CN109212705A - Processing method, equipment and the device of screen reflecting - Google Patents
Processing method, equipment and the device of screen reflecting Download PDFInfo
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- CN109212705A CN109212705A CN201811341294.9A CN201811341294A CN109212705A CN 109212705 A CN109212705 A CN 109212705A CN 201811341294 A CN201811341294 A CN 201811341294A CN 109212705 A CN109212705 A CN 109212705A
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- reflective
- luminescence unit
- tabula rasa
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B7/00—Mountings, adjusting means, or light-tight connections, for optical elements
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09F—DISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
- G09F9/00—Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements
- G09F9/30—Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements
- G09F9/33—Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements being semiconductor devices, e.g. diodes
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- Optics & Photonics (AREA)
- Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
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- Illuminated Signs And Luminous Advertising (AREA)
Abstract
This application discloses a kind of processing method of screen reflecting, equipment and devices.This method comprises: obtaining the first vertical range between the luminescence unit and reflector in target screen;And first level distance and the second vertical range between the luminescence unit in acquisition target screen and the photographic device of shooting luminescence unit;According to the first vertical range, the second vertical range and first level distance, the second horizontal distance between the reflection point and luminescence unit on reflector is determined;According to the first vertical range and the second horizontal distance, the posture of the corresponding anti-reflective tabula rasa of adjustment luminescence unit makes anti-reflective tabula rasa block the target light of luminescence unit transmitting.By the application, solves in the related technology the problem of LED display will form inverted image on the ground with reflective material, causes the area for watching advertisement to see the inconsistent situation generation of the content of the content in LED screen and ground return, influences advertisement benefit.
Description
Technical field
This application involves illumination fields, in particular to the processing method, equipment and device of a kind of screen reflecting.
Background technique
Usual advertising media is mainly based on LED display.Existing LED display multicasting technology, which realizes, at present is being broadcast live
In match, using one piece of LED display, when live streaming to multiple countries and regions, for country variant and area, broadcast with
The corresponding ad content in its countries and regions.That is the content that a LED screen plays, when live streaming is to the area A, by LED screen
The content transformation of broadcasting is a content, and when live streaming is to the area B, the content transformation that LED screen is played is b content.
Although the content of LED display can control, display screen can be on the media such as floor, the mirror surface of in-situ match
There is picture reflex, this has resulted in the disunity for relaying picture, i.e., situation of " exposing the false ".Manufacturer's more options do not reflect
Region carry out dispensing advertisement, the spatial position of dispensing advertisement in this way is limited, and advertisement benefit is bad.
It will form inverted image on the ground with reflective material for LED display in the related technology, cause to watch wide
The area of announcement sees that the inconsistent situation of the content of content and ground return in LED screen occurs, and influences asking for advertisement benefit
Topic, currently no effective solution has been proposed.
Summary of the invention
The application provides the processing method, equipment and device of a kind of screen reflecting, to solve LED display in the related technology
It will form inverted image on the ground with reflective material, the area for watching advertisement caused to see the content in LED screen and ground
The problem of inconsistent situation of the content of face reflection occurs, influences advertisement benefit.
According to the one aspect of the application, a kind of processing method of screen reflecting is provided.This method comprises: described in obtaining
The first vertical range between luminescence unit and the reflector in target screen;And the hair in the acquisition target screen
First level distance and the second vertical range between light unit and the photographic device of the shooting luminescence unit;According to described
One vertical range, second vertical range and the first level distance, determine reflection point on the reflector with it is described
The second horizontal distance between luminescence unit, wherein the target light of the luminescence unit transmitting is via on the reflector
Reflection point reflexes to the photographic device;According to first vertical range and second horizontal distance, described shine is adjusted
The posture of the corresponding anti-reflective tabula rasa of unit makes the anti-reflective tabula rasa block the target light of the luminescence unit transmitting, wherein institute
Anti-reflective tabula rasa is stated to be set between the luminescence unit and the reflector of the target screen.
Optionally, according to first vertical range, second vertical range and the first level distance, institute is determined
State the second horizontal distance between the reflection point on reflector and the luminescence unit include: according to first vertical range,
Second vertical range and the first level distance, determine luminescence unit transmitting target light and vertical direction it
Between angle;According to the angle and first vertical range, between the reflection point and the luminescence unit is determined
Two horizontal distances.
Optionally, according to first vertical range, second vertical range and the first level distance, institute is determined
State the second horizontal distance between the reflection point on reflector and the luminescence unit include: according to first vertical range and
Target value is calculated in second vertical range, and determines the mesh between first vertical range and the target value
Mark ratio, wherein target value is the sum of first vertical range and second vertical range;According to the ratio and institute
First level distance is stated, determines the second horizontal distance between the reflection point and the luminescence unit, wherein second water
Ratio between flat distance and the first level distance is equal to the target ratio.
Optionally, according to first vertical range and second horizontal distance, it is corresponding to adjust the luminescence unit
The posture of anti-reflective tabula rasa, so that the anti-reflective tabula rasa is blocked the target light of the luminescence unit transmitting includes: according to described first
Vertical range and second horizontal distance, determine the propagation path of the target light of the luminescence unit;According to the target
The propagation path of light adjusts the posture of the corresponding anti-reflective tabula rasa of the luminescence unit, and the anti-reflective tabula rasa is made to block described shine
The target light of unit transmitting.
Optionally, the propagation path according to the target light adjusts the appearance of the corresponding anti-reflective tabula rasa of the luminescence unit
State, so that the anti-reflective tabula rasa is blocked the target light of the luminescence unit transmitting includes: that the adjustment luminescence unit is corresponding anti-
The posture of reflector makes the anti-reflective tabula rasa be located at the propagation path of the target light far from one end of the luminescence unit
On;Or, adjust the posture of the corresponding anti-reflective tabula rasa of the luminescence unit, make the anti-reflective tabula rasa far from the luminescence unit one
End is located at the propagation path of the target light far from the side of the luminescence unit.
Optionally, the propagation path according to the target light adjusts the appearance of the corresponding anti-reflective tabula rasa of the luminescence unit
State, so that the anti-reflective tabula rasa is blocked the target light of the luminescence unit transmitting includes: that the acquisition anti-reflective tabula rasa is corresponding pre-
If length and the default point of rotation, wherein the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;According to described pre-
If length and the default point of rotation determine the movable model that the anti-reflective tabula rasa is rotated using the default point of rotation as axle center
It encloses;According to the scope of activities of the anti-reflective tabula rasa and the propagation path of the target light, the effective of the anti-reflective tabula rasa is determined
Block range, wherein the range of effectively blocking is for characterizing the process that the anti-reflective tabula rasa rotates in the scope of activities
In, the activity interval of the target light can be blocked;The posture for adjusting the anti-reflective tabula rasa makes the anti-reflective tabula rasa be located at institute
It states and effectively blocks in range.
Optionally, the propagation path according to the target light adjusts the appearance of the corresponding anti-reflective tabula rasa of the luminescence unit
State, so that the anti-reflective tabula rasa is blocked the target light of the luminescence unit transmitting includes: the fixed point for obtaining the anti-reflective tabula rasa
Location information, wherein the anti-reflective tabula rasa carries out length adjustment by starting point of the fixed point on preset direction;Obtain clothes
The simulaed path of the simulation ray and the target light of the anti-reflective tabula rasa generated in business device, wherein the simulation ray
Extend using the fixed point of the anti-reflective tabula rasa as starting point along the preset direction, the simulaed path is with the luminescence unit
Point extends along the propagation path of the target light;After determining the intersection point of the simulation ray and the simulaed path, obtain
Take the starting point of the simulation ray to the first length of the intersection point;Based on first length, the anti-reflective tabula rasa is controlled
It is adjusted to target length, wherein the target length is more than or equal to first length.
According to the another aspect of the application, a kind of processing equipment of screen reflecting is provided.The equipment includes: screen cover
Cover, is covered on target screen, and is equipped with multiple through-holes corresponding with the luminescence unit of the target screen;Anti-reflective tabula rasa,
One end is set to below the through-hole of the screen mask, wherein the length and angle of the anti-reflective tabula rasa are according to above-mentioned any one
The processing method of the screen reflecting of item is adjusted.
Optionally, the feature of the anti-reflective tabula rasa includes at least one of: the anti-reflective tabula rasa and the screen mask
Turnable connection;The anti-reflective tabula rasa can in the length close to the screen mask and on the direction far from the screen mask
It adjusts;The anti-reflective tabula rasa is equipped with smooth corner far from one end of the screen mask;And the anti-reflective tabula rasa is by elasticity
Material composition.
According to the another aspect of the application, a kind of processing unit of screen reflecting is provided.The device includes: the first acquisition
Unit, for obtaining the first vertical range between luminescence unit and the reflector in the target screen;And second
Acquiring unit, for obtaining the between luminescence unit in the target screen and the photographic device of the shooting luminescence unit
One horizontal distance and the second vertical range;Determination unit, for according to first vertical range, second vertical range and
The first level distance determines the second horizontal distance between the reflection point and the luminescence unit on the reflector,
In, the target light of the luminescence unit transmitting reflexes to the photographic device via the reflection point on the reflector;Adjustment
Unit, for adjusting the corresponding anti-reflective light of the luminescence unit according to first vertical range and second horizontal distance
The posture of plate makes the anti-reflective tabula rasa block the target light of the luminescence unit transmitting, wherein the anti-reflective tabula rasa is set to
Between the luminescence unit and the reflector of the target screen.
To achieve the goals above, according to the another aspect of the application, a kind of storage medium, the storage medium are provided
Program including storage, wherein described program executes the processing method of screen reflecting described in above-mentioned any one.
To achieve the goals above, according to the another aspect of the application, a kind of processor is provided, the processor is used for
Run program, wherein described program executes the processing method of screen reflecting described in above-mentioned any one when running.
The processing method of screen reflecting provided by the embodiments of the present application, by obtaining the luminescence unit in the target screen
The first vertical range between the reflector;And it obtains the luminescence unit in the target screen and shoots described shine
First level distance and the second vertical range between the photographic device of unit;According to first vertical range, described second
Vertical range and the first level distance, determine the second water between the reflection point and the luminescence unit on the reflector
Flat distance, wherein the target light of the luminescence unit transmitting reflexes to the camera shooting via the reflection point on the reflector
Device;According to first vertical range and second horizontal distance, the corresponding anti-reflective tabula rasa of the luminescence unit is adjusted
Posture makes the anti-reflective tabula rasa block the target light of the luminescence unit transmitting, wherein the anti-reflective tabula rasa is set to described
Between the luminescence unit of target screen and the reflector, solve in the related technology LED display with reflective material
It will form inverted image on ground, the area for watching advertisement caused to see that the content of the content in LED screen and ground return is different
The case where cause, occurs, and then the problem of influence advertisement benefit.
That is, anti-reflective tabula rasa, and shining according to target screen is arranged by the lower section of the luminescence unit in target screen
Positional relationship between unit and photographic device adjusts the length and angle of anti-reflective tabula rasa, to enable anti-reflective tabula rasa block the hair
The target light of light unit transmitting, when avoiding photographic device shooting luminescence unit, luminescence unit is anti-in the image taken
It penetrates in reflector and generation the case where form inverted image.
Detailed description of the invention
The attached drawing constituted part of this application is used to provide further understanding of the present application, the schematic reality of the application
Example and its explanation are applied for explaining the application, is not constituted an undue limitation on the present application.In the accompanying drawings:
Fig. 1 is the flow chart according to the processing method of screen reflecting provided by the embodiments of the present application;
Fig. 2 is the schematic diagram that reflective phenomenon occurs on reflector according to display screen in the prior art;
Fig. 3 is that the side view one of a kind of optional target screen and anti-reflective tabula rasa is provided according to the embodiment of the present application;
Fig. 4 is that the side view two of a kind of optional target screen and anti-reflective tabula rasa is provided according to the embodiment of the present application;
Fig. 5 is that the side view three of a kind of optional target screen and anti-reflective tabula rasa is provided according to the embodiment of the present application;
Fig. 6 is the schematic diagram according to the processing equipment of screen reflecting provided by the embodiments of the present application;
Fig. 7 is that a kind of schematic diagram of optional anti-reflective tabula rasa is provided according to the embodiment of the present application;
Fig. 8 is that a kind of schematic diagram of optional target screen light emitting region is provided according to the embodiment of the present application;
Fig. 9 is the schematic diagram according to the processing unit of screen reflecting provided by the embodiments of the present application.
Wherein, the above drawings include the following reference numerals:
10, screen mask;20, anti-reflective tabula rasa;30, photographic device;40, reflector;50, target screen;11, through-hole;51,
Luminescence unit.
Specific embodiment
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.The application is described in detail below with reference to the accompanying drawings and in conjunction with the embodiments.
In order to make those skilled in the art more fully understand application scheme, below in conjunction in the embodiment of the present application
Attached drawing, the technical scheme in the embodiment of the application is clearly and completely described, it is clear that described embodiment is only
The embodiment of the application a part, instead of all the embodiments.Based on the embodiment in the application, ordinary skill people
Member's every other embodiment obtained without making creative work, all should belong to the model of the application protection
It encloses.
It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, "
Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way
Data be interchangeable under appropriate circumstances, so as to embodiments herein described herein.In addition, term " includes " and " tool
Have " and their any deformation, it is intended that cover it is non-exclusive include, for example, containing a series of steps or units
Process, method, system, product or equipment those of are not necessarily limited to be clearly listed step or unit, but may include without clear
Other step or units listing to Chu or intrinsic for these process, methods, product or equipment.
According to an embodiment of the present application, a kind of processing method of screen reflecting is provided.
Fig. 1 is the flow chart according to the processing method of the screen reflecting of the embodiment of the present application.As shown in Figure 1, this method packet
Include following steps:
Step S102 obtains the first vertical range between the luminescence unit and reflector in target screen.
Step S104 obtains the first water between the luminescence unit in target screen and the photographic device for shooting luminescence unit
Flat distance and the second vertical range.
Step S106 is determined anti-on reflector according to the first vertical range, the second vertical range and first level distance
The second horizontal distance between exit point and luminescence unit, wherein the target light of luminescence unit transmitting is via anti-on reflector
Exit point reflexes to photographic device.
Step S108 adjusts the corresponding anti-reflective tabula rasa of luminescence unit according to the first vertical range and the second horizontal distance
Posture makes anti-reflective tabula rasa block the target light of luminescence unit transmitting, wherein anti-reflective tabula rasa is set to the luminous list of target screen
Between member and reflector.
The processing method of screen reflecting provided by the embodiments of the present application, by the luminescence unit in acquisition target screen and instead
The first vertical range between tabula rasa;And obtain target screen in luminescence unit and shooting luminescence unit photographic device it
Between first level distance and the second vertical range;According to the first vertical range, the second vertical range and first level distance, really
Determine the second horizontal distance between the reflection point and luminescence unit on reflector, wherein the target light warp of luminescence unit transmitting
Photographic device is reflexed to by the reflection point on reflector;According to the first vertical range and the second horizontal distance, luminescence unit is adjusted
The posture of corresponding anti-reflective tabula rasa makes anti-reflective tabula rasa block the target light of luminescence unit transmitting, wherein anti-reflective tabula rasa is set to
Between the luminescence unit and reflector of target screen, solve in the related technology LED display on the ground with reflective material
On will form inverted image, cause the area for watching advertisement to see that the content of the content in LED screen and ground return is inconsistent
The problem of happening, and then influencing advertisement benefit.
That is, anti-reflective tabula rasa, and shining according to target screen is arranged by the lower section of the luminescence unit in target screen
Positional relationship between unit and photographic device adjusts the length and angle of anti-reflective tabula rasa, to enable anti-reflective tabula rasa block the list that shines
The target light of member transmitting shows that luminescence unit is anti-in the image taken when avoiding photographic device shooting luminescence unit
Penetrate the generation in the inverted image that reflector is formed the case where.
For example, being usually provided with multiple display screens in the competition field of World Championships, display screen is often used
The official language casting match details of sponsor, but when other countries area is broadcast live the championship, generally require
Languages conversion is carried out to the match details shown on display screen, to be transformed into the official language of the countries and regions, but such as Fig. 2
It is shown, since the smoothness of the floor in competition field is higher, show on screen that the match details that show usually are reflected on floor,
When other countries area being caused to be broadcast live championship, languages only are carried out to the match details shown on display screen and are turned
The case where changing, and can not scrupling the caption content that display screen is reflected on floor, lead to " exposing the false " occurs.And pass through this reality
The processing method for applying the screen reflecting of example offer, enable the luminescence unit of anti-reflective tabula rasa limitation display screen goes out optical range, to hide
When keeping off the target light of luminescence unit transmitting, and then avoiding photographic device filmed display screen, shown in the image taken
The case where showing the inverted image formed in floor due to display screen reflection generation, that is, preventing to show that screen exists from the root
The case where inverted image is formed on floor.
It should be understood that above-mentioned reflector can be the plate arbitrarily with reflective property being set to below display screen
Material, for example, smooth floor.
In addition, above-mentioned target screen is also possible to the display screen being made of multiple LED dot matrix, wherein the display screen
Text, picture, animation, video are shown by the light on and off of red, the lamp bead of blue, yellow, white, green.Wherein, in target
When screen is LED display screen, luminescence unit is then at least one the LED illuminating part shown in screen.
In addition, above-mentioned target screen can also be the display devices such as projector, video wall, liquid crystal display.
It should be understood that in the embodiment of the present application, using the plate face of reflector as horizontal reference, similarly, based on reflective
The plate face of plate defines vertical reference.
Fig. 3 is to provide the side view of optional target screen a kind of according to the embodiment of the present application to need by taking Fig. 3 as an example
Bright: the first vertical range between luminescence unit and reflector in target screen is a;Luminescence unit in target screen
First level distance between the photographic device of shooting luminescence unit is b;Luminescence unit and shooting in target screen shine
The second vertical range c between the photographic device of unit;Between reflection point and luminescence unit on reflector second it is horizontal away from
From for d;Angle between the target light and vertical direction of luminescence unit transmitting is γ;The propagation of the target light of luminescence unit
Path is 60.
In conjunction with Fig. 3, Fig. 4 and Fig. 5, above-mentioned steps S106 is further described, in an optional example, foundation
First vertical range a, the second vertical range c and first level distance b, determine between the reflection point and luminescence unit on reflector
The second horizontal distance d may include steps of:
Step A determines that luminescence unit emits according to the first vertical range a, the second vertical range c and first level distance b
Target light and vertical direction between angle, in a kind of optinal plan, a kind of following optional scheme can be passed through and calculated
Obtain the angle:
Firstly, establishing one with reference to triangle, wherein a length of two first vertical range a of hook with reference to triangle with
The sum of second vertical range c, which is first level distance b, and this is right angle trigonometry with reference to triangle
Shape;Secondly, in conjunction with Pythagorean theorem, determining should according to the first vertical range a, the second vertical range c and first level distance b
With reference to triangle interior angle angle, finally, this is similar triangles with reference to the hatched triangle in triangle and Fig. 4, based on reference
Triangle interior angle angle it can be concluded that the hatched triangle in Fig. 4 interior angle angle.
Step B determines the second horizontal distance between reflection point and luminescence unit according to angle and the first vertical range a
D in a kind of optinal plan, can be based on Pythagorean theorem, count to the above-mentioned angle being calculated and the first vertical range a
It calculates, obtains second horizontal distance d.
In conjunction with Fig. 3, Fig. 4 and Fig. 5, above-mentioned steps S106 is further described, in an optional example, foundation
First vertical range a, the second vertical range c and first level distance b, determine between the reflection point and luminescence unit on reflector
The second horizontal distance d can also include the following steps:
Target value is calculated according to the first vertical range a and the second vertical range c in step C, and determines that first is vertical
Target ratio between distance a and target value, wherein target value be the first vertical range a and the second vertical range c it
With.
It should be noted that the target value is long for the hook of hatched triangle in Fig. 5, which is in Fig. 4
The hook of hatched triangle is long.
Step D determines the second horizontal distance between reflection point and luminescence unit according to ratio and first level distance b
D, wherein the ratio between the second horizontal distance d and first level distance b is equal to target ratio.
It should be understood that the first level distance b is the section chief of hatched triangle in Fig. 5, second horizontal distance d is
The section chief of hatched triangle in Fig. 4.It further, is similar to the hatched triangle in Fig. 4 due to the hatched triangle in Fig. 5
Triangle, it is known that, the ratio between the section chief of hatched triangle in hatched triangle and Fig. 4 in Fig. 5 is equal to and hooks the ratio between length.
Further, above-mentioned steps S108 is further described, it is vertical according to first in an optional example
Distance a and the second horizontal distance d, the posture of the corresponding anti-reflective tabula rasa of adjustment luminescence unit, makes anti-reflective tabula rasa block luminescence unit
The target light of transmitting includes the following steps:
Step E determines the propagation road of the target light of luminescence unit according to the first vertical range a and the second horizontal distance d
Diameter.
Step F, the posture of the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit according to target light, makes anti-reflective light
Plate blocks the target light of luminescence unit transmitting.
That is, by the first vertical range a and the second horizontal distance d, in conjunction with the Pythagorean theorem of triangle, determine via
Reflection point on reflector reflexes to the propagation path of the target light of photographic device, at this point, regulating and controlling the posture of anti-reflective tabula rasa again
To block the target light, and then avoid generation the case where forming inverted image on floor of display screen.
Further, the posture of the corresponding anti-reflective tabula rasa of adjustment luminescence unit, makes anti-reflective tabula rasa block luminescence unit transmitting
Target light method include it is a variety of, in an optional example, the propagation path adjustment according to target light shines single
The posture of the corresponding anti-reflective tabula rasa of member, so that anti-reflective tabula rasa is blocked the target light of luminescence unit transmitting includes such as under type:
First, the posture of the corresponding anti-reflective tabula rasa of adjustment luminescence unit, makes one end position of the anti-reflective tabula rasa far from luminescence unit
In on the propagation path of target light.
Second, the posture of the corresponding anti-reflective tabula rasa of adjustment luminescence unit, makes one end position of the anti-reflective tabula rasa far from luminescence unit
In target light propagation path far from the side of luminescence unit.
As long as that is, enable anti-reflective tabula rasa interrupt the luminescence unit target light propagation path.
Further, specification is included the following three types in anti-reflective tabula rasa provided by the embodiments of the present application, that is, length is fixed but angle
Degree can be adjusted flexibly, angle is fixed but length can be adjusted flexibly, length angle can be adjusted flexibly.
For the situation that above-mentioned anti-reflective tabula rasa length is fixed, in an optional example, according to the target light
Propagation path adjusts the posture of the corresponding anti-reflective tabula rasa of the luminescence unit, and the anti-reflective tabula rasa is made to block the luminescence unit hair
The target light penetrated can be achieved by following steps: obtain the corresponding preset length of the anti-reflective tabula rasa and default rotation
Point, wherein the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;According to the preset length and described default
The point of rotation determines the scope of activities that the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;According to the anti-reflective
The propagation path of the scope of activities of tabula rasa and the target light, determine the anti-reflective tabula rasa effectively blocks range, wherein institute
It states during effectively block range and rotated in the scope of activities for characterizing the anti-reflective tabula rasa, the mesh can be blocked
Mark the activity interval of light;The posture for adjusting the anti-reflective tabula rasa blocks the anti-reflective tabula rasa effectively in range positioned at described.
It should be understood that the relationship between the scope of activities of anti-reflective tabula rasa and the propagation path of target light is broadly divided into
Intersection, it is tangent, mutually from.Wherein, the relationship between the scope of activities of anti-reflective tabula rasa and the propagation path of target light is intersection
In the case where tangent, the scope of activities of anti-reflective tabula rasa and the propagation path of target light generate at least one intersection point, at this point, institute
It states anti-reflective tabula rasa and effectively blocks range there are corresponding;Between the scope of activities of anti-reflective tabula rasa and the propagation path of target light
Relationship be mutually from the case where, without any intersection point between the scope of activities of anti-reflective tabula rasa and the propagation path of target light, this
When, anti-reflective tabula rasa can not block the target light.
It should be noted that: it is effectively blocked in range by adjusting anti-reflective tabula rasa positioned at described, anti-reflective baffle plate is enabled to hide
Keep off the target light, so avoid photographic device shooting luminescence unit when, luminescence unit reflected in the image taken in
Reflector and generation the case where form inverted image.
Propagation for the situation that above-mentioned anti-angle of reflector is fixed, in an optional example, according to target light
Path adjusts the posture of the corresponding anti-reflective tabula rasa of luminescence unit, and so that anti-reflective tabula rasa is blocked the target light of luminescence unit transmitting can be with
It is achieved by following steps: obtaining the location information of the fixed point of the anti-reflective tabula rasa, wherein the anti-reflective tabula rasa is with institute
Stating fixed point is that starting point carries out length adjustment on preset direction;The simulation for obtaining the anti-reflective tabula rasa generated in server is penetrated
The simulaed path of line and the target light, wherein the simulation ray is starting point along institute using the fixed point of the anti-reflective tabula rasa
Preset direction extension is stated, propagation path of the simulaed path using the luminescence unit as starting point along the target light extends;
After determining the intersection point of the simulation ray and the simulaed path, the starting point for simulating ray is obtained to the intersection point
The first length;Based on first length, controls the anti-reflective tabula rasa and be adjusted to target length, wherein the target length
More than or equal to first length.
It should be understood that target length be equal to the first length in the case where, anti-reflective tabula rasa far from luminescence unit one
End is located on the propagation path of target light;In the case where target length is greater than the first length, anti-reflective tabula rasa is single far from shining
One end of member is located at the propagation path of target light far from the side of luminescence unit.
Finally, target screen can obtain in target screen with tilt rotation, and in this scenario in some scenarios
Luminescence unit and reflector between the first vertical range a can also be achieved by following steps: determine target screen
Corresponding positional relationship between corresponding target rotational point and luminescence unit and the target rotational point, while also determining target
Third vertical range between the corresponding target rotational point of screen and reflector, finally, according to luminescence unit and the target rotational
Corresponding positional relationship and third vertical range between point, determine between the luminescence unit and reflector in target screen
First vertical range a.
Similarly, in these cases, obtain target screen in luminescence unit and shooting luminescence unit photographic device it
Between first level distance b can also be achieved by following steps: determine the corresponding target rotational point of target screen, foundation
Corresponding positional relationship between luminescence unit and the target rotational point, at the same also determine the corresponding target rotational point of target screen with
Third horizontal distance between photographic device, finally, according to corresponding positional relationship between luminescence unit and the target rotational point,
And third horizontal distance, determine the first water between the luminescence unit in target screen and the photographic device for shooting luminescence unit
Flat distance b.
It, can also be with it should be understood that the corresponding target rotational point of target screen can be set on target screen itself
It is set to except target screen, does not give limit herein.
It should be noted that step shown in the flowchart of the accompanying drawings can be in such as a group of computer-executable instructions
It is executed in computer system, although also, logical order is shown in flow charts, and it in some cases, can be with not
The sequence being same as herein executes shown or described step.
The embodiment of the present application also provides a kind of processing equipments of screen reflecting, it should be noted that the embodiment of the present application
The processing equipment of screen reflecting can be used for executing the processing method that screen reflecting is used for provided by the embodiment of the present application.With
Under the processing equipment of screen reflecting provided by the embodiments of the present application is introduced.
Fig. 6 is the schematic diagram according to the processing equipment of the screen reflecting of the embodiment of the present application.As shown in fig. 6, the equipment packet
It includes: screen mask 10, anti-reflective tabula rasa 20.
Screen mask 10 is covered on target screen, and is equipped with corresponding multiple with the luminescence unit 51 of target screen
Through-hole.
Anti-reflective tabula rasa 20, one end are set to below the through-hole of screen mask 10, wherein the length and angle of anti-reflective tabula rasa 20
The processing method of screen reflecting according to above-mentioned any one is adjusted.
The processing equipment of screen reflecting provided by the embodiments of the present application is covered on target screen by screen mask 10,
And multiple through-holes corresponding with the luminescence unit 51 of target screen are equipped on the screen mask 10;And pass through anti-reflective tabula rasa
20 one end are set to below the through-hole of screen mask 10, and the length and angle of anti-reflective tabula rasa 20 are then according to above-mentioned screen reflecting
Processing method is adjusted, and solves in the related technology that LED display will form inverted image on the ground with reflective material, is made
At watching that the area of advertisement sees that the inconsistent situation of the content of the content in LED screen and ground return occurs, influence wide
The problem of accusing benefit.
That is, anti-reflective tabula rasa 20 is arranged in the lower section by the luminescence unit 51 in target screen, and according to target screen
Positional relationship between luminescence unit 51 and photographic device adjusts the length and angle of anti-reflective tabula rasa 20, to enable anti-reflective tabula rasa 20
The target light for blocking the transmitting of luminescence unit 51, when avoiding photographic device shooting luminescence unit 51, luminescence unit 51 is being shot
To image in reflection in reflector and generation the case where form inverted image.
Further, the feature of the anti-reflective tabula rasa 20 includes at least one of: anti-reflective tabula rasa 20 and screen mask 10 can
Rotary type connection;Anti-reflective tabula rasa 20 is in the adjustable in length close to screen mask 10 and on the direction far from screen mask 10;It is anti-
Reflector 20 is equipped with smooth corner far from one end of screen mask 10;And anti-reflective tabula rasa is made of elastic material.
It should be understood that anti-reflective tabula rasa 20 is with screen mask 10 by turnably connecting, so that anti-reflective tabula rasa 20 has
The standby function of adjusting angle;Anti-reflective tabula rasa 20 passes through in the length close to screen mask 10 and on the direction far from screen mask 10
It is adjustable, so that anti-reflective tabula rasa 20 has Telescopic;Anti-reflective tabula rasa 20 is flat by being equipped in one end far from screen mask 10
Sliding corner, avoiding user and colliding with causes the situation of user's injury to occur on anti-reflective tabula rasa 20;Similarly, anti-reflective tabula rasa is by bullet
Property material composition, also reached and avoided user and collide with the technology effect for causing to be occurred with injured situation on anti-reflective tabula rasa 20
Fruit.
In addition, as shown in fig. 7, the luminescence unit 51 in target screen can be arranged side by side, on this basis, it is above-mentioned side by side
The corresponding multiple anti-reflective tabula rasas 20 of the multiple luminescence units 51 being arranged, can be in turn connected to form target baffle.Further, if
There is the light emitting region of the luminescence unit 51 in the target screen of target baffle as shown in Figure 8.
The embodiment of the present application also provides a kind of processing units of screen reflecting, it should be noted that the embodiment of the present application
The processing unit of screen reflecting can be used for executing the processing method that screen reflecting is used for provided by the embodiment of the present application.With
Under the processing unit of screen reflecting provided by the embodiments of the present application is introduced.
Fig. 9 is the schematic diagram according to the processing unit of the screen reflecting of the embodiment of the present application.As shown in figure 9, the device packet
It includes: first acquisition unit 91, second acquisition unit 93, determination unit 95 and adjustment unit 97.
First acquisition unit 91, for obtain between the luminescence unit in target screen and reflector first it is vertical away from
From.
Second acquisition unit 93, for obtain the luminescence unit in target screen and shoot luminescence unit photographic device it
Between first level distance and the second vertical range.
Determination unit 95, for determining reflector according to the first vertical range, the second vertical range and first level distance
On reflection point and luminescence unit between the second horizontal distance, wherein luminescence unit transmitting target light via reflector
On reflection point reflex to photographic device.
Adjustment unit 97, for according to the first vertical range and the second horizontal distance, the corresponding anti-reflective of adjustment luminescence unit
The posture of tabula rasa makes anti-reflective tabula rasa block the target light of luminescence unit transmitting, wherein anti-reflective tabula rasa is set to target screen
Between luminescence unit and reflector.
The processing method of screen reflecting provided by the embodiments of the present application is obtained in target screen by first acquisition unit 91
Luminescence unit and reflector between the first vertical range;Second acquisition unit 93 obtain target screen in luminescence unit with
Shoot the first level distance and the second vertical range between the photographic device of luminescence unit;Determination unit 95 is vertical according to first
Distance, the second vertical range and first level distance determine that second between the reflection point and luminescence unit on reflector is horizontal
Distance, wherein the target light of luminescence unit transmitting reflexes to photographic device via the reflection point on reflector;Adjustment unit 97
According to the first vertical range and the second horizontal distance, the posture of the corresponding anti-reflective tabula rasa of adjustment luminescence unit hides anti-reflective tabula rasa
Keep off the target light of luminescence unit transmitting, wherein anti-reflective tabula rasa is set between the luminescence unit and reflector of target screen, solution
LED display in the related technology of having determined will form inverted image on the ground with reflective material, cause the area for watching advertisement
The problem of seeing that the inconsistent situation of the content of the content and ground return in LED screen occurs, and then influencing advertisement benefit.
That is, anti-reflective tabula rasa, and shining according to target screen is arranged by the lower section of the luminescence unit in target screen
Positional relationship between unit and photographic device adjusts the length and angle of anti-reflective tabula rasa, to enable anti-reflective tabula rasa block the list that shines
The target light of member transmitting shows that luminescence unit is anti-in the image taken when avoiding photographic device shooting luminescence unit
Penetrate the generation in the inverted image that reflector is formed the case where.
Optionally, in the processing unit of screen reflecting provided by the embodiments of the present application, determination unit 95 is from including: first
Determining module, for determining the mesh of luminescence unit transmitting according to the first vertical range, the second vertical range and first level distance
Mark the angle between light and vertical direction;Second determining module, for determining reflection point according to angle and the first vertical range
The second horizontal distance between luminescence unit.
Optionally, in the processing unit of screen reflecting provided by the embodiments of the present application, determination unit 95 includes: that third is true
Cover half block for target value to be calculated according to the first vertical range and the second vertical range, and determines the first vertical range
Target ratio between target value, wherein target value is the sum of the first vertical range and the second vertical range;4th really
Cover half block, for determining the second horizontal distance between reflection point and luminescence unit according to ratio and first level distance,
In, the ratio between the second horizontal distance and first level distance is equal to target ratio.
Optionally, in the processing unit of screen reflecting provided by the embodiments of the present application, adjustment unit 97 includes: the 5th true
Cover half block, for determining the propagation path of the target light of luminescence unit according to the first vertical range and the second horizontal distance;It adjusts
Mould preparation block makes anti-reflective tabula rasa for the posture of the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit according to target light
Block the target light of luminescence unit transmitting.
Optionally, in the processing unit of screen reflecting provided by the embodiments of the present application, adjustment module includes: the first adjustment
Submodule is located at anti-reflective tabula rasa far from one end of luminescence unit for adjusting the posture of the corresponding anti-reflective tabula rasa of luminescence unit
On the propagation path of target light;Or, second adjustment submodule, for adjusting the posture of the corresponding anti-reflective tabula rasa of luminescence unit,
Anti-reflective tabula rasa is set to be located at the propagation path of target light far from the side of luminescence unit far from one end of luminescence unit.
Optionally, in the processing unit of screen reflecting provided by the embodiments of the present application, adjustment module includes: the first acquisition
Submodule, for obtaining the corresponding preset length of the anti-reflective tabula rasa and the default point of rotation, wherein the anti-reflective tabula rasa is with described
The default point of rotation is that axle center is rotated;First determines submodule, is used for according to the preset length and the default point of rotation,
Determine the scope of activities that the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;Second determines submodule, is used for
According to the scope of activities of the anti-reflective tabula rasa and the propagation path of the target light, effectively blocking for the anti-reflective tabula rasa is determined
Range, wherein described during effectively block range and rotated in the scope of activities for characterizing the anti-reflective tabula rasa, energy
Enough block the activity interval of the target light;Third adjusting submodule makes described for adjusting the posture of the anti-reflective tabula rasa
Anti-reflective tabula rasa effectively blocks in range positioned at described.
Optionally, in the processing unit of screen reflecting provided by the embodiments of the present application, adjustment module includes: the second acquisition
Submodule, the location information of the fixed point for obtaining the anti-reflective tabula rasa, wherein the anti-reflective tabula rasa is with the fixed point
Starting point carries out length adjustment on preset direction;Third acquisition submodule, for obtaining the anti-reflective light generated in server
The simulaed path of the simulation ray and the target light of plate, wherein the simulation ray is with the fixed point of the anti-reflective tabula rasa
Extend for starting point along the preset direction, the simulaed path is starting point along the propagation of the target light using the luminescence unit
Path extends;4th acquisition submodule, for obtaining institute after determining the intersection point of the simulation ray and the simulaed path
The starting point of simulation ray is stated to the first length of the intersection point;4th adjusting submodule, for being based on first length, control
It makes the anti-reflective tabula rasa and is adjusted to target length, wherein the target length is more than or equal to first length.
The processing unit of screen reflecting includes processor and memory, above-mentioned first acquisition unit 91, second acquisition unit
93, determination unit 95 and adjustment unit 97 etc. store in memory as program unit, are stored in by processor execution
Above procedure unit in reservoir realizes corresponding function.
Include kernel in processor, is gone in memory to transfer corresponding program unit by kernel.Kernel can be set one
Or more, the optical range out of anti-reflective tabula rasa screening limitation luminescence unit is made by adjusting kernel parameter, is existed to avoid target screen
The case where inverted image is formed on reflector occurs.
Memory may include the non-volatile memory in computer-readable medium, random access memory (RAM) and/
Or the forms such as Nonvolatile memory, if read-only memory (ROM) or flash memory (flash RAM), memory include that at least one is deposited
Store up chip.
The embodiment of the invention provides a kind of storage mediums, are stored thereon with program, real when which is executed by processor
The processing method of existing screen reflecting.
The embodiment of the invention provides a kind of processor, processor is for running program, wherein program executes screen when running
The reflective processing method of curtain.
The embodiment of the invention provides a kind of equipment, equipment include processor, memory and storage on a memory and can
The program run on a processor, processor execute program when perform the steps of obtain target screen in luminescence unit with
The first vertical range between reflector;And obtain the photographic device of the luminescence unit and shooting luminescence unit in target screen
Between first level distance and the second vertical range;The first vertical range of foundation, the second vertical range and first level distance,
Determine the second horizontal distance between the reflection point and luminescence unit on reflector, wherein the target light of luminescence unit transmitting
Photographic device is reflexed to via the reflection point on reflector;According to the first vertical range and the second horizontal distance, the list that shines is adjusted
The posture of the corresponding anti-reflective tabula rasa of member, makes anti-reflective tabula rasa block the target light of luminescence unit transmitting, wherein the setting of anti-reflective tabula rasa
Between the luminescence unit and reflector of target screen.
Optionally, according to the first vertical range, the second vertical range and first level distance, the reflection on reflector is determined
The second horizontal distance between point and luminescence unit include: according to the first vertical range, the second vertical range and first level away from
From, determine luminescence unit transmitting target light and vertical direction between angle;According to angle and the first vertical range, determine
The second horizontal distance between reflection point and luminescence unit.
Optionally, according to the first vertical range, the second vertical range and first level distance, the reflection on reflector is determined
The second horizontal distance between point and luminescence unit includes: that target is calculated according to the first vertical range and the second vertical range
Numerical value, and determine the target ratio between the first vertical range and target value, wherein target value be the first vertical range and
The sum of second vertical range;According to ratio and first level distance, determine between reflection point and luminescence unit second it is horizontal away from
From, wherein the ratio between the second horizontal distance and first level distance is equal to target ratio.
Optionally, according to the first vertical range and the second horizontal distance, the appearance of the corresponding anti-reflective tabula rasa of adjustment luminescence unit
State, so that anti-reflective tabula rasa is blocked the target light of luminescence unit transmitting includes: according to the first vertical range and the second horizontal distance, really
Determine the propagation path of the target light of luminescence unit;The corresponding anti-reflective light of propagation path adjustment luminescence unit according to target light
The posture of plate makes anti-reflective tabula rasa block the target light of luminescence unit transmitting.
Optionally, the posture according to the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit of target light, makes anti-reflective
The target light that tabula rasa blocks luminescence unit transmitting includes: the posture for adjusting the corresponding anti-reflective tabula rasa of luminescence unit, makes anti-reflective light
Plate is located on the propagation path of target light far from one end of luminescence unit;Or, the corresponding anti-reflective tabula rasa of adjustment luminescence unit
Posture makes anti-reflective tabula rasa be located at the propagation path of target light far from the side of luminescence unit far from one end of luminescence unit.
Optionally, the posture according to the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit of target light, makes anti-reflective
The target light that tabula rasa blocks luminescence unit transmitting includes: to obtain the corresponding preset length of the anti-reflective tabula rasa and default rotation
Point, wherein the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;According to the preset length and described default
The point of rotation determines the scope of activities that the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;According to the anti-reflective
The propagation path of the scope of activities of tabula rasa and the target light, determine the anti-reflective tabula rasa effectively blocks range, wherein institute
It states during effectively block range and rotated in the scope of activities for characterizing the anti-reflective tabula rasa, the mesh can be blocked
Mark the activity interval of light;The posture for adjusting the anti-reflective tabula rasa blocks the anti-reflective tabula rasa effectively in range positioned at described.
Optionally, the posture according to the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit of target light, makes anti-reflective
The target light that tabula rasa blocks luminescence unit transmitting includes: the location information for obtaining the fixed point of the anti-reflective tabula rasa, wherein institute
It states anti-reflective tabula rasa and carries out length adjustment on preset direction by starting point of the fixed point;What is generated in acquisition server is described anti-
The simulaed path of the simulation ray and the target light of reflector, wherein simulation ray the consolidating with the anti-reflective tabula rasa
Fixed point is that starting point extends along the preset direction, and the simulaed path is starting point along the target light using the luminescence unit
Propagation path extends;After determining the intersection point of the simulation ray and the simulaed path, rising for the simulation ray is obtained
Initial point to the intersection point the first length;Based on first length, controls the anti-reflective tabula rasa and is adjusted to target length,
In, the target length is more than or equal to first length.Equipment herein can be server, PC, PAD, mobile phone etc..
Present invention also provides a kind of computer program products, when executing on data processing equipment, are adapted for carrying out just
The program of beginningization there are as below methods step: the first vertical range between the luminescence unit and reflector in target screen is obtained;
And the first level distance and second between the luminescence unit in acquisition target screen and the photographic device of shooting luminescence unit
Vertical range;According to the first vertical range, the second vertical range and first level distance, the reflection point and hair on reflector are determined
The second horizontal distance between light unit, wherein the target light of luminescence unit transmitting is via the reflection point reflection on reflector
To photographic device;According to the first vertical range and the second horizontal distance, the posture of the corresponding anti-reflective tabula rasa of adjustment luminescence unit makes
Anti-reflective tabula rasa blocks the target light of luminescence unit transmitting, wherein anti-reflective tabula rasa is set to the luminescence unit of target screen and anti-
Between tabula rasa.
Optionally, according to the first vertical range, the second vertical range and first level distance, the reflection on reflector is determined
The second horizontal distance between point and luminescence unit include: according to the first vertical range, the second vertical range and first level away from
From, determine luminescence unit transmitting target light and vertical direction between angle;According to angle and the first vertical range, determine
The second horizontal distance between reflection point and luminescence unit.
Optionally, according to the first vertical range, the second vertical range and first level distance, the reflection on reflector is determined
The second horizontal distance between point and luminescence unit includes: that target is calculated according to the first vertical range and the second vertical range
Numerical value, and determine the target ratio between the first vertical range and target value, wherein target value be the first vertical range and
The sum of second vertical range;According to ratio and first level distance, determine between reflection point and luminescence unit second it is horizontal away from
From, wherein the ratio between the second horizontal distance and first level distance is equal to target ratio.
Optionally, according to the first vertical range and the second horizontal distance, the appearance of the corresponding anti-reflective tabula rasa of adjustment luminescence unit
State, so that anti-reflective tabula rasa is blocked the target light of luminescence unit transmitting includes: according to the first vertical range and the second horizontal distance, really
Determine the propagation path of the target light of luminescence unit;The corresponding anti-reflective light of propagation path adjustment luminescence unit according to target light
The posture of plate makes anti-reflective tabula rasa block the target light of luminescence unit transmitting.
Optionally, the posture according to the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit of target light, makes anti-reflective
The target light that tabula rasa blocks luminescence unit transmitting includes: the posture for adjusting the corresponding anti-reflective tabula rasa of luminescence unit, makes anti-reflective light
Plate is located on the propagation path of target light far from one end of luminescence unit;Or, the corresponding anti-reflective tabula rasa of adjustment luminescence unit
Posture makes anti-reflective tabula rasa be located at the propagation path of target light far from the side of luminescence unit far from one end of luminescence unit.
Optionally, the posture according to the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit of target light, makes anti-reflective
The target light that tabula rasa blocks luminescence unit transmitting includes: to obtain the corresponding preset length of the anti-reflective tabula rasa and default rotation
Point, wherein the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;According to the preset length and described default
The point of rotation determines the scope of activities that the anti-reflective tabula rasa is rotated using the default point of rotation as axle center;According to the anti-reflective
The propagation path of the scope of activities of tabula rasa and the target light, determine the anti-reflective tabula rasa effectively blocks range, wherein institute
It states during effectively block range and rotated in the scope of activities for characterizing the anti-reflective tabula rasa, the mesh can be blocked
Mark the activity interval of light;The posture for adjusting the anti-reflective tabula rasa blocks the anti-reflective tabula rasa effectively in range positioned at described.
Optionally, the posture according to the corresponding anti-reflective tabula rasa of propagation path adjustment luminescence unit of target light, makes anti-reflective
The target light that tabula rasa blocks luminescence unit transmitting includes: the location information for obtaining the fixed point of the anti-reflective tabula rasa, wherein institute
It states anti-reflective tabula rasa and carries out length adjustment on preset direction by starting point of the fixed point;What is generated in acquisition server is described anti-
The simulaed path of the simulation ray and the target light of reflector, wherein simulation ray the consolidating with the anti-reflective tabula rasa
Fixed point is that starting point extends along the preset direction, and the simulaed path is starting point along the target light using the luminescence unit
Propagation path extends;After determining the intersection point of the simulation ray and the simulaed path, rising for the simulation ray is obtained
Initial point to the intersection point the first length;Based on first length, controls the anti-reflective tabula rasa and is adjusted to target length,
In, the target length is more than or equal to first length.
It should be understood by those skilled in the art that, embodiments herein can provide as method, system or computer program
Product.Therefore, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the application
Apply the form of example.Moreover, it wherein includes the computer of computer usable program code that the application, which can be used in one or more,
The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces
The form of product.
The application is referring to method, the process of equipment (system) and computer program product according to the embodiment of the present application
Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions
The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs
Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce
A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real
The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.
These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates,
Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or
The function of being specified in multiple boxes.
These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting
Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or
The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one
The step of function of being specified in a box or multiple boxes.
In a typical configuration, calculating equipment includes one or more processors (CPU), input/output interface, net
Network interface and memory.
Memory may include the non-volatile memory in computer-readable medium, random access memory (RAM) and/
Or the forms such as Nonvolatile memory, such as read-only memory (ROM) or flash memory (flash RAM).Memory is computer-readable Jie
The example of matter.
Computer-readable medium includes permanent and non-permanent, removable and non-removable media can be by any method
Or technology come realize information store.Information can be computer readable instructions, data structure, the module of program or other data.
The example of the storage medium of computer includes, but are not limited to phase change memory (PRAM), static random access memory (SRAM), moves
State random access memory (DRAM), other kinds of random access memory (RAM), read-only memory (ROM), electric erasable
Programmable read only memory (EEPROM), flash memory or other memory techniques, read-only disc read only memory (CD-ROM) (CD-ROM),
Digital versatile disc (DVD) or other optical storage, magnetic cassettes, tape magnetic disk storage or other magnetic storage devices
Or any other non-transmission medium, can be used for storage can be accessed by a computing device information.As defined in this article, it calculates
Machine readable medium does not include temporary computer readable media (transitory media), such as the data-signal and carrier wave of modulation.
It should also be noted that, the terms "include", "comprise" or its any other variant are intended to nonexcludability
It include so that the process, method, commodity or the equipment that include a series of elements not only include those elements, but also to wrap
Include other elements that are not explicitly listed, or further include for this process, method, commodity or equipment intrinsic want
Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including element
There is also other identical elements in process, method, commodity or equipment.
It will be understood by those skilled in the art that embodiments herein can provide as method, system or computer program product.
Therefore, complete hardware embodiment, complete software embodiment or embodiment combining software and hardware aspects can be used in the application
Form.It is deposited moreover, the application can be used to can be used in the computer that one or more wherein includes computer usable program code
The shape for the computer program product implemented on storage media (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.)
Formula.
The above is only embodiments herein, are not intended to limit this application.To those skilled in the art,
Various changes and changes are possible in this application.It is all within the spirit and principles of the present application made by any modification, equivalent replacement,
Improve etc., it should be included within the scope of the claims of this application.
Claims (12)
1. a kind of processing method of screen reflecting, which is characterized in that the treating method comprises:
Obtain the first vertical range between the luminescence unit and reflector in target screen;And
Obtain first level between luminescence unit in the target screen and the photographic device of the shooting luminescence unit away from
From with the second vertical range;
According to first vertical range, second vertical range and the first level distance, determine on the reflector
Reflection point and the luminescence unit between the second horizontal distance, wherein the target light of luminescence unit transmitting via
Reflection point on the reflector reflexes to the photographic device;
According to first vertical range and second horizontal distance, the appearance of the corresponding anti-reflective tabula rasa of the luminescence unit is adjusted
State makes the anti-reflective tabula rasa block the target light of the luminescence unit transmitting, wherein the anti-reflective tabula rasa is set to the mesh
Between the luminescence unit and the reflector for marking screen.
2. the method according to claim 1, wherein according to first vertical range, described second vertically away from
From with a distance from the first level, the second horizontal distance between the reflection point and the luminescence unit on the reflector is determined
Include:
According to first vertical range, second vertical range and the first level distance, the luminescence unit is determined
Angle between the target light and vertical direction of transmitting;
According to the angle and first vertical range, determine that second between the reflection point and the luminescence unit is horizontal
Distance.
3. the method according to claim 1, wherein according to first vertical range, described second vertically away from
From with a distance from the first level, the second horizontal distance between the reflection point and the luminescence unit on the reflector is determined
Include:
Target value is calculated according to first vertical range and second vertical range, and determines that described first is vertical
Target ratio between distance and the target value, wherein target value is that first vertical range and described second are hung down
Straight sum of the distance;
According to the ratio and the first level distance, determine that second between the reflection point and the luminescence unit is horizontal
Distance, wherein the ratio between second horizontal distance and first level distance is equal to the target ratio.
4. the method according to claim 1, wherein according to first vertical range and it is described second it is horizontal away from
From adjusting the posture of the corresponding anti-reflective tabula rasa of the luminescence unit, the anti-reflective tabula rasa made to block luminescence unit transmitting
Target light includes:
According to first vertical range and second horizontal distance, the biography of the target light of the luminescence unit transmitting is determined
Broadcast path;
Propagation path according to the target light adjusts the posture of the corresponding anti-reflective tabula rasa of the luminescence unit, makes the anti-reflective
Tabula rasa blocks the target light of the luminescence unit transmitting.
5. according to the method described in claim 4, it is characterized in that, the propagation path according to the target light adjusts the hair
The posture of the corresponding anti-reflective tabula rasa of light unit, the target light for making the anti-reflective tabula rasa block the luminescence unit transmitting include:
The posture for adjusting the corresponding anti-reflective tabula rasa of the luminescence unit makes the described one end of anti-reflective tabula rasa far from the luminescence unit
On the propagation path of the target light;Or,
The posture for adjusting the corresponding anti-reflective tabula rasa of the luminescence unit makes the described one end of anti-reflective tabula rasa far from the luminescence unit
Propagation path positioned at the target light is far from the side of the luminescence unit.
6. according to the method described in claim 4, it is characterized in that, the propagation path according to the target light adjusts the hair
The posture of the corresponding anti-reflective tabula rasa of light unit, the target light for making the anti-reflective tabula rasa block the luminescence unit transmitting include:
Obtain the corresponding preset length of the anti-reflective tabula rasa and the default point of rotation, wherein the anti-reflective tabula rasa is with the default rotation
Turning point is that axle center is rotated;
According to the preset length and the default point of rotation, determine the anti-reflective tabula rasa using the default point of rotation as axle center into
The scope of activities of row rotation;
According to the scope of activities of the anti-reflective tabula rasa and the propagation path of the target light, the effective of the anti-reflective tabula rasa is determined
Block range, wherein the range of effectively blocking is for characterizing the process that the anti-reflective tabula rasa rotates in the scope of activities
In, the activity interval of the target light can be blocked;
The posture for adjusting the anti-reflective tabula rasa blocks the anti-reflective tabula rasa effectively in range positioned at described.
7. according to the method described in claim 4, it is characterized in that, the propagation path according to the target light adjusts the hair
The posture of the corresponding anti-reflective tabula rasa of light unit, the target light for making the anti-reflective tabula rasa block the luminescence unit transmitting include:
Obtain the location information of the fixed point of the anti-reflective tabula rasa, wherein the anti-reflective tabula rasa exists using the fixed point as starting point
Length adjustment is carried out on preset direction;
Obtain the simulaed path of the simulation ray and the target light of the anti-reflective tabula rasa generated in server, wherein institute
It states simulation ray to extend using the fixed point of the anti-reflective tabula rasa as starting point along the preset direction, the simulaed path is with the hair
Light unit is that starting point extends along the propagation path of the target light;
After determining the intersection point of the simulation ray and the simulaed path, the starting point of the simulation ray is obtained to described
First length of intersection point;
Based on first length, controls the anti-reflective tabula rasa and be adjusted to target length, wherein the target length is more than or equal to
First length.
8. a kind of processing equipment of screen reflecting characterized by comprising
Screen mask is covered on target screen, and is equipped with multiple through-holes corresponding with the luminescence unit of the target screen;
Anti-reflective tabula rasa, one end are set to below the through-hole of the screen mask, wherein the length and angle of the anti-reflective tabula rasa according to
It is adjusted according to the processing method of the screen reflecting of any one of the claims 1 to 7.
9. equipment according to claim 8, which is characterized in that the feature of the anti-reflective tabula rasa includes at least one of:
The anti-reflective tabula rasa is turnably connect with the screen mask;
The anti-reflective tabula rasa is in the adjustable in length close to the screen mask and on the direction far from the screen mask;
The anti-reflective tabula rasa is equipped with smooth corner far from one end of the screen mask;And
The anti-reflective tabula rasa is made of elastic material.
10. a kind of processing unit of screen reflecting, which is characterized in that the processing unit includes:
First acquisition unit, for obtaining the first vertical range between luminescence unit and reflector in target screen;And
Second acquisition unit, for obtaining the luminescence unit in the target screen and shooting the photographic device of the luminescence unit
Between first level distance and the second vertical range;
Determination unit, for determining according to first vertical range, second vertical range and the first level distance
The second horizontal distance between reflection point and the luminescence unit on the reflector, wherein the luminescence unit transmitting
Target light reflexes to the photographic device via the reflection point on the reflector;
Adjustment unit, for it is corresponding to adjust the luminescence unit according to first vertical range and second horizontal distance
Anti-reflective tabula rasa posture, so that the anti-reflective tabula rasa is blocked the target light of luminescence unit transmitting, wherein the anti-reflective light
Plate is set between the luminescence unit and the reflector of the target screen.
11. a kind of storage medium, which is characterized in that the storage medium includes the program of storage, wherein described program right of execution
Benefit require any one of 1 to 7 described in screen reflecting processing method.
12. a kind of processor, which is characterized in that the processor is for running program, wherein right of execution when described program is run
Benefit require any one of 1 to 7 described in screen reflecting processing method.
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