CN202019657U - Mobile airport bird-detecting and directional bird-repelling system - Google Patents

Abstract

The utility model discloses a mobile airport bird-detecting and directional bird-repelling system. The system comprises an optical detection instrument, a signal processing instrument, a monitoring display instrument, a loud sound emission instrument, a power supply unit and a mobile platform; the optical detection instrument detects flying bird targets in order to acquire the image of the flying bird targets and the spatial position information of the optical detection instrument; the signal processing instrument receives and processes the image of the flying bird targets and the spatial position information in order to obtain position information codes; according to the position information codes, the monitoring display instrument sends out a repelling control instruction aimed at the flying bird targets, and displays the image of the flying bird targets and the spatial position information; the loud sound emission instrument executes the repelling control instruction aimed at the flying bird targets in order to output amplified bird-repelling audio signals; the power supply unit supplies electricity to the signal processing instrument, the monitoring display instrument and the loud sound emission instrument; and the mobile platform carries the optical detection instrument, the signal processing instrument, the monitoring display instrument, the loud sound emission instrument and the power supply unit. The system can identify the varieties of birds and then achieve the effect of remotely and effectively repelling birds.

Description

Portable airport bird feelings are surveyed and directed scarer

Technical field

The utility model relates to active laser illumination imaging and sound wave directional transmissions field, surveys and directed scarer in particular to a kind of portable airport bird feelings.

Background technology

Aircraft and flying bird on ground, the accident that causes of midair crash is referred to as " bird is hit " accident.Bird is hit as a kind of multiple, dangerous incident, not only causes enormous economic loss and casualties, and disturbed seriously that army normally trains, assignment in preparedness against war finish normal flight with civil air route.Add up according to International Civil Aviation authoritative institution, a lot of birds are taken place in recent years in the world altogether hit the fatal crass's incident that causes, annual aircarrier aircraft hits the direct losses of damaging engine because of bird and just is worth more than 20 hundred million dollars, and indirect losses such as the airliner delay that causes thus, cancellation, accent machine are 4～5 times of direct losses especially.

Along with people protect environment, love bird, protect the enhancing of bird consciousness; birds quantity increases year by year; the scope of mankind's activity simultaneously constantly enlarges, and the natural environment of make suitable birdife, perch, multiplying reduces significantly, the desirable place that the airport just becomes birdife, perches, multiplies.Birds in the world have kind more than 2000, and the domestic kind of China just reaches 1244 kinds.The whole world can cause that the birds that bird is hit have 287 kinds, and China distributes 143 kinds.China territory is vast, and geographical conditions, resident bird, migratory bird distribute difference greatly, and particularly the air force airport distributes wide, the airport is unfixing service time, remoter place is all built on most of airports in, these places exactly birds perch, activity, migratory bird migrates the desirable area of process.These characteristics require to drive bird at kind, the habit of different regions bird.Simultaneously birds are human friends, and important function is arranged in the ecological balance, and the mankind should not injure or the prerequisite of the least possible injury birds goes down to solve the airport bird pest, and this has increased difficulty to the enforcement of airport bird scaring countermeasure again virtually.Therefore, anti-bird to hit the generation of accident be the most important safety problems of pendulum in face of Chinese civil aviation and air unit.

The existing disclosed airport bird scaring equipment of correlation technique generally adopts infrared and radar is surveyed, scarecrow device carries out a series of conversion with the birds information that detects, thereby sending, driving audible alarm system drives bird sound, the sphere of action of this type of scarecrow device is narrow, be 16m-20m, and this type of scarecrow device can't be discerned the kind of bird, can not have at ground and drive.

Airport bird scaring equipment at correlation technique mainly adopts infrared and radar equipment at present, cause the round-the-clock use prevailing price of airport bird scaring equipment higher, and it is low also to face detecting devices resolution and frame frequency, the problem that is difficult to identification bird kind and is difficult to realize driving at a distance bird does not propose effective solution at present as yet.

The utility model content

Airport bird scaring equipment at correlation technique mainly adopts infrared and radar equipment, cause the round-the-clock use prevailing price of airport bird scaring equipment higher, and it is low also to face detecting devices resolution and frame frequency, be difficult to identification bird kind and be difficult to realize driving the problem of bird at a distance and propose the utility model, for this reason, main purpose of the present utility model is to provide a kind of portable airport bird feelings to survey and directed scarer, to address the above problem.

To achieve these goals, according to an aspect of the present utility model, provide a kind of portable airport bird feelings to survey and directed scarer, this device comprises as follows: the optical detection instrument, be used to survey the flying bird target, thereby obtain the spatial positional information of flying bird target image and optical detection instrument; Signal processing equipment is used to receive flying bird target image and spatial positional information, and flying bird target image and spatial positional information are handled, to obtain the positional information coding; The display monitoring instrument is used for sending the control instruction of driveing at the flying bird target according to positional information coding, shows flying bird target image and spatial positional information simultaneously; Strong acoustic emission instrument is used to carry out the control instruction of driveing at the flying bird target, drives the bird audio signal after amplifying with output; Supply unit is used for signal processing equipment, display monitoring instrument and strong acoustic emission instrument power supply; Mobile platform is used to load optical detection instrument, signal processing equipment, display monitoring instrument, strong acoustic emission instrument and supply unit.

Further, the optical detection instrument comprises: laser instrument is used to produce first laser; Set of lenses is used to receive first laser, and is second laser with first laser shaping; Near infrared camera is used for by the second laser lighting flying bird target, thereby obtains the flying bird target image; GPS is used to obtain the spatial positional information of optical detection instrument; Electronic compass is used to obtain the directional information of second laser; Mechanical scanner is used to install laser instrument, set of lenses, near infrared camera, GPS and electronic compass.

Further, first optical maser wavelength is 1.5 μ m-1.6 μ m.

Further, set of lenses comprises: the concavees lens group becomes first laser into diverging light; Convex lens become diverging light into directional light; Optical module becomes directional light into diffused light, and diffused light is as second laser.

Further, signal processing equipment comprises: image acquisition device is used to gather the flying bird target image that the optical detection instrument sends; Signal processing unit is connected with image acquisition device, is used to receive the flying bird target image, and determines the kind of flying bird target according to the flying bird target image, and is connected with electronic compass with GPS in the optical detection instrument, to obtain spatial positional information; Encoder is connected with signal processing unit, is used for receiving and the space encoder positional information, generates the positional information coding.

Further, the display monitoring instrument comprises: video display is used for receiving and showing flying bird target image and spatial positional information; Central controller is used for the positional information coding that the received code device sends, and sends the control instruction of driveing at the flying bird target according to the positional information coding to strong acoustic emission instrument.

Further, strong acoustic emission instrument comprises directed strong acoustic emission array and load-carrying The Cloud Terrace, and the load-carrying The Cloud Terrace carries out orientation and angle of pitch adjustment according to the control instruction of driveing of central controller to strong acoustic emission instrument.Wherein fixed strong acoustic emission array comprises: source of sound supply circuit module produces one or more bird audio signals of driving; The audio frequency processing circuit module is driven the bird audio signal to first and is carried out the signal processing, to obtain the audio data stream of numeral modulation; Power Processing circuit module, the audio data stream of logarithm tone of Chinese characters system are done to amplify and the filtering processing, and convert to and drive the bird audio signal after the amplification; Loudspeaker array is used to export and drives the bird audio signal after the amplification.

Further, drive control instruction and comprise azimuth and angle of pitch instruction and audio signal instruction.

Further, the load-carrying The Cloud Terrace instructs the azimuth and the angle of pitch of adjusting strong acoustic emission instrument according to azimuth and the angle of pitch; Directed strong acoustic emission array instructs to export according to audio signal and drives the bird audio signal after the amplification.

Further, the bird audio signal acoustic wave beam angle of driving after the amplification of directed strong acoustic emission array output is ± 15 °, and sound pressure level is 160dB.

By the utility model, adopt the optical detection instrument, be used to survey the flying bird target, thereby obtain the spatial positional information of flying bird target image and optical detection instrument; Signal processing equipment is used to receive the spatial positional information of flying bird target image and optical detection instrument, and the spatial positional information of flying bird target image and optical detection instrument is handled; The display monitoring instrument is used to show the flying bird target image, sends the control instruction of driveing at the flying bird target; Strong acoustic emission instrument is used to carry out the control instruction of driveing at the flying bird target, drives the bird audio signal after output is amplified; Supply unit is used for signal processing equipment, display monitoring instrument and strong acoustic emission instrument power supply and realization power management; Mobile platform is used to load optical detection instrument, signal processing equipment, display monitoring instrument, strong acoustic emission instrument and supply unit.This device combines the effect of above-mentioned each part, thereby the airport bird scaring equipment that has solved correlation technique mainly adopts infrared and radar equipment, cause the round-the-clock use prevailing price of airport bird scaring equipment higher, and it is low also to face detecting devices resolution and frame frequency, the problem that is difficult to identification bird kind and is difficult to realize driving at a distance bird, and then reach the effect of effectively driving bird at a distance.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, constitutes the application's a part, and illustrative examples of the present utility model and explanation thereof are used to explain the utility model, do not constitute improper qualification of the present utility model. exists

In the accompanying drawing:

Fig. 1 surveys and directed scarer structural representation according to the portable airport bird feelings of the utility model embodiment;

Fig. 2 is the optical detection apparatus structure schematic diagram according to the utility model embodiment;

Fig. 3 is the lens group structure schematic diagram according to the utility model embodiment;

Fig. 4 is the strong acoustic emission instrument structural representation according to the utility model embodiment;

Fig. 5 surveys and directed scarer operation principle schematic diagram according to the portable airport bird feelings of the utility model embodiment;

Fig. 6 is the signal processing flow schematic diagram according to the utility model embodiment; And

Fig. 7 is the load-carrying The Cloud Terrace workflow schematic diagram according to the utility model embodiment.

Embodiment

Need to prove that under the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.Describe the utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As Fig. 1 is to survey and directed scarer structural representation according to the portable airport bird feelings of the utility model embodiment, this device comprises: optical detection instrument 1, be used to survey the flying bird target, thereby obtain the spatial positional information of flying bird target image and optical detection instrument 1; Signal processing equipment 4 is used to receive flying bird target image and spatial positional information, and flying bird target image and spatial positional information are handled, to obtain the positional information coding; Display monitoring instrument 5 is used for sending the control instruction of driveing at the flying bird target according to positional information coding, shows flying bird target image and spatial positional information simultaneously; Strong acoustic emission instrument 3 is used to carry out the control instruction of driveing at the flying bird target, drives the bird audio signal after amplifying with output; Supply unit 6 is used for signal processing equipment 4, display monitoring instrument 5 and 3 power supplies of strong acoustic emission instrument; Mobile platform 2 is used to load optical detection instrument 1, signal processing equipment 4, display monitoring instrument 5, strong acoustic emission instrument 3 and supply unit 6.

Supply unit 6 in the foregoing description can be an accumulator, can be small-sized internal combustion engine generator also, but is not limited thereto two kinds, as long as can reach the purpose of power supply, other equivalent way is all applicable in this utility model.By above-mentioned embodiment, the airport bird scaring equipment that the utility model can solve existing correlation technique mainly adopts infrared and radar equipment, cause the round-the-clock use prevailing price of airport bird scaring equipment higher, and it is low also to face detecting devices resolution and frame frequency, the problem that is difficult to identification bird kind and is difficult to realize driving at a distance bird.Specify embodiment of the present utility model below in conjunction with accompanying drawing.

As Fig. 2, be optical detection apparatus structure schematic diagram according to the utility model embodiment, this optical detection instrument 1 comprises: laser instrument 11 is used to produce first laser; Set of lenses 12 is used to receive first laser, and is second laser with first laser shaping; Near infrared camera 13 is used for by the second laser lighting flying bird target, thereby obtains the flying bird target image; GPS14 is used to obtain the spatial positional information of optical detection instrument 1; Electronic compass 15 is used to obtain the directional information of second laser; Mechanical scanner 16 is used to install laser instrument, set of lenses, near infrared camera, GPS and electronic compass.

As Fig. 3 is lens group structure schematic diagram according to the utility model embodiment.This set of lenses 12 comprises: concavees lens group 121 becomes first laser into diverging light; Convex lens 122 become diverging light into directional light; Optical module 123 becomes directional light into diffused light, and diffused light is as second laser.The laser beam 124 that sends of laser instrument 11 becomes the diverging light 125 of certain cone angle through concavees lens group 121 as shown in Figure 3, angle of divergence semi-cone angle of the present utility model is preferably 30 °, diverging light 125 planoconvex lenses 122 backs form a directional light 126, this directional light 126 becomes diffused light 127 directive flying bird targets through optical module 123 again, and this diffused light is preferably the illuminating laser beam of big outgoing radius.

Preferably, in the foregoing description of the present utility model: the laser instrument 11 of optical detection instrument 1 can be the burst pulse solid state laser, near infrared camera 13 can be the Near Infrared CCD camera, and the resolution of this Near Infrared CCD camera is preferably the 1400*1024 pixel, and frame frequency was preferably for 100 frame/seconds.Wherein, the burst pulse solid state laser can be electro-optical Q-switching laser, and the laser of output can be the pulse laser of 1.5 μ m-1.6 μ m for wavelength.The injection power conversion that the burst pulse solid state laser provides Laser Power Devices is an eye-safe laser, this safe laser is preferably the pulse laser of 1.5 μ m-1.6 μ m, should safe laser scioptics group convert diffused light to again, diffused light is via emission system directive flying bird target, the flying bird target is shone through diffused light, thereby the Near Infrared CCD camera obtains the flying bird target image, optical detection instrument 1 is issued signal processing equipment 4 with the flying bird target image, and 4 pairs of flying bird target images of signal processing equipment are handled.

Preferably, mechanical scanner 16 is the 3 D intelligent The Cloud Terrace, bear the 13 pairs of target searches of illumination, near infrared camera and the detecting function of 11 pairs of targets of laser instrument, GPS14 and electronic compass 15 are embedded in the mechanical scanner 16, determine the directional information of the diffused light launched when the spatial positional information of this optical detection instrument 1 itself and optical detection instrument 1 point to the flying bird target.

As Fig. 4 is strong acoustic emission instrument structural representation according to the utility model embodiment, this strong acoustic emission instrument 3 comprises directed strong acoustic emission array 31 and load-carrying The Cloud Terrace 32, and load-carrying The Cloud Terrace 32 carries out azimuth and angle of pitch adjustment according to the control instruction of driveing of central controller 52 to strong acoustic emission instrument 3.Wherein fixed strong acoustic emission array 31 comprises: source of sound supply circuit module 311 produces one or more bird audio signals of driving; Audio frequency processing circuit module 312 is driven the bird audio signal to first and is carried out the signal processing, to obtain the audio data stream of numeral modulation; Power Processing circuit module 313, the audio data stream of logarithm tone of Chinese characters system are done to amplify and filtering is handled, and the audio data stream of modulating of the numeral after will handling converts to and drives the bird audio signal after the amplification; Loudspeaker array 314 is used to export and drives the bird audio signal after the amplification.

Preferably, in the foregoing description of the present utility model, as shown in Figure 4, source of sound supply circuit module 311 can be Fixed disk or MP3 memory, more preferably, what this source of sound supply circuit module 311 can be stored 19 hours 128kbps drives the bird audio signal, and this audio signal can reach the tonequality of CD.The debug circuit of source of sound supply circuit module 311 drives the download of bird audio signal by USB interface and portable computer, and this drives wail sound that sound that the bird audio signal comprises the birds natural enemy, horrible cry sound that the bird of prey catches birds, birds hit by shotgun and explosive sound etc.Renewal, the broadcast of driving the bird audio signal begins, stopping and selecting all can be by external options button control operation.Drive the bird audio signal and be connected with audio frequency processing circuit module 312 by output interface, audio frequency processing circuit module 312 can become autonomous system separately, also can the intermodule cascade, realize principal and subordinate's control model.Carry out code conversion after driving the built-in dsp code of bird audio signal through audio frequency processing circuit module 313, obtain the audio data stream of numeral modulation, the audio data stream of this numeral modulation is sent into the switch power amplifying circuit through small-signal digital drive circuit and is carried out power amplification, the audio data stream of the numeral modulation after will amplifying is at last passed through wave filter, wave filter extracts and to drive the bird audio signal after the amplification of simulation, the bird audio signal of driving after will amplifying again sends loudspeaker array 314 to, strong acoustic emission instrument 3 can be controlled at the acoustic wave beam that drives the bird audio signal after amplifying ± 15 ° of scopes in, airport in the 2000m scope and peripheral birds target are implemented to drive.

Fig. 5 surveys and directed scarer operation principle schematic diagram according to the portable airport bird feelings of the utility model embodiment.As shown in Figure 5, signal processing equipment 4 comprises: image acquisition device 41 is used to gather the flying bird target image that optical detection instrument 1 sends; Signal processing unit 42 is connected with image acquisition device 41, is used to receive the flying bird target image, and determines the kind of flying bird target according to the flying bird target image, and is connected with electronic compass 15 with GPS14 in the optical detection instrument 1, to obtain spatial positional information; Encoder 43 is connected with signal processing unit 42, is used for receiving and the space encoder positional information, generates the positional information coding.

As shown in Figure 5, in the utility model the foregoing description, display monitoring instrument 5 comprises: video display 51 is used for receiving and showing flying bird target image and spatial positional information; Central controller 52 is used for the positional information coding that received code device 43 sends, and sends the control instruction of driveing at the flying bird target according to the positional information coding to strong acoustic emission instrument 3.

Fig. 6 is the signal processing flow schematic diagram according to the utility model embodiment.As shown in Figure 6: behind the flying bird target image that the Near Infrared CCD camera of signal processing equipment 4 in receiving optical detection instrument 1 transmits, at first obtain the adaptive background image of flying bird target image, carry out the image preliminary treatment.After image is cut apart, start target detection and identification software, target information in the image is detected identification, after determining the kind of flying bird target, according to the relative position of flying bird target in the image and the spatial information of optical detection instrument 1, determine the spatial information and the flight path of flying bird target.Encoder 43 is with the empty position information of optical detection instrument 1 and comprise that position, direction and the kind of information of flying bird target encode, and generates the positional information coding, the positional information coding is sent to show control instrument 5 simultaneously.Show that control instrument 5 comprises video display 51 and central controller 52, the flying bird target image that video display 51 received signal processing units 42 send, this video display 51 possesses video and shows overlaying function, on the image that information such as flying bird target longitude and latitude, angle of visual field position can be added to.Display monitoring instrument 5 has the video switch ability simultaneously, can realize raw video signal and the hand-off process of handling the rear video signal according to the duty that shows control equipment control Near Infrared CCD camera.The positional information coding that central controller 52 received code devices 43 send, send the control instruction of driveing according to this positional information coding, realize the accurate control of rotating speed, orientation and the luffing angle of load-carrying The Cloud Terrace 32 and drive strong acoustic emission instrument 3 sending audio signal instruction at the flying bird target at the flying bird target.

Preferably, driveing in the foregoing description comprises azimuth and angle of pitch instruction and audio signal instruction, wherein: azimuth and angle of pitch instruction send to the load-carrying The Cloud Terrace, and load-carrying The Cloud Terrace 32 and then realization are to the azimuth and the angle of pitch adjustment of strong acoustic emission instrument 3; Audio signal instruction is to send according to the kind of different flying bird targets, and the audio signal instruction sends to directed strong acoustic emission array 31, thereby drives the bird audio signal after driving directed strong acoustic emission array 31 outputs and amplifying.The bird audio signal acoustic wave beam angle of driving after the amplification of strong acoustic emission array 31 outputs of this orientation is ± 15 °, and sound pressure level can reach 160dB.

Fig. 7 is the load-carrying The Cloud Terrace workflow schematic diagram according to the utility model embodiment.Load-carrying The Cloud Terrace 32 is after the instruction that receives central controller 52, and at first control instruction is driven in decoding, is converted into the discernible angle of The Cloud Terrace and drives control instruction, is pressed into control The Cloud Terrace instruction storehouse again, detects the self-operating state and carries out operating instruction.Positional information coding according to showing the flying bird target that control instrument 5 sends carries out the rotation of the orientation and the angle of pitch.Drive after control instruction executes, abandon other instructions in the storehouse, finish operation and also return to free state.

As can be seen from the above description, the utility model has been realized following technique effect:

Relevant issues at present technology, the portable airport bird feelings that the utility model provides are surveyed and directed scarer, solve airport bird scaring equipment and mainly adopted infrared and radar equipment, cause the round-the-clock use prevailing price of airport bird scaring equipment higher, and it is low also to face detecting devices resolution and frame frequency, the problem that is difficult to identification bird kind and is difficult to realize driving at a distance bird, thus the kind of bird can be discerned, and then reach the effect of effectively driving bird at a distance.

Be preferred embodiment of the present utility model only below, be not limited to the utility model, for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. portable airport bird feelings are surveyed and directed scarer, it is characterized in that, comprising:

Optical detection instrument (1) is used to survey the flying bird target, thereby obtains the spatial positional information of flying bird target image and described optical detection instrument (1);

Signal processing equipment (4) is used to receive described flying bird target image and described spatial positional information, and described flying bird target image and described spatial positional information are handled, to obtain the positional information coding;

Display monitoring instrument (5) is used for sending the control instruction of driveing at described flying bird target according to described positional information coding, shows described flying bird target image and described spatial positional information simultaneously;

Strong acoustic emission instrument (3) is used to carry out the control instruction of driveing at described flying bird target, drives the bird audio signal after amplifying with output;

Supply unit (6) is used for described signal processing equipment (4), described display monitoring instrument (5) and described strong acoustic emission instrument (3) power supply;

Mobile platform (2) is used to load described optical detection instrument (1), described signal processing equipment (4), described display monitoring instrument (5), described strong acoustic emission instrument (3) and described supply unit (6).

2. portable airport according to claim 1 bird feelings are surveyed and directed scarer, it is characterized in that described optical detection instrument (1) comprising:

Laser instrument (11) is used to produce first laser;

Set of lenses (12) is used to receive described first laser, and is second laser with described first laser shaping;

Near infrared camera (13) is used for by the described flying bird target of described second laser lighting, thereby obtains described flying bird target image;

GPS (14) is used to obtain the spatial positional information of described optical detection instrument (1);

Electronic compass (15) is used to obtain the directional information of described second laser;

Mechanical scanner (16) is used to install described laser instrument (11), described set of lenses (12), described near infrared camera (13), described GPS (14) and described electronic compass (15).

3. portable airport according to claim 2 bird feelings are surveyed and directed scarer, it is characterized in that described first optical maser wavelength is 1.5 μ m-1.6 μ m.

4. portable airport according to claim 2 bird feelings are surveyed and directed scarer, it is characterized in that described set of lenses (12) comprising:

Concavees lens group (121) becomes described first laser into diverging light;

Convex lens (122) become described diverging light into directional light;

Optical module (123) becomes described directional light into diffused light, and described diffused light is as described second laser.

5. portable airport according to claim 2 bird feelings are surveyed and directed scarer, it is characterized in that described signal processing equipment (4) comprising:

Image acquisition device (41) is used to gather the described flying bird target image that described optical detection instrument (1) sends;

Signal processing unit (42) is connected with described image acquisition device (41), is used to receive described flying bird target image,

And determine the kind of described flying bird target according to described flying bird target image, and be connected with electronic compass (15) with GPS (14) in the described optical detection instrument (1), to obtain described spatial positional information;

Encoder (43) is connected with described signal processing unit (42), is used for receiving and the described spatial positional information of encoding, and generates described positional information coding.

6. portable airport according to claim 5 bird feelings are surveyed and directed scarer, it is characterized in that display monitoring instrument (5) comprising:

Video display (51) is used for receiving and showing described flying bird target image and described spatial positional information;

Central controller (52) is used to receive the described positional information coding that described encoder (43) sends, and sends the described control instruction of driveing at described flying bird target according to described positional information coding to described strong acoustic emission instrument (3).

7. portable airport according to claim 1 bird feelings are surveyed and directed scarer, it is characterized in that, described strong sound is sent out

Penetrating instrument (3) comprising:

Directed strong acoustic emission array (31) comprising:

Source of sound supply circuit module (311) produces one or more bird audio signals of driving;

Audio frequency processing circuit module (312) is carried out the signal processing to the described bird audio signal of driving, to obtain the sound of numeral modulation

Frequency data stream;

Power Processing circuit module (313) is done to amplify and the filtering processing to the audio data stream of described numeral modulation, and converts to and drive the bird audio signal after the amplification;

Loudspeaker array (314) is used to export and drives the bird audio signal after the described amplification;

Load-carrying The Cloud Terrace (32) is used for driveing the azimuth and the angle of pitch that control instruction is adjusted described strong acoustic emission instrument (3) according to described.

8. portable airport according to claim 7 bird feelings are surveyed and directed scarer, it is characterized in that, the described control instruction of driveing comprises azimuth and angle of pitch instruction and audio signal instruction.

9. portable airport according to claim 8 bird feelings are surveyed and directed scarer, it is characterized in that,

Described load-carrying The Cloud Terrace (32) instructs the azimuth and the angle of pitch of adjusting described strong acoustic emission instrument (3) according to described azimuth and the angle of pitch;

The strong acoustic emission array of described orientation (31) instructs to export according to described audio signal and drives the bird audio signal after the described amplification.

10. portable airport according to claim 9 bird feelings are surveyed and directed scarer, it is characterized in that, the bird audio signal acoustic wave beam angle of driving after the described amplification of the strong acoustic emission array of described orientation (31) output is ± 15 °, and sound pressure level is 160dB.

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