human-computer interaction and intergrated information display: display and control terminal is read and the comprehensive letter of fused target in display server Breath, cartographic information and system instantaneous operating conditions information.

Further, single station photodetection subsystem includes: ray machine rack, measurement TV subsystem, laser lighting Subsystem, servo subsystem, Master Communications subsystem and image recording subsystem, the Master Communications subsystem connection service Device, display and control terminal, ray machine rack, measurement TV subsystem, laser lighting subsystem and servo subsystem, described image record point System connection measurement TV subsystem and servo subsystem, the servo subsystem are also connect with ray machine rack.

Further, in the step S2, single photodetection subsystem of standing executes following steps:

S21. in the first stage of target flight, single station photodetection subsystem executes comprehensive automatic search and finds at this time The target of low latitude invasion；

S22. in the second stage of target flight, single photodetection subsystem of standing receive the target of server passback track or After location information, ray machine rack of quickly turning round is directed toward target, confirms and captures target；

S23. in the phase III of target flight, single photodetection subsystem of standing carries out tenacious tracking to target, establishes target and fly Row information, and target is identified and confirmed, while reporting the pose and characteristic information of target, situation and threat level, with And the track and heading of target flight, and target of extrapolating enters position and the moment of fourth stage；

S24. in the fourth stage of target flight, it is confirmed whether to intercept target, if you need to intercept counter, single photoelectricity of standing is visited Survey subsystem other than keeping target following and information to export, must also be observed in this stage and record entire interception process；

S25. calculate target landing place, when the pitch angle of target be less than certain numerical value when, that is, show target landed or Person has been in landing state.

Further, in the step S2, server executes following steps:

Target detection: realizing background estimating using based on anisotropy background forecast, obtains entering mesh using low latitude after residual image Target height characteristic, gray-scale watermark, scene prior information and prospect change information further reject false target, then lead to Crossing the accumulative detection of multiframe reduces false-alarm probability；

Target following: server returns target bearing and pitch information, be converted into the camera of measurement TV subsystem focal length and The velocity of rotation and rotation direction of the photoelectric turntable of servo subsystem, then estimating target motion parameter adjust camera focal length and light The velocity of rotation and rotation direction of electric turntable, real-time tracking target；

Feature extraction: collecting the image of the largely unmanned plane under different conditions, angle and illumination condition and flying bird, in this, as Target image carries out pretreatment as positive sample to them, and collects a large amount of background image as negative sample；Profile is used again The identification feature of feature, shape feature, statistical nature, entropy feature and GMM parameter attribute as target；

Target identification: the identification feature of target being input in SVM classifier and is trained, and utilizes trained svm classifier Device carries out Classification and Identification to target.

Further, in the step S2, single photodetection subsystem of standing is reported to the content of server in addition to target Pose and characteristic information, further includes: the coordinate information of single station photodetection subsystem and the view of system configuration information and target Frequency information.

Further, the system configuration information of single station photodetection subsystem includes the system for measuring TV subsystem Focal length, front size and number of pixels and the photoelectric turntable of servo subsystem are directed toward.

Further, the display and control terminal includes that functional areas menu bar, system parameter setting area, system monitoring information are shown Area, system comprehensive situation information display area and photoelectric video information display area.

The beneficial effects of the present invention are: low latitude protection is realized by a kind of distributed photoelectric detecting system, compared to existing Technology path, such as: low-altitude detection radar and frequency spectrum detecting system composition protection for, have at low cost, strong operability And the advantage that can be layouted extensively.Meanwhile system does not emit electromagnetic wave externally, in the higher occasion of installation electromagnetical environment service requirement Has stronger adaptability.

Detailed description of the invention

Fig. 1 is system physical composition block diagram；

Fig. 2 is single station photoelectric detecting system composition block diagram；

Fig. 3 is system each unit crosslinking relationship；

Fig. 4 is single station photodetection subsystem work flow diagram；

Fig. 5 is low latitude invader testing process；

Fig. 6 is intrusion target tracking workflow；

Fig. 7 is the target's feature-extraction based on SVM；

Fig. 8 is low latitude invader identification process；

Fig. 9 is multistation networking photodetection subsystem work schematic diagram；

Figure 10 is that the unmanned plane of view-based access control model system flies hand positioning schematic diagram.

Specific embodiment

For a clearer understanding of the technical characteristics, objects and effects of the present invention, this hair of Detailed description of the invention is now compareed Bright specific embodiment.It should be appreciated that described herein, specific examples are only used to explain the present invention, is not used to limit The present invention, i.e., described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Usually here The component of the embodiment of the present invention described and illustrated in attached drawing can be arranged and be designed with a variety of different configurations.Therefore, with Under the range of claimed invention is not intended to limit to the detailed description of the embodiment of the present invention provided in the accompanying drawings, But it is merely representative of selected embodiment of the invention.Based on the embodiment of the present invention, those skilled in the art are not making wound Every other embodiment obtained under the premise of the property made is worked, shall fall within the protection scope of the present invention.

Embodiment 1

As shown in Figure 1, distributed intelligence photoelectricity low latitude guard system, including the photoelectricity distribution imaging system based on laser active illumination System and server and display and control terminal, photoelectricity are distributed imaging system by LAN connection server and display and control terminal, show control eventually End is also connect with server, and photoelectricity distribution imaging system includes single station photodetection subsystem of multiple distributed settings, specifically :

Single station photodetection subsystem receives the control instruction and realization that display and control terminal issues: the capture of low latitude intrusion target, target Detection, evidence obtaining and tracking, laser active illumination and intrusion flight target identification.

Local area network is that whole system is the data such as control instruction, business datum, system state data and long-range update upgrading Physical link is provided.

Server receives and stores the image information that single station photodetection subsystem obtains, in conjunction with each single station photodetection Distributed photoelectric detecting system is realized in coordinate information, running parameter and the target bearing of acquisition and range information of subsystem Resource management and traffic control；The return data for also receiving the photonics of invader, analyzes return data, completes The work such as analyte detection, feature extraction, identification, tracking and evidence obtaining are invaded, and save corresponding business datum；Form the comprehensive report of target Literary information, including the comprehensive point track of target, classification, identity information and tracking video information；Load offline 2/3D cartographic information, root Working condition detection is carried out according to instruction, forms self-test information；By target integrated information, map environment information, work state information Comprehensive display and control terminal is transferred to be shown.

Comprehensive display and control terminal carries out human-computer interaction, is configured to system operational parameters, target information that system is obtained, Video information, cartographic information, work state information are shown.

In addition, this system further includes the power supply for system components power supply, the interrelated relationship of each component units of system, letter It is as shown in Figure 3 to cease interactive relation.

Embodiment 2

The present embodiment is the optimal enforcement example based on embodiment 1, as shown in Fig. 2, single station photodetection subsystem includes: ray machine machine Frame, measurement TV subsystem, laser lighting subsystem, servo subsystem, Master Communications subsystem and image recording subsystem, it is main Control communication subsystem connection server, display and control terminal, ray machine rack, measurement TV subsystem, laser lighting subsystem and servo Subsystem, image recording subsystem connection measurement TV subsystem and servo subsystem, servo subsystem also connect with ray machine rack It connects.Specifically, ray machine rack provides support for system；It measures TV subsystem and realizes target imaging, and is complete by multi-vision visual It is measured at object pose；Laser lighting subsystem increases measurement TV under conditions of visibility is low, through illumination light filling means The detectivity of subsystem；Servo subsystem realizes two-freedom SERVO CONTROL, and adjustment measurement TV subsystem optical axis is directed toward；It is main It controls communication subsystem and realizes complete machine control and communication function；Image recording subsystem is the storage system of system, storage equipment fortune The image for acquiring or recording during row.

Embodiment 3

The present embodiment is the optimal enforcement example based on embodiment 2, as shown in figure 4, the specific works of single station photodetection subsystem Process is as follows:

1) in the AB stage of target flight, single station photodetection subsystem executes comprehensive automatic search and finds that low latitude enters at this time The target invaded；

2) in the BC stage of target flight, single photodetection subsystem of standing receives the track or position letter of the target of server passback After breath, ray machine rack of quickly turning round is directed toward target, confirms and captures target；

3) in the CD stage of target flight, single photodetection subsystem of standing carries out tenacious tracking to target, establishes target flight letter Breath, and target is identified and confirmed, while reporting pose and characteristic information, situation and threat level and the mesh of target The track and heading of flight are marked, and target of extrapolating enters position and the moment in DE stage；

4) in the DE stage of target flight, it is confirmed whether to intercept target, if you need to intercept counter, single photodetection subsystem of standing System other than keeping target following and information to export, must also be observed in this stage and record entire interception process；

5) calculate target landing place, when the pitch angle of target be less than certain numerical value when, that is, show target landed or It has been in landing state.

It needs to record image, and mark in real time as long as target enters detector field of view in above each stage The location information of target, so as to subsequent analysis evidence obtaining.

Embodiment 4

The present embodiment is the optimal enforcement example based on embodiment 3, executes its specific workflow in singly station photodetection subsystem During, it is specific as follows in the detection of server sync performance objective, target following, feature extraction and object recognition task:

1) target detection

Small in staring imaging or initial guide image-forming condition, invading unmanned plane or flying bird target is in Small object form in visual field. For the Classification and Identification and tracking for realizing low latitude invader, the first small target deteection under completion complex background.During tracking, It can include in the sky, ground sundries in visual field in the imaging system of big visual field since platform has very strong mobility, and And scene changes are quickly.Background estimating is realized using based on anisotropy background forecast, is entered after obtaining residual image using low latitude False mesh further is rejected in height characteristic, flying object gray-scale watermark, scene prior information and the prospect variation etc. for invading object Mark.False-alarm probability is reduced by the accumulative detection of multiframe, realizes the detection of low latitude intrusion target.Low latitude invader testing process, such as Fig. 5 It is shown.

2) target following

Server returns target bearing, pitch information, is converted into the photoelectric turntable control parameter and measurement TV of servo subsystem The camera control parameter of subsystem specifically includes photoelectric turntable velocity of rotation, rotation direction, camera focal length, to realize to target Blur-free imaging.Estimating target motion parameter adjusts photoelectric turntable and camera control parameter, realizes to Automatic Target Tracking.Enter Target following workflow is invaded, as shown in Figure 6.Since low latitude invader flight path has certain time variation, big boundary is smart Serial unmanned plane has the movement such as hovering, acceleration, deceleration, and the operation characteristic of birds is more complicated, and flying speed is also faster.Base It is equal that acceleration zero-mean in Singer model is improved to self adaptable acceleration in the Kalman Prediction filtering algorithm of statistical model Value, it is believed that the acceleration of target subsequent time can only in the neighborhood of current acceleration so that tracking accuracy and performance obtain compared with It is big to improve.In binocular vision system, realize that the details of low latitude invader is imaged using monocular, and other vision system is to mesh Mark carries out wide field staring imaging, realizes the tracking of invasion point target, effectively reduces the difficult point and system turntable of Tracking The cost of design.

3) feature extraction

In order to avoid influence of noise image quality, the loss of feature is caused, using contour feature, shape feature, statistical nature, entropy The identification feature of feature, GMM parameter attribute as target, will be in this, as the input of SVM classifier.It collects and largely exists first The target images such as unmanned plane, flying bird under different conditions, angle and illumination condition carry out pretreatment as positive sample to them； A large amount of background image is collected as negative sample.The feature of training sample is obtained by extracting above-mentioned target signature, is input to SVM It is trained in training aids, as shown in Figure 7.

4) target identification

It is first away from after according to binocular or more range estimations after realizing target detection under large viewing field condition in order to identify low latitude invader Beginning range information realizes system zoom, and the system focal length of tracking camera is adjusted in conjunction with image definition evaluation index.To invader After carrying out blur-free imaging, Image Acquisition is realized, do premise preparation to carry out invader identification.Target based on statistical-simulation spectrometry Recognizer regards target identification as distinguishes type belonging to target from sample, it is desirable that with a large amount of before to target identification Sample trains the classifier of the target, utilizes the trained object classifiers to carry out Classification and Identification.Target is realized using SVM Identification, for the identification process of invader, as shown in Figure 8.

Embodiment 5

The present embodiment is the optimal enforcement example based on embodiment 4, distributed subsystem scheduling of resource:

After singly station photodetection subsystem detects low latitude invader for certain, itself coordinate information, system configuration information are reported (including measure TV subsystem system focal length, front size and number of pixels and the turntable of servo subsystem be directed toward) and Invader is roughly calculated in video information to server, the detection of server performance objective, tracking, feature extraction and identification mission Orientation and pitch information, and the relative position distribution in the orientation, pitch information and each single station photodetection subsystem is combined to open Single station photodetection subsystem around the dynamic single station photodetection subsystem for detecting invader for the first time, is realized to invader Capture, tracking and identification.

Embodiment 6

The present embodiment is the optimal enforcement example based on embodiment 5, and binocular/multi-vision visual is imaged:

Multistation photodetection subsystem is that the working condition and the optical axis by configuring adjacent sites are directed toward, former using the imaging of camera Reason realizes that the position of invasion unmanned plane measures by binocular/multi-vision visual.Multistation photodetection subsystem by two or two with On single station photodetection subsystem composition, pass through photodetection in optical calibrating means record station in singly station installation process Its relative coordinate system is mapped under the body coordinate system at protection scene by the relative pose information between system, realizes multi-site Joint monitoring forms more mesh monitoring.Using multi-vision visual, wider field range on the one hand is realized by Multi-sensor Fusion means Interior low-altitude surveillance, until the entire low latitude range at covering monitoring scene；In addition, multi-vision visual is realized in networking detection, using more The working mechanism visually felt realizes unmanned plane Absolute position measurement, provides speed, angular speed, the distance of unmanned plane for display and control terminal Etc. flight informations.

Embodiment 7

The present embodiment is the optimal enforcement example based on embodiment 6, and target video automatically tracks evidence obtaining:

According to the target bearing of acquisition, pitching, range information, it is converted into photoelectric turntable velocity of rotation and rotation direction and picture Machine focal length realizes the blur-free imaging to target, carries out Real-Time Forensics to low latitude intrusion event.Image procossing is carried out, estimates target Kinematic parameter, adjusts photoelectric turntable, camera control parameter, and realization automatically tracks the video of target.In binocular vision system In tracking application for, using monocular realize low latitude invader details be imaged, and other vision system to target carry out Wide field staring imaging, realizes the tracking of invasion point target, effectively reduces the difficult point and system turret design of Tracking Cost.

Embodiment 8

The present embodiment is the optimal enforcement example based on embodiment 7, and unmanned plane flies hand position estimation:

Illustrate the system flow of multistation associated working by taking binocular vision as an example, as shown in figure 9, when unmanned plane appears in some website Visual field in when, be directed toward according to optical axis and the position that occurs on detector target surface of point target substantially resolve unmanned plane current sub System ontology measures the initial orientation and pitching under coordinate system.Relative coordinate allotment adjacent sites according to adjacent sites participate in Target acquisition, tracking and identification are invaded, it is first under adjacent sites measurement coordinate system to convert solution invasion unmanned plane by relative coordinate Beginning orientation and pitching, and its running parameter is configured, ray machine rack head is turned by servo subsystem control and is combined with current site Low latitude invasion unmanned plane is imaged, the angle information for reading servo subsystem after stablizing imaging is realized, in conjunction between website Relative position and invasion unmanned plane absolute position speculate unmanned plane fly hand position.

To the monitoring targets of interest of any position, once into monitoring system, the sensor of distributed arrangement passes through letter Breath exchange, can perceive its position, and server is enable to provide optimal sensing using its location information for target following and monitoring Device.It is as shown in Figure 10 that unmanned plane manipulator positions schematic diagram.The pose measurement of invasion unmanned plane is surveyed using binocular vision Amount, it is assumed that the pose that the T moment is sitting in by the unmanned plane that binocular vision system measurement obtains for 1 region top, due to nobody Machine flies hand and carries out flight operation to unmanned plane by remote-control data chain, and unmanned aerial vehicle remote control data link is to the operating distance of unmanned plane It is limited, about 1Km.It is located at the top in 2 regions in the pose that the T+1 moment measures unmanned plane, and the T+2 moment measures nobody The pose of machine is located at the top in 3 regions.It is assumed that the distance that unmanned plane flies hand movement is shorter, then foundation in measurement process three times The performance indicator of detection system and the operating distance of remote-control data chain, it is known that unmanned plane flies hand position and is located at 1 region, 2 regions and 3 Three, region region repeats the region of covering, i.e. region where triangle.

Embodiment 9

The present embodiment is the optimal enforcement example based on embodiment 1, human-computer interaction and intergrated information display:

For display and control terminal using man-machine friendly interaction design, it includes functional areas menu bar, system parameter setting area, system monitoring letter Cease viewing area, system comprehensive situation information display area and photoelectric video information display area.It is merged in display and control terminal reading service device Target integrated information, cartographic information and real-time system work state information afterwards, and carry out intergrated information display.

The above is only a preferred embodiment of the present invention, it should be understood that the present invention is not limited to described herein Form should not be regarded as an exclusion of other examples, and can be used for other combinations, modifications, and environments, and can be at this In the text contemplated scope, modifications can be made through the above teachings or related fields of technology or knowledge.And those skilled in the art institute into Capable modifications and changes do not depart from the spirit and scope of the present invention, then all should be in the protection scope of appended claims of the present invention It is interior.

In the description of the present invention, it should be noted that term " first ", " second ", " third " etc. are only used for distinguishing and retouch It states, is not understood to indicate or imply relative importance.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " installation ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally connect It connects；It can be mechanical connection, be also possible to be electrically connected；It can be also wired connection, be also possible to be wirelessly connected.

Claims (7)

1. a kind of distributed intelligence photoelectricity low latitude guard system, which is characterized in that including the photoelectricity based on laser active illumination point Cloth imaging system and server and display and control terminal, the photoelectricity distribution imaging system is by LAN connection server and shows Control terminal, the display and control terminal are also connect with server；The photoelectricity distribution imaging system includes the list of multiple distributed settings It stands photodetection subsystem；

Distributed intelligence photoelectricity low latitude guard system includes following several work steps:

S1. system detection and parameter configuration: system boots up self-test, working condition is entered when without exception, and carry out work ginseng Number configuration, the running parameter configuration including each single station photodetection subsystem and server；

S2. photodetection low target: single station photodetection subsystem executes comprehensive automatic search and finds low latitude invasion Target, receive server passback target track or location information after, capture target simultaneously it is tracked and is identified, on The pose and characteristic information for reporting target are to server, then judge whether to intercept the target, finally calculate the landing place of target；? In this step, as long as target enters single station photodetection subsystem detection viewing field, i.e., image is recorded and mark mesh in real time Target location information；

S3. distributed subsystem scheduling of resource: the target relevant information that server is reported according to single station photodetection subsystem, The orientation and pitch information of target is roughly calculated, and combines the relative position of each single station photodetection subsystem, starting is for the first time Detect single station photodetection subsystem around single station photodetection subsystem of target；

S4. binocular/multi-vision visual imaging: the multistation photoelectricity being made of two or more single station photodetection subsystems Detection subsystem is directed toward by the working condition and the optical axis that configure adjacent sites, and using the image-forming principle of camera, passes through binocular Or multi-vision visual realizes the position measurement of target；

S5. target video automatically tracks evidence obtaining: according to target bearing, pitching and the location information obtained, being converted into photoelectricity and turns Platform and camera control parameter realize the blur-free imaging to target；Image procossing is carried out again, and estimating target motion parameter adjusts light Electric turntable and camera control parameter, realization automatically track the video of target；

S6. human-computer interaction and intergrated information display: display and control terminal is read and the comprehensive letter of fused target in display server Breath, cartographic information and system instantaneous operating conditions information.

2. a kind of distributed intelligence photoelectricity low latitude according to claim 1 guard system, which is characterized in that the Dan Zhanguang Electric detection subsystem includes: ray machine rack, measurement TV subsystem, laser lighting subsystem, servo subsystem, Master Communications point System and image recording subsystem, the Master Communications subsystem connection server, display and control terminal, ray machine rack, measurement TV Subsystem, laser lighting subsystem and servo subsystem, described image record subsystem connection measurement TV subsystem and servo Subsystem, the servo subsystem are also connect with ray machine rack.

3. a kind of distributed intelligence photoelectricity low latitude according to claim 2 guard system, which is characterized in that the step S2 In, single photodetection subsystem of standing executes following steps:

S21. in the first stage of target flight, single station photodetection subsystem executes comprehensive automatic search and finds at this time The target of low latitude invasion；

S22. in the second stage of target flight, single photodetection subsystem of standing receive the target of server passback track or After location information, ray machine rack of quickly turning round is directed toward target, confirms and captures target；

S23. in the phase III of target flight, single photodetection subsystem of standing carries out tenacious tracking to target, establishes target and fly Row information, and target is identified and confirmed, while reporting the pose and characteristic information of target, situation and threat level, with And the track and heading of target flight, and target of extrapolating enters position and the moment of fourth stage；

S24. in the fourth stage of target flight, it is confirmed whether to intercept target, if you need to intercept counter, single photoelectricity of standing is visited Survey subsystem other than keeping target following and information to export, must also be observed in this stage and record entire interception process；

S25. calculate target landing place, when the pitch angle of target be less than certain numerical value when, that is, show target landed or Person has been in landing state.

4. a kind of distributed intelligence photoelectricity low latitude according to claim 2 guard system, which is characterized in that the step S2 In, server executes following steps:

Target detection: realizing background estimating using based on anisotropy background forecast, obtains entering mesh using low latitude after residual image Target height characteristic, gray-scale watermark, scene prior information and prospect change information further reject false target, then lead to Crossing the accumulative detection of multiframe reduces false-alarm probability；

Target following: server returns target bearing and pitch information, be converted into the camera of measurement TV subsystem focal length and The velocity of rotation and rotation direction of the photoelectric turntable of servo subsystem, then estimating target motion parameter adjust camera focal length and light The velocity of rotation and rotation direction of electric turntable, real-time tracking target；

Feature extraction: collecting the image of the largely unmanned plane under different conditions, angle and illumination condition and flying bird, in this, as Target image carries out pretreatment as positive sample to them, and collects a large amount of background image as negative sample；Profile is used again The identification feature of feature, shape feature, statistical nature, entropy feature and GMM parameter attribute as target；

Target identification: the identification feature of target being input in SVM classifier and is trained, and utilizes trained svm classifier Device carries out Classification and Identification to target.

5. a kind of distributed intelligence photoelectricity low latitude according to claim 2 guard system, which is characterized in that the step S2 In, single photodetection subsystem of standing is reported to the content of server in addition to the pose and characteristic information of target, further includes: Dan Zhanguang The coordinate information and system configuration information of electric detection subsystem and the video information of target.

6. a kind of distributed intelligence photoelectricity low latitude according to claim 5 guard system, which is characterized in that the Dan Zhanguang The system configuration information of electric detection subsystem includes system focal length, front size and the number of pixels for measuring TV subsystem, with And the photoelectric turntable of servo subsystem is directed toward.

7. a kind of distributed intelligence photoelectricity low latitude according to claim 1 guard system, which is characterized in that the aobvious control is eventually End include functional areas menu bar, system parameter setting area, system monitoring information display area, system comprehensive situation information display area and Photoelectric video information display area.