CN107291124A - Electronic invisible method and device - Google Patents

Abstract

The invention discloses electronic invisible method and apparatus, to solve shade that existing optic camouflage is present, the problem of edge is visible, stealth material can be realized completely stealthy.The inventive method comprises the following steps：Treat that the photosensitive site on stealth material top layer receives and detects incident ray.In the visual side for treating stealth material, luminescent material is set.Incident ray extended line and the intersection point on luminescent material top layer are calculated, luminescence sites are used as.Luminescence sites are launched and incident ray is equidirectional, same frequency, the light of co-wavelength.Invention also provides the concealed device for implementing the invisible method.

Description

Electronic invisible method and device

Technical field

The present invention relates to stealth technology field, and in particular to electronic invisible method and device.

Background technology

In stealth technology field, current existing stealth technology is carried out using the method for optical treatment, such as to light Line is reflected, reflected or absorbed the light of specific wavelength to reach the degree of decrease human eye or machine-observable, so as to reach To a certain extent stealthy, it is similar with the light principle for absorbing specific wavelength to reduce reflection, is reflected by the light for absorbing specific wavelength It is not easy to cause the light of human eye vision to reach stealthy purpose.

Under the technology of this light processing, stealthy effect is unsatisfactory, and being embodied in shade can still discover, It is simply a certain degree of dimmed, to be found in visible-range absorb various wavelength lights material it is also relatively difficult at present； Refractive technique, be by refractor around light reach the purpose of hidden substance, it is existing related public according to media report Department develops ' Quantum Teleportation ' material and has reached stealthy effect, but the edge of stealth material is still high-visible, rolls in addition Penetrating the oneself factor of principle causes by hidden substance and the lower a certain degree of distortion of generation of surrounding environment contrast.

Therefore carried out using the method for optical treatment stealthy with certain limitation, it is impossible to avoid shadow problem and hidden Body edge of materials is visible, therefore can not realize preferable stealth effect.

The content of the invention

It is an object of the invention to provide electronic invisible method and apparatus, to solve the moon that existing optic camouflage is present The problem of shadow, visible edge, stealth material can be realized completely stealthy.

To achieve the above object, the inventive method comprises the following steps：

A kind of electronic invisible method, including：

Treat that the photosensitive site on stealth material top layer receives and detects incident ray.

In the visual side for treating stealth material, luminescent material is set.

Incident ray extended line and the intersection point on luminescent material top layer are calculated, luminescence sites are used as.

Luminescence sites are launched and incident ray is equidirectional, same frequency, the light of co-wavelength.

Further, luminescence sites are used for the light for sending the hemispherical any direction that aperture is 180 degree.

The present invention proposes a kind of electronic invisible device for above-mentioned electronic invisible method, including：

Photosensitive site, the minimum structural unit on stealth material top layer is treated for composition, for absorbing the incidence from all directions Light.

Sensor, is arranged on photosensitive site, for detect the direction of the incident ray that photosensitive site absorbs, frequency and Wavelength information.

Processor, obtains direction, frequency and the wavelength information of incident ray at sensor；Processor is according to incident ray The corresponding luminescence sites of direction calculating, and control the equidirectional transmitting of corresponding luminescence sites and incident ray, same frequency, same to ripple Long light.

Luminescence sites, for the minimum structural unit on composition luminescent material top layer, for launch under the control of a processor with Incident ray is equidirectional, the light of same frequency, co-wavelength.

Further, treat that stealth material and luminescent material are coated in the both sides of approximately the same plane, i.e., photosensitive site is with lighting Site is located at the both sides of approximately the same plane, and photosensitive site is spaced with luminescence sites, and fineness is less than or equal to rod cell Fineness.

Further, stealth material and luminescent material composition double-decker are treated, treats stealth material as outer layer, luminescent material As internal layer, i.e., photosensitive site is located at outer layer, and luminescence sites are located at internal layer.

Further, photosensitive site and luminescence sites actively send own coordinate to processor.

Further, microprocessor sends spherical wave, using the intersection point in spherical wave and photosensitive site as photosensitive site seat Mark, using spherical wave and the intersection point of luminescence sites as luminescence sites coordinate.

Further, luminescence sites are used for the light for sending the hemispherical any direction that aperture is 180 degree.

Further, it is square to treat stealth material, with two top layers up and down, and the photosensitive site A on upper epidermis absorbs Incident ray is carried out outgoing by incident ray, the photosensitive site B of layer.

The inventive method has the following advantages that：By the method for electronic invisible, the light for being incident on and treating on stealth material is absorbed Line, the intersection point of incidence point incident ray extended line and offside luminescent material is calculated via processor, launches same by the luminescence sites The light of sample frequency wavelength, realizes that light bypasses object and continues to propagate, so as to realize stealthy.This method can realize dynamic, not Tongfang Position it is stealthy, can eliminate refractive band contrasts lower bird caging with surrounding environment, eliminates edge effect, hiding irregular Object, it is not necessary to which searching can absorb the material of various wavelength, eliminates reflection shade.

Brief description of the drawings

Fig. 1 is the flow chart of the method proposed in the embodiment of the present invention 1；

Fig. 2 is the structure chart of the concealed device proposed in the embodiment of the present invention 2；

Fig. 3 is the light path principle figure of the concealed device proposed in the embodiment of the present invention 2；

Fig. 4 is the first position relationship schematic diagram of photosensitive site and luminescence sites in the embodiment of the present invention 3；

Fig. 5 is second of position relationship schematic diagram of photosensitive site and luminescence sites in the embodiment of the present invention 3；

Fig. 6 treats stealth material structure chart for the square bodily form in the embodiment of the present invention 4；

Fig. 7 is two same objects through irregular stealth material of observation site observation in the embodiment of the present invention 4 Situation.

Embodiment

Following examples are used to illustrate the present invention, but are not limited to the scope of the present invention.

Embodiment 1

A kind of electronic invisible method, idiographic flow is as shown in figure 1, comprise the following steps：

S101, the photosensitive site treated on stealth material top layer receive and detect incident ray.

S102, treating stealth material visual side set luminescent material.

S103, calculating incident ray extended line and luminescent material top layer intersection point, are used as luminescence sites.

S104, luminescence sites transmitting and incident ray is equidirectional, same frequency, the light of co-wavelength.

Luminescence sites are used for the light for sending the hemispherical any direction that aperture is 180 degree in the present embodiment.

The present embodiment 1 absorbs the light for being incident on and treating on stealth material, via processor meter by the method for electronic invisible The intersection point of exit point incident ray extended line and offside luminescent material is counted, the light of same frequency wavelength is launched by the luminescence sites, Realize that light bypasses object and continues to propagate, so as to realize stealthy.

Embodiment 2

The present embodiment proposes a kind of electronic invisible device, structure for the electronic invisible method that above-described embodiment 1 is provided As shown in Fig. 2 including：

Photosensitive site, the minimum structural unit on stealth material top layer is treated for composition, for absorbing the incidence from all directions Light.

Sensor, is arranged on photosensitive site, for detect the direction of the incident ray that photosensitive site absorbs, frequency and Wavelength information.

Processor, obtains direction, frequency and the wavelength information of incident ray at sensor；Processor is according to incident ray The corresponding luminescence sites of direction calculating, and control the equidirectional transmitting of corresponding luminescence sites and incident ray, same frequency, same to ripple Long light.

Luminescence sites, for the minimum structural unit on composition luminescent material top layer, for launch under the control of a processor with Incident ray is equidirectional, the light of same frequency, co-wavelength.

The specific index path of the device is as shown in Figure 3.

In the present embodiment, photosensitive site and luminescence sites actively send own coordinate to processor.

In the present embodiment, microprocessor sends spherical wave, regard the intersection point in spherical wave and photosensitive site as photosensitive site Coordinate, using spherical wave and the intersection point of luminescence sites as luminescence sites coordinate.

In the present embodiment, luminescence sites are used for the light for sending the hemispherical any direction that aperture is 180 degree.

Embodiment 3

The device provided for above-described embodiment 2, the present embodiment is further to wherein photosensitive site and the position of luminescence sites The relation of putting is described in detail.

The position relationship of photosensitive site and luminescence sites can be as shown in Figure 4：Treat that stealth material and luminescent material are coated in The both sides of approximately the same plane, i.e., photosensitive site is located at the both sides of approximately the same plane, photosensitive site and luminescence sites with luminescence sites It is spaced, fineness is less than or equal to the fineness of rod cell.

The position relationship of photosensitive site and luminescence sites can also be as shown in Figure 5：Treat stealth material and luminescent material composition Double-decker, treat stealth material as outer layer, luminescent material as internal layer, i.e., photosensitive site is located at outer layer, and luminescence sites are located at Internal layer.The structure have it is light tight from outside to inside, the attribute of printing opacity, so can suitably expand photosensitive, luminescence sites from inside to outside Size.

Embodiment 4

The device provided for above-described embodiment 1, the present embodiment provides another possibility：It is pros to treat stealth material Body, with two top layers up and down, the photosensitive site A on upper epidermis absorbs incident ray, and the photosensitive site B of layer is by incident light Line carries out outgoing.

Here photosensitive layer is replaced with square, realization here is, two layers above and below photosensitive layer point, upper strata record once enters Light is penetrated, and in order to differentiate for the second time easily, it is necessary to which noise is added, B points are recorded as second of incidence point, are connect down To pass through the quantitative relations such as the rectangular space coordinate having built up and material thickness, AB space line equations are set up, and filter out Suitable outgoing site.

As shown in fig. 6, the light of a branch of any direction incides photosensitive site A, once light is recorded by sensor measurement Line, for more preferably accurate differentiation light, it is necessary to which appropriate increases noise for light, facilitates the photosensitive site B of the second layer accurate Differentiation incident ray, A, B is in the space coordinates that microprocessor is set up, so their coordinate is real-time and known, Photosensitive layer thickness h is, it is known that so being easy to draw θ angles tan θ=h/ (x_A-x_B), also it is easy to draw that AB space line is public Formula (x-x_A)(x-x_B)=(y-y_A)(y-y_B)=(z-z_A)/(z-z_B), the coordinate set in outgoing site is, it is known that and then pass through processing The traversal of device can be easy to select the specific coordinate in outgoing site.

Given based on this possible Fig. 7 and observe the same thing through irregular stealth material by two observation sites The situation of body：Dotted line is simulation light-path, and upside lateral arrows are object.It can be seen that two sites of C, D can be seen The body form of stealth material is substantially irregular in the object being hidden, real life, passes through this side of electronic invisible Formula can easily hide irregular object very much.

Although above with general explanation and specific embodiment, the present invention is described in detail, at this On the basis of invention, it can be made some modifications or improvements, this will be apparent to those skilled in the art.Therefore, These modifications or improvements, belong to the scope of protection of present invention without departing from theon the basis of the spirit of the present invention.

Claims (9)

1. a kind of electronic invisible method, it is characterised in that including：

Treat that the photosensitive site on stealth material top layer receives and detects incident ray；

In the visual side for treating stealth material, luminescent material is set；

The intersection point of the incident ray extended line and the luminescent material top layer is calculated, luminescence sites are used as；

Luminescence sites transmitting and the incident ray are equidirectional, same frequency, the light of co-wavelength.

2. invisible method as claimed in claim 1, it is characterised in that it is 180 degree that the luminescence sites, which are used to send aperture, The light of hemispherical any direction.

3. a kind of electronic invisible device, it is characterised in that including：

Photosensitive site, the minimum structural unit on stealth material top layer is treated for composition, for absorbing the incident ray from all directions；

Sensor, is arranged on the photosensitive site, direction, frequency for detecting the incident ray that the photosensitive site absorbs And wavelength information；

Processor, obtains direction, frequency and the wavelength information of incident ray at the sensor；The processor is according to described The corresponding luminescence sites of direction calculating of incident ray, and control the corresponding luminescence sites transmitting same with the incident ray Direction, same frequency, the light of co-wavelength；

Luminescence sites, for the minimum structural unit on composition luminescent material top layer, under the control of the processor transmitting with The incident ray is equidirectional, the light of same frequency, co-wavelength.

4. device as claimed in claim 3, it is characterised in that described to treat that stealth material and luminescent material are coated in same put down The both sides in face, i.e., photosensitive site is located at the both sides of approximately the same plane, photosensitive site and luminescence sites interval with the luminescence sites Arrangement, fineness is less than or equal to the fineness of rod cell.

5. device as claimed in claim 3, it is characterised in that described to treat stealth material and the double-deck knot of luminescent material composition Structure, it is described treat stealth material as outer layer, the luminescent material as internal layer, i.e., photosensitive site is located at outer layer, luminescence sites position In internal layer.

6. device as claimed in claim 3, it is characterised in that the photosensitive site and luminescence sites are actively to the processor Send own coordinate.

7. device as claimed in claim 3, it is characterised in that the microprocessor sends spherical wave, by spherical wave with it is photosensitive The intersection point in site as photosensitive site coordinate, using spherical wave and the intersection point of luminescence sites as luminescence sites coordinate.

8. device as claimed in claim 3, it is characterised in that the luminescence sites are used to send the hemisphere that aperture is 180 degree The light of shape any direction.

9. device as claimed in claim 3, it is characterised in that described to treat that stealth material is square, with two tables up and down Photosensitive site A on layer, upper epidermis absorbs incident ray, and the incident ray is carried out outgoing by the photosensitive site B of layer.