CN207730323U - A kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum - Google Patents
A kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum Download PDFInfo
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Abstract
The utility model discloses a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum, is related to remote sensing technology field, including camera section, support portion and rotation section;The camera section includes RGB camera, line imaging EO-1 hyperion camera and microprocessor;The RGB camera and line imaging spectrum camera are connect with microprocessor respectively;Microprocessor is connect with rotation section, and the microprocessor is used to control RGB camera to the acquisition of image, line imaging EO-1 hyperion camera to the movement of the acquisition of image, turntable, to the real-time processing analysis of image and data;The central shaft line of the RGB camera camera lens of the RGB camera and the spectrum camera camera lens of line imaging EO-1 hyperion camera is parallel or vertical with horizontal plane;The support portion is for being supported and fixing to camera section;The rotation section is for driving entire camera section while rotating.
Description
Technical field
The utility model is related to remote sensing technology field more particularly to a kind of vehicle-mounted 360 degree of panorama targets knowledges based on spectrum
Other system.
Background technology
The development of remote sensing technology experienced panchromatic (black and white), colored (RGB), after multispectral scanner imaging session, by
In the imaging spectral technology that the phase at the beginning of the eighties in last century occurs, optical remote sensing is promoted to enter a brand-new stage --- bloom
Compose the remote sensing stage.So-called EO-1 hyperion refers to the remote sensing science with high spectral resolution and technology, imaging spectral technology institute
The imaging spectrometer used can be in the ultraviolet of electromagnetic spectrum, visible light, near-infrared and short-wave infrared region, and acquisition is many very
The continuous image data of narrow and spectrum.Imaging spectrometer provides the spectrum letter of tens of to hundreds of narrow-bands for each pixel
Breath constitutes a complete and continuous curve of spectrum therefrom.The various atural objects that imaging spectrometer will be observed in field range
It is recorded with the complete curve of spectrum, and analyzing processing is carried out to recorded data and studies multidisciplinary to be carried out
Work.
The cross discipline emerging as one is related on the basis of primarily resting on the technologies such as sensor, computer
EM theory, spectroscopy and colorimetry, physics/geometric optics, electronic engineering, informatics, geography, agronomy, atmospheric science,
The multi-door subject such as oceanography.And EM theory is then the physical basis of remote sensing technology, the phase interaction of electromagnetic wave and terrestrial materials
With mode in different medium of mechanism, electromagnetic wave and to be received, analyzed to it be comprehensive each door subject and technology
Where core.For the different spectral signatures of different atural objects, atural object can be efficiently differentiated and identified using high spectrum image, be one
The typical untouchable non-destructive testing technology of kind, can obtain the spatially and spectrally information of target, according to " referring to for unlike material simultaneously
Line " spectral signature can realize the work such as the identification of the detection to target.Thus be widely used in Atmospheric Survey, medical diagnosis,
In material classification and target identification, land resources, ecology, environmental monitoring and urban remote sensing, due to the particularity and technology of industry
Using the limitation of means, its remote sensing number is obtained by modes such as satellite remote sensing, Fixed Wing AirVehicle, rotor wing unmanned aerial vehicles mostly
According to.
Currently, there are two types of common target identification systems.One is sweeping type imaging spectral camera system to pushing away, such as Fig. 1 and
Shown in Fig. 2, the system include imaging lens 19, high imaging spectrometer 20, planar array detector 21, two-dimension translational sweep mechanism 22 with
And package casing (package casing is not drawn into), by high imaging spectrometer and planar array detector be fixed on two-dimension translational sweep mechanism it
On, imaging lens are fixed on package casing, and high imaging spectrometer and planar array detector are combined, and with imaging lens with
Separate.In imaging process, two-dimension translational mechanism can drive the one-dimensional sky of high imaging spectrometer and planar array detector wherein
Between it is upper move (in moving sweep dimension), push away the type imaging pattern of sweeping and be also all merely able to that a line on target object is presented every time,
The splicing of image is completed by the relative motion of object or imaging mechanism.So the slit of high imaging spectrometer can with it is poly-
The minute surface keeping parallelism of zoom lens, imaging lens can with driven in translation mechanism under the optical spectrum imagers and planar array detector that move
There are an opposite movement, this process namely to push away the process for sweeping type high light spectrum image-forming.The high imaging spectrometer energy of the system
The consecutive image of wave bands up to a hundred is accessed, and each image picture elements can extract a curve of spectrum.Traditional two dimension at
As technology and spectral technique combine, while obtaining measured object spatial information with imaging system, pass through light
Spectrometer system radiates the RADIATION DECOMPOSITION of measured object at the spectrum of different wave length, and it is several to obtain each pixel in a spectrum range
Ten or even hundreds of continuous narrow-band information.Its wave band is not discrete and is continuous, therefore can be from its each picture
Member can extract a smooth and complete curve of spectrum.And each pixel includes the spectrum letter of target object simultaneously
Breath and radiation information.Therefore, the advantage of the system is:The very high-resolution spectral information of target can be obtained, to target
There is very big help on discrimination precision, and spectral region is also wider, from visible light to short-wave infrared, medium-wave infrared all may be used
To apply (350nm~4000nm).Scanning shift mechanism has very high precision to ensure image quality.And the disadvantage of the system
For:Since push-scanning image needs the mobile of sweep mechanism that could realize that the stroke of scanning is also very limited, and spatial resolution is low,
Because the pixel of planar array detector used in current push-scanning image is 1936x1456 (Spatial Dimension x spectral Dimensions), now
There are many camera pixels that can reach 2048x2048, it is even higher, but pixel improves, and the technology needed requires also very
It is high;Also, allow to realize that the structure of 360 ° of rotations assists it to be implemented as picture, data volume is also very big, 360 degree rotation
Scanning, that is, it is mutually confidential to each row information carry out storage and calculation processing, according to data line amount size be 380KB
(969x256, Spatial Dimension x spectral Dimensions), 360 degree of one week data volumes of scanning are:380Kbx10000=(3800000Kb/
1024) M=3800M=3.8G, it can be seen that will be reduced in terms of handling timeliness.
Another kind is LCTF type multi-spectral imagers, as shown in figure 5, it includes camera lens object lens 26, LCTF31, LCTF control
Device 27 processed, relay light path 28, CCD camera 29, CCD camera 29 and LCTF controllers 27 are connect with computer 30;As shown in figure 5,
Its principle is:Multiband spectrum tuning is completed by LCTF, is on the one hand because LCTF is in very wide spectral region using LCTF
There is very high transmitance, is on the other hand because it has very high photoelectric action coefficient.LCTF is that the interference based on polarised light is former
It manages and is made, be a kind of Lyot types tunable birefringent filter part, formed by multi-stage cascade of being permitted arranged in parallel successively, it is each
Grade is comprising there are two the polarizing film being mutually parallel, sandwich liquid crystal retardation pieces.When light source is by wherein primary unit, due to
The two-beam direction of vibration that fast, slow axis is propagated along liquid crystal is identical, and position difference is certain, therefore interferes effect.Light source is sent out
Light be radiated at and be taken in target, a part of light reflection is utilized the recordable lower target of multi-spectral imager by target surface
Single wavelength two dimensional image penetrates wavelength by adjusting LCTF, a series of monochrome image of different wave lengths can be obtained, by these lists
Color two dimensional image is rearranged three-dimensional multispectral image cube by wavelength order.There are two types of connection types for this system, divide
It is not:As shown in figure 3, LCTF, camera lens and planar array detector are sequentially connected;As shown in Fig. 4, camera lens, LCTF and planar array detector
It is sequentially connected;The shortcomings that first method is:Since LCTF has certain thickness, when the clear aperture of camera lens is more than the aperture of LCTF
Shi Huiyou optical energy loss simultaneously generates vignetting, and the weight of LCTF can also influence the design of imaging system, to ensure that light path is coaxial, needs
Supporting mechanism is added to LCTF.The shortcomings that second way is:Since the camera lens of commercialization is connected directly according to camera
Situation design, after addition has certain thickness LCTF between camera lens and camera, image can be made to generate distortion, aberration etc., and
The scale value of the magnifying power of change system, camera lens will be no longer accurate etc..Also, LCTF type multi-spectral imagers are although spectrally resolved
Rate is higher, but image resolution ratio is poor.
Utility model content
Purpose of utility model:Spatial resolution and spectral resolution to solve existing target identification system can not be simultaneous
It cares for, the limited problem of coverage, the utility model provides a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum.
The technical solution of the utility model is as follows:
A kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum, including camera section, support portion and rotation section;Institute
It includes RGB camera, line imaging EO-1 hyperion camera and microprocessor to state camera section;The RGB camera and line imaging spectrum camera point
It is not connect with microprocessor;Microprocessor is connect with rotation section, and the microprocessor adopts image for controlling RGB camera
Collection, movement of the line imaging EO-1 hyperion camera to the acquisition of image, turntable, the analysis of the real-time processing to image and data;
The central shaft line of the RGB camera camera lens of the RGB camera and the spectrum camera camera lens of line imaging EO-1 hyperion camera
It is parallel or vertical with horizontal plane;
The support portion is for being supported and fixing to camera section;
The rotation section is for driving entire camera section while rotating.
Further, the camera section further includes shell one.
Further, the line imaging EO-1 hyperion camera includes sequentially connected spectrum camera camera lens, line imaging EO-1 hyperion
Instrument and CCD area array cameras.
Specifically, the support portion is support plate.
Specifically, the rotation section is connect with support plate, and the rotation section includes shell two, motor and is used for motor
Shaft rotation turn is changed to the rotary connecting device that support plate is rotated around central axis.
Specifically, the system also includes steady holder is increased, increase and be equipped with fixing component, camera section, support portion above steady holder
With rotary part above fixing component.
After adopting the above scheme, the beneficial effects of the utility model are as follows:
(1) system of the utility model by RGB camera to target aerial image information it is real-time acquisition and line EO-1 hyperion
Real-time acquisition of the camera to the spectral information of the row target of the specific region in RGB camera shooting area, this completes classes
Like the hyperspectral datacube acquisition of information under push-broom pattern, RGB camera is mainly used for the acquisition of image pixel, without
It is the area array cameras in scheme one, therefore, spatial resolution can improve very much;Meanwhile by 360 ° of rotations of rotating part, logical
The spectral information of the synchronous acquisition image and specific objective row of RGB camera and line EO-1 hyperion camera is crossed, and then to institute's captured in real-time
Target in region completes the functions such as Classification and Identification, early warning and display, and spatial resolution and spectral resolution are all higher.It is existing
Technical solution one in, when due to push-scanning image, need by sweep mechanism it is mobile just can ensure that imaging EO-1 hyperion camera obtain
The mode of hyperspectral datacube is got, and this structure no longer needs to store a large amount of data in real time, light in system architecture
The pixel for the planar array detector that spectrum camera uses is very high, and the RGB camera pixel described with it can be consistent, but the two
Use when it is completely different, spectrum camera detector obtain data mode be face battle array in linear array use (that is its
The pixel of planar array detector is 2048x2048, and the row information obtained is exactly the pixel quantity (number of 2048x2048=420W
It is 16Bit according to type), all it is the accumulation of 420W amount of pixel data in this way during it is constantly acquired.And RGB camera exists
All it is a face battle array structural information in whole process, pixel size can be used if it is 2048x2048=4M, data bits
8Bit), when such whole system is acquired, spectrum camera only shoots the information of a line, about 1M, RGB camera 4M, rotation
If 360 degree, size of data is also with regard to 100~300M, and no longer image height spectral cube structure is such, 1G-3G.
In whole process, only assign the image of RGB camera shooting as a video flowing, is only display, monitoring etc., also may be used
To be preserved, be stored.That is:Line spectrum camera+RGB camera has been lacked non-compared with the push-scanning image in scheme one
Often more spectral informations and spatial information storage.And in the embodiment of the utility model, it is not necessary that entire cube metadata is all carried out
It preserves.
(2) design and effect of the steady holder of increasing makes the systems such as its entire spectra collection and processing, rotation be in one kind very
Stablize and stable state, reduction shaken caused by unstable movement of carrying platform etc., can ensure RGB camera and at
The problems such as missing inspection is not present in the target of image height spectrum camera shooting, meanwhile, the runnability of system is additionally provided, can adapt to
Use under complex environment.When this system uses this system under automobile scenarios, the carrying that support discord increases steady holder composition is flat
Platform can be advanced with arbitrary movement speed, and on this identifying system without influence, the two is completely independent, and thereby realizes shifting
The purpose that target identification under dynamic state differentiates.
(3) all images shot by RGB camera and line spectrum camera and spectral information store in real time in this system, real
When storage line spectrum camera acquire optical information be converted to electric signal in real time, the optical information that RGB camera acquires in real time also turns
It is melted into electric signal, two kinds of real-time microprocessors that are transmitted to of electric signal are converted to the data information format finally needed.
Even if carrying platform uses under various complex environments, two camera that there is deformation in when obtained image, but designed in system
It synchronizes and works, so each group of data can remain behind, data splicing and the figure in later stage can be carried out in this way
As analyzing processing works, a kind of again more to special applications functions of technological reserve.
Description of the drawings
Fig. 1 is the side structure schematic diagram of push-scanning image spectrum camera in the utility model background technology;
Fig. 2 is the dimensional structure diagram of push-scanning image spectrum camera in the utility model background technology;
Fig. 3 is the structural schematic diagram of LCTF type multi-spectral imagers in the utility model background technology;
Fig. 4 is another structural schematic diagram for having LCTF type multi-spectral imagers in the utility model background technology;
Fig. 5 is the schematic diagram of LCTF type multi-spectral imagers in the utility model background technology;
Fig. 6 is the internal structure schematic diagram of the camera section of the utility model;
Fig. 7 is another internal structure schematic diagram of the camera section of the utility model;
Fig. 8 is the another internal structure schematic diagram of the camera section of the utility model;
Fig. 9 is the external structure schematic diagram of the camera section of the utility model;
Figure 10 is the external structure schematic diagram that the utility model removes camera section;
Figure 11 is the internal structure schematic diagram that the utility model removes camera section;
Figure 12 is the overall structure diagram of the utility model;
Figure 13 is image frame when the utility model is shot;
It is marked in figure:1- camera sections, 2- support portions, the rotation sections 3-, 4-RGB cameras, 5- line imaging EO-1 hyperion cameras, 6- are micro-
Processor, 7-RGB camera lenses, 8- spectrum camera camera lenses, 9- shells one, 10- line imaging spectrometers, 11-CCD area array cameras, outside 12-
Shell two, 13- motors, 14- increase steady holder, 15- fixing components, 16- plugs, 17- system power switch, 18- rotation connection dresses
It sets, the 19- systems include imaging lens, 20- high imaging spectrometers, 21- planar array detectors, 22- two-dimension translational sweep mechanisms,
23- camera lenses, 24-LCTF, 25- planar array detectors, 26- object lens, 27-LCTF controllers, 28- relay light paths, 29-CCD cameras,
30- computers, 31-LCTF.
Specific implementation mode
The following will be combined with the drawings in the embodiments of the present invention, the technical solution in the present embodiment is carried out it is clear, complete
Site preparation describes, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than whole implementation
Example.Based on the embodiments of the present invention, those of ordinary skill in the art are obtained without making creative work
The every other embodiment obtained, shall fall within the protection scope of the present invention.
The system of the utility model combined by single RGB camera 4, line imaging EO-1 hyperion camera 5, turntable, stability augmentation platform and
At vehicle-mounted 360 degree of panorama target identification system structure designs based on spectrum.By RGB cameras 4 to target aerial image
The real-time spectral information obtained with line EO-1 hyperion camera to the row target of the specific region in 4 shooting area of RGB camera of information
Real-time acquisition, this completes the hyperspectral datacube acquisition of information under similar push-broom pattern.The spectrum of target line
Data in information and date library are matched in real time, and the spatial information that RGB camera 4 shoots image can determine in real time again
The information such as the position of environmental goals.
When due to push-scanning image, need just to can ensure that imaging EO-1 hyperion camera gets bloom by the mobile of sweep mechanism
The cubical mode of modal data, and this structure no longer needs to store a large amount of data in real time, need not also push away and sweep structure, but
By 360 ° of rotations of turntable, in the synchronous acquisition image and specific objective row by RGB camera 4 and line EO-1 hyperion camera
Spectral information, and then the functions such as Classification and Identification, early warning and display are completed to the target in institute's captured in real-time region.
Embodiment 1
As shown in Fig. 6-Figure 12, a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum, including camera section 1, branch
Support part 2 and rotation section 3;The camera section 1 includes shell 1, RGB camera 4, line imaging EO-1 hyperion camera 5 and microprocessor 6;
The RGB camera 4 and line imaging spectrum camera are connect with microprocessor 6 respectively;Microprocessor 6 is connect with rotation section 3, described
Microprocessor 6 is used to control RGB camera 4 to the acquisition of image, line imaging EO-1 hyperion camera 5 to the acquisition of image, turntable
The real-time processing of image and data is analyzed in movement;4 camera lens of RGB camera and line imaging EO-1 hyperion camera 5 of the RGB camera 4
Spectrum camera camera lens 8 central shaft line it is parallel or vertical with horizontal plane.System further includes increasing steady holder 14, increases steady holder 14
Top is equipped with fixing component 15, and camera section 1, support portion 2 and rotation section 3 are located at 15 top of fixing component.1 inside of camera section is also
Equipped with plug 16, shell 1 is equipped with system power switch 17, data line interface.
Specifically, after the structure determination of this system, microprocessor 6 is to the control of whole system with regard to only specific step
The implementation analyzing processing process of combination, specific image and data is existing processing scheme, is microprocessor 6 to this system
Control sequence is:
S1:Open the RGB camera 4 and line imaging EO-1 hyperion camera 5 in the camera section 1 of this system, control RGB cameras 4 with
And line imaging EO-1 hyperion camera 5 is acquired image;
S2:Control turntable rotates, and the speed of rotation can be set;
S3:The image collected and data to RGB camera 4 and line imaging EO-1 hyperion camera 5 carry out real-time analyzing processing.
It should be appreciated that the improved part of the utility model is actually hardware components rather than software section, microprocessor
In integrate mileage according to acquisition, equipment control software, using software (such as current Specsight softwares) control RGB camera 4,
The acquisition action of line spectrum camera and the spinning movement of turntable, meanwhile, the data information that software can be acquired carries out example
Such as Spectral matching (there are many ready-made algorithms) processing, realizes the actions such as analyzing processing, the judgement to gathered data, mainly
Flow is to match the data-signal acquired in real time with the data in standard database and all acted than equity.At present
Through having a variety of processing schemes.From the point of view of hardware aspect, the system of the utility model has taken into account higher image resolution ratio and light
Spectral resolution.Target can accurately be acquired.
RGB camera 4 is mainly the spatial information of camera system leading portion target, obtains the coloured image letter of different target in real time
Breath.In the present embodiment, the pixel of RGB camera 4 is up to 2048x2048, using USB3.0 as communication modes, chip size one
As consistent with EO-1 hyperion camera chip size (2/3 inch) the configuration short focus imaging lens of selection, it is big that guarantee shoots visual field
In the visual field of imaging spectral camera shooting, the image caused by the factors such as its camera lens and target surface size mismatch is reduced to the greatest extent at it
The problems such as side, angular zone distortion.
The line imaging EO-1 hyperion camera 5 includes sequentially connected spectrum camera camera lens 8, line imaging bloom spectrometer and CCD
Area array cameras 11.It is attached using screw connection between spectrum camera camera lens 8 and line imaging bloom spectrometer.Line EO-1 hyperion
Camera need to similarly use corresponding spectrum camera lens, and spectrum camera lens is specifically relatively close with the camera lens of RGB camera 4, visual field and RGB phases
4 coverage of machine is close, specifically, the camera lens of the spectrum camera camera lens 8 and RGB camera 4 of line imaging EO-1 hyperion camera 5 away from
From ranging from 4CM or so, after the reflected light information of photographed enters 5 camera lens of line imaging EO-1 hyperion camera, by line imaging height
After optical spectrum imagers internal structure is to the collimation of light, light splitting, collimation, is opened according to wave arrangement and be distributed in its corresponding spectrum
On the corresponding pixel of dimension.The front end of the entrance spectrometer slit of line imaging EO-1 hyperion camera 5 has entrance slit, and this line
The layout designs for being imaged the entrance spectrometer slit of EO-1 hyperion camera 5 need (to be located at rotation section with the rotation axis in overall structure
3, the rotation axis bosom friend drives the rotation of support plate) keeping parallelism, purpose is exactly the EO-1 hyperion camera under the going to of turntable
Also it rotating simultaneously, the spectral information of different angle target line can be obtained, detector still uses the detector of high frame rate,
Purpose is exactly to quickly be scanned and identify to target.
Microprocessor 6 (NUC mainboards), the acquisition for mainly controlling RGB camera 4, the acquisition for being imaged EO-1 hyperion camera, rotation
The real-time processing of the motion control of platform and image and data is analyzed.Need to control by software, make RGB camera 4 acquisition and
Synchronization is realized in the acquisition for being imaged EO-1 hyperion camera, while also to carry out target identification, early warning and display in image object, label
Equal work.All images shot by RGB camera 4 and line spectrum camera and spectral information store in real time, even if carrying platform
It is used under various complex environments, two camera that there is deformation in when obtained image, but is designed in system is synchronous to carry out work
Make, so each group of data can remain behind, data splicing and the image analysis processing work in later stage can be carried out in this way
Make, a kind of again more to special applications functions of technological reserve.
The support portion 2 is for being supported and fixing to camera section 1, and in the present embodiment, the support portion 2 is support
Disk, skilled person will appreciate that, it is convenient that entire camera section 1 is supported, support plate, uncovered groove or support may be used
The structures such as block are supported camera section 1, and the utility model uses support plate, first, for convenience to the shell 1 of camera section 1
It is installed or removed, second is that being cleaned for convenience to camera section 1 and support portion 2, it is not easy to collect ash in gap.
The rotation section 3 is for driving entire camera section 1 while rotating, specifically, the rotation section 3 and support plate
Connection, in the utility model, support plate is equipped with aperture, and aperture is used to support the connection between disk and rotation section 3, described turn
Dynamic portion 3 is including shell 2 12, motor 13 and for 13 shaft rotation turn of motor to be changed to what support plate was rotated around central axis
Rotary connecting device, for support plate in rotation, around central axis, the concrete structure of rotary connecting device is this in fact for itself
The prior art in field is briefly described here:Worn in aperture in support plate and be connected to the small axis of connection, connect small axis with it is vertical
The top of rotation axis connects, and 13 axis of motor is connect with lateral rotation axis by gear as lateral rotation axis, vertical rotation axis, has
Body, it is connected with passive bevel gear by driving bevel gear.Vertical rotation axis drives the fast of its 360 degree of progress by motor 13
Speed rotation, it is side-by-side when due to RGB camera 4 and the layout designs of imaging EO-1 hyperion camera, so needing to ensure rotation
Speed and RGB camera 4 and EO-1 hyperion camera to acquire the rate of image information be synchronous, synchronizing function can pass through processor
To be completed to the corresponding synchronic command of each structure transmission.
The design and effect for increasing steady holder 14 make the systems such as its entire spectra collection and processing, rotation be in one kind very
Stablize and stable state, reduction are shaken caused by unstable movement of vehicle-mounted carrying platform etc., can ensure RGB camera 4
The problems such as missing inspection is not present with the target of imaging EO-1 hyperion camera shooting, meanwhile, additionally provide the runnability of system, Neng Goushi
It should be in the use under complex environment.
The principle of this system is:It is composed of single RGB camera 4, line imaging EO-1 hyperion camera 5, turntable, stability augmentation platform
Vehicle-mounted 360 degree of panorama target identification systems based on spectrum.By by RGB camera 4 to target aerial image information
It obtains in real time and line EO-1 hyperion camera is to the real-time of the spectral information of the row target of the specific region in 4 shooting area of RGB camera
It obtains, this completes the hyperspectral datacube acquisition of information under similar push-broom pattern, as shown in figure 13, target line
Spectral information is matched in real time with the data in database, and the spatial information that RGB camera 4 shoots image can be in real time
Determine the information such as the position of environmental goals.Relationship is weighed to the information in specific target areas by two kinds of image and spectrum in this way
It is identified, and the steady structure of the increasing of system can ensure that entirely acquisition, control system are in metastable one always in real time
Kind state, no matter whether the state of carrying platform is steady, can be transferred through this structure and carries out real-time correcting process and then get
Metastable target image and spectral information.When using this system under automobile scenarios, carrying platform can be arbitrarily to move
Dynamic speed is advanced, and on this identifying system without influence, the two is completely independent, and the target thereby realized under mobile status is known
The purpose not differentiated.
Its shooting area width of the imaging lens that RGB camera 4 and line imaging spectrum camera are configured is consistent as possible.And
And the two also needs to keep synchronism, to the real time discriminating for detecting target, to improve the recognition accuracy of system.System is used
The steady holder of increasing 14 be to improve the stability of system.Turntable then ensure that system can carry out 360 ° of rotation, in turn
Obtain corresponding image and spectral information.Identification and differentiation result are shown in real time on the control display of system, and are marked
Note the position accordingly identified and target.
It is obvious to a person skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and
And without departing substantially from the spirit or essential attributes of the utility model, it can realize that this practicality is new in other specific forms
Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this practicality is new
The range of type is indicated by the appended claims rather than the foregoing description, it is intended that containing in the equivalent requirements of the claims will be fallen
All changes in justice and range are embraced therein.Any reference numeral in claim should not be considered as limitation
Involved claim.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiment being appreciated that.
Claims (6)
1. a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum, which is characterized in that including camera section (1), support portion
(2) and rotation section (3);The camera section (1) includes RGB camera (4), line imaging EO-1 hyperion camera (5) and microprocessor (6);
The RGB camera (4) and line imaging spectrum camera are connect with microprocessor (6) respectively;Microprocessor (6) connects with rotation section (3)
It connects, the microprocessor (6) is used to control RGB camera (4) to the acquisition of image, line imaging EO-1 hyperion camera (5) to image
The real-time processing of image and data is analyzed in acquisition, the movement of turntable;
In RGB camera (4) camera lens of the RGB camera (4) and the spectrum camera camera lens (8) of line imaging EO-1 hyperion camera (5)
Mandrel line is parallel or vertical with horizontal plane;
The support portion (2) is for being supported and fixing to camera section (1);
The rotation section (3) is for driving entire camera section (1) while rotating.
2. a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum according to claim 1, which is characterized in that
The camera section (1) further includes shell one (9).
3. a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum according to claim 1, which is characterized in that
The line imaging EO-1 hyperion camera (5) includes sequentially connected spectrum camera camera lens (8), line imaging bloom spectrometer and the faces CCD battle array
Camera (11).
4. a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum according to claim 1, which is characterized in that
The support portion (2) is support plate.
5. a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum according to claim 1, which is characterized in that
The rotation section (3) connect with support plate, and the rotation section (3) includes shell two (12), motor (13) and is used for motor
(13) shaft rotation turn is changed to the rotary connecting device (18) that support plate is rotated around central axis.
6. a kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum according to claim 1, which is characterized in that
The system also includes steady holder (14) is increased, increases and be equipped with fixing component (15), camera section (1), support portion above steady holder (14)
(2) it is located above fixing component (15) with rotation section (3).
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CN108332853A (en) * | 2018-01-12 | 2018-07-27 | 四川双利合谱科技有限公司 | A kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum |
CN110470613A (en) * | 2019-07-28 | 2019-11-19 | 浙江大学 | A kind of ranging Hyperspectral imager of looking in the distance that multimode detachably assembles |
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Cited By (2)
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CN108332853A (en) * | 2018-01-12 | 2018-07-27 | 四川双利合谱科技有限公司 | A kind of vehicle-mounted 360 degree of panorama target identification systems based on spectrum |
CN110470613A (en) * | 2019-07-28 | 2019-11-19 | 浙江大学 | A kind of ranging Hyperspectral imager of looking in the distance that multimode detachably assembles |
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