CN106080136A - A kind of incident intensity control method and equipment - Google Patents

Abstract

The invention discloses a kind of incident intensity control method and equipment, for solving the problem not having reasonable light shading method in prior art in automobile, described method includes: obtain the positional information of destination object；Detect the reflective light intensity after being reflected by described destination object；If described reflective light intensity is more than predetermined threshold value, according to described positional information, determine corresponding transmission region；Adjust the transparency of described transmission region, incide the incident intensity on described destination object to reduce by described transmission region.The invention also discloses corresponding incident intensity and control equipment.

Description

A kind of incident intensity control method and equipment

Technical field

The present invention relates to intensity control field, be specifically related to a kind of incident intensity control method and equipment.

Background technology

If it is incident that driver runs into high light driving a car when, vision can be affected and cause not seeing front Situation, but currently without reasonable light shading method.

Summary of the invention

The embodiment of the present invention provides a kind of incident intensity control method and equipment, is used for solving not having in automobile in prior art The problem having reasonable light shading method.

First aspect, it is provided that a kind of incident intensity control method, described method includes:

Obtain the positional information of destination object；

Detect the reflective light intensity after being reflected by described destination object；

If described reflective light intensity is more than predetermined threshold value, according to described positional information, determine corresponding transmission region；

Adjust the transparency of described transmission region, incided on described destination object by described transmission region to reduce Incident intensity.

Optionally, described method also includes:

Obtain the front orientation information of described destination object；Described front orientation information is for indicating described destination object Front towards direction；

According to described positional information, determine corresponding transmission region, including:

Positional information according to described destination object and described front orientation information, determine corresponding transmission region.

Optionally, according to positional information and the described front orientation information of described destination object, corresponding transparent area is determined Territory, including:

Positional information according to described destination object and described front orientation information, determine first on described transmission region Region；Described first area occupies the subregion of described transmission region；

Adjust the transparency of described transmission region, including:

Adjust the transparency of described first area.

Optionally, described light source is the sun；

Described method also includes:

Obtain the direction of motion of described destination object and current temporal information；

The direction of motion and described current temporal information according to described destination object calculate sunlight and incide described target The incident direction of object；

According to described positional information, determine corresponding transmission region, including:

According to described positional information and described incident direction, determine corresponding transmission region.

Optionally, described transmission region is the part window on automobile, before obtaining the positional information of destination object, also Including:

Whether destination object is there is in detecting described automobile；

Obtain the positional information of destination object, including:

If there is at least one destination object in described automobile, obtain the target complete at least one destination object described Object or the positional information of partial target object.

Optionally, after whether there is destination object in detecting described automobile, also include:

If described destination object does not exists, adjust the whole windows on described automobile, so that described whole window is impermeable Bright.

Optionally, the target complete object in obtaining at least one destination object described or the position of partial target object Before information, also include:

If there is at least one destination object in described automobile, it is judged that whether described automobile is automatic Pilot state；

Obtain the target complete object at least one destination object described or the positional information of partial target object, bag Include:

If described automobile is not automatic Pilot state, then obtain the target complete object at least one destination object described Or the positional information of partial target object.

Optionally, after judging whether described automobile is automatic Pilot state, also include:

If described automobile is automatic Pilot state, adjust the transparency of described whole window, so that described whole window Opaque.

Second aspect, it is provided that a kind of incident intensity controls equipment, including:

Memorizer, is used for storing instruction；

Processor, for calling the instruction of described memorizer storage, obtains the positional information of destination object, and detection is by institute State the reflective light intensity after destination object reflection；If described reflective light intensity is more than predetermined threshold value, according to described positional information, determine phase The transmission region answered, adjusts the transparency of described transmission region, incides described target pair to reduce by described transmission region As upper incident intensity.

Optionally, described processor is additionally operable to:

Obtain the front orientation information of described destination object；Described front orientation information is for indicating described destination object Front towards direction；

Described processor, according to described positional information, determines corresponding transmission region, can be accomplished by:

Positional information according to described destination object and described front orientation information, determine corresponding transmission region.

Optionally, described processor, according to the positional information of described destination object and described front orientation information, determines phase After the transmission region answered, it is additionally operable to:

Described transmission region determines first area；Described first area occupies the subregion of described transmission region；

Described processor adjusts the transparency of described transmission region, can be accomplished by:

Adjust the transparency of described first area.

Optionally, described light source is the sun；Described processor is additionally operable to:

Obtain the direction of motion of described destination object and current temporal information；

The direction of motion and described current temporal information according to described destination object calculate sunlight and incide described target The incident direction of object；

Described processor, according to described positional information, determines corresponding transmission region, can be accomplished by:

According to described positional information and described incident direction, determine corresponding transmission region.

Optionally, described transmission region is the part window on automobile, obtains the position of destination object at described processor Before information, whether described processor exists destination object in being additionally operable to detect described automobile；

Described processor obtains the positional information of destination object, specifically can be accomplished by:

If there is at least one destination object in described automobile, obtain the target complete at least one destination object described Object or the positional information of partial target object.

Optionally, after whether there is destination object in described processor detects described automobile, described processor is also used In:

If described destination object does not exists, adjust the whole windows on described automobile, so that described whole window is impermeable Bright.

Optionally, the target complete object in described processor obtains at least one destination object described or partial target Before the positional information of object, described processor is additionally operable to:

If there is at least one destination object in described automobile, it is judged that whether described automobile is automatic Pilot state；

Described processor obtains the target complete object at least one destination object described or the position of partial target object Confidence ceases, and can be accomplished by:

If described automobile is not automatic Pilot state, then obtain the target complete object at least one destination object described Or the positional information of partial target object.

Optionally, after described processor judges whether described automobile is automatic Pilot state, described processor is also used In:

If described automobile is automatic Pilot state, adjust the transparency of described whole window, so that described whole window Opaque.

The third aspect, it is provided that a kind of incident intensity controls equipment, including:

Acquisition module, for obtaining the positional information of destination object；

Detection module, the reflective light intensity after detection is reflected by described destination object；

Determine module, for when described reflective light intensity is more than predetermined threshold value, according to described positional information, determine corresponding Transmission region；

Adjusting module, for adjusting the transparency of described transmission region, incides institute to reduce by described transmission region State the incident intensity on destination object.

Optionally, described acquisition module is additionally operable to obtain the front orientation information of described destination object；Described just facing to Information for indicate described destination object front towards direction；

Described determine that module, according to described positional information, determines corresponding transmission region, can be accomplished by:

Positional information according to described destination object and described front orientation information, determine corresponding transmission region.

Optionally, described determine module according to the positional information of described destination object and described front orientation information, really After fixed corresponding transmission region, described determine that module is additionally operable to:

Described transmission region determines first area；Described first area occupies the subregion of described transmission region；

Described adjusting module adjusts the transparency of described transmission region, can be accomplished by:

Adjust the transparency of described first area.

Optionally, described light source is the sun；Described equipment also includes computing module；

Described acquisition module is additionally operable to obtain the direction of motion of described destination object and current temporal information；

Described computing module is additionally operable to the direction of motion according to described destination object and described current temporal information calculates Sunlight incides the incident direction of described destination object；

Described determine that module, according to described positional information, determines corresponding transmission region, can be accomplished by:

According to described positional information and described incident direction, determine corresponding transmission region.

Optionally, described transmission region is the part window on automobile, obtains the position of destination object at described acquisition module Before confidence breath, whether described detection module exists destination object in being additionally operable to detect described automobile；

Described acquisition module obtains the positional information of destination object, can be accomplished by:

If there is at least one destination object in described automobile, obtain the target complete at least one destination object described Object or the positional information of partial target object.

Optionally, after whether there is destination object in described detection module detects described automobile, described adjusting module It is additionally operable to:

If described destination object does not exists, adjust the whole windows on described automobile, so that described whole window is impermeable Bright.

Optionally, described equipment also includes judge module, obtains at least one destination object described at described acquisition module In target complete object or partial target object positional information before, described judge module is used for:

If there is at least one destination object in described automobile, it is judged that whether described automobile is automatic Pilot state；

Described acquisition module obtains the target complete object at least one destination object described or partial target object Positional information, can be accomplished by:

If described automobile is not automatic Pilot state, then obtain the target complete object at least one destination object described Or the positional information of partial target object.

Optionally, after described judge module judges whether described automobile is automatic Pilot state, described adjusting module It is additionally operable to:

If described automobile is automatic Pilot state, adjust the transparency of described whole window, so that described whole window Opaque.

In the embodiment of the present invention, when the reflective light intensity after destination object reflects is more than predetermined threshold value, by adjusting and mesh The transparency of the transmission region that mark object is corresponding, can reduce the incident intensity inciding on destination object by transmission region, Provide a kind of reasonable light shading method, and adjust incident intensity by adjusting the transparency of transmission region, the knot of adjustment Fruit is relatively more accurate, and the experience brought to user is preferable.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing In having technology to describe, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only this Inventive embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to carrying The accompanying drawing of confession obtains other accompanying drawing.

The flow chart of the incident intensity control method that Fig. 1 provides for the embodiment of the present invention；

Fig. 2 controls a kind of structural representation of equipment for the incident intensity that the embodiment of the present invention provides；

Fig. 3 controls a kind of structural representation of equipment for the incident intensity that the embodiment of the present invention provides；

Fig. 4 controls a kind of structural representation of equipment for the incident intensity that the embodiment of the present invention provides；

Fig. 5 controls a kind of structural representation of equipment for the incident intensity that the embodiment of the present invention provides.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with in the embodiment of the present invention Accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only It is a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill people The every other embodiment that member is obtained under not making creative work premise, broadly falls into the scope of protection of the invention.? In the case of not conflicting, the embodiment in the present invention and the feature in embodiment can mutual combination in any.And, although at stream Journey figure shows logical order, but in some cases, can perform with the order being different from herein shown or described Step.

It addition, the terms "and/or", a kind of incidence relation describing affiliated partner, expression can exist Three kinds of relations, such as, A and/or B, can represent: individualism A, there is A and B, individualism B these three situation simultaneously.Separately Outward, character "/" herein, in the case of not illustrating, typically represent the forward-backward correlation relation to liking a kind of "or".

In order to be more fully understood that, introduce, below in conjunction with Figure of description, the technical scheme that the embodiment of the present invention provides.

Referring to Fig. 1, the embodiment of the present invention provides a kind of incident intensity control method, and the method can be by incident intensity control Control equipment performs, and the flow process of the method is described as follows:

S101: obtain the positional information of destination object；

S102: detect the reflective light intensity after being reflected by destination object；

S103: if reflective light intensity is more than predetermined threshold value, according to positional information, determine corresponding transmission region；

S104: adjust the transparency of transmission region, incides the incident illumination on destination object to reduce by transmission region By force.

In the embodiment of the present invention, destination object may be located in different accommodation spaces, and the light outside accommodation space is permissible Incide and be positioned at the destination object of accommodation space.Wherein, the light source inciding the light in accommodation space can be the sun Or other light source of nature, it is also possible to it is artificial light sources.Accommodation space can have various ways, such as automobile, room etc..As Really destination object is positioned at automobile, then incident illumination is probably the light injecting in automobile from vehicle window, if destination object is positioned at room In, then incident illumination is probably the light that the window from room is injected in room.The executive agent of this method can be incident intensity control Control equipment.Hereafter it is positioned at as a example by automobile by destination object and is introduced.

Destination object can include that a user can also include multiple user, and destination object can include being positioned at vapour The user of the optional position in car.Destination object includes which user in automobile actually, can be controlled equipment by incident intensity Pre-set, as can be targeted customer by any one or more user setups in automobile, or can be by automobile All user setup is targeted customer.By user, the operation of automobile can also be determined, it is also possible to be to be examined voluntarily by automobile Survey determines: the gravity sensor inspection under the built-in camera that such as can utilize automobile or each seat being arranged in automobile There is user in which position surveyed in automobile, whole users of detection or certain customers can be defined as targeted customer.

In one embodiment, before obtaining the positional information of destination object, whether can first detect in automobile There is destination object it can be understood as, detection automobile in whether have user.Such as can utilize the built-in camera of automobile or set Whether user is there is, however, it is determined that do not use in automobile in putting the detection automobile of the gravity sensor under each seat in automobile Family, then flow process can be terminated, or can also whole vehicle windows of automobile are adjusted to opaque, hidden with protect in car Private.

If there is at least one user in determining automobile in detection, it can be determined that whether automobile is in automatic Pilot state, as Fruit determines that automobile is in automatic Pilot state, can be adjusted to opaque by whole vehicle windows of automobile, be beneficial in automobile User has a rest.

And if detect and determine at least one user of existence in automobile, and determining that automobile is not in automatic Pilot state, then Whole users in this at least one user or certain customers can be defined as destination object.It is described below and several determines target The mode of object.Mode 1: if destination object is to pre-set and determine by incident intensity is controlled equipment, such as, enter Penetrate the user being provided with in intensity control equipment on some position being positioned at automobile and then can determine vapour as destination object After having at least one user in car, it may be determined that the position whether having user place at least one user is the position pre-set Put, if having the position at user place at least one user is the position pre-set, then these certain customers can be determined For destination object.Mode 2: if destination object does not pre-sets, then may determine that at least one user whether have user It is in sleep state, if at least one user has user to be in sleep state, then can will be in dormant user It is defined as destination object.Wherein it is possible to by the image of the built-in camera shooting user of automobile, sentence according to the image of user Whether disconnected user is in sleep state, or can be by obtaining Wearable that user wears (such as intelligent watch or intelligence Bracelet etc.) in storage data judge.Certainly, the simply citing of both the above mode, the embodiment of the present invention determines target The mode of object is not limited to this.

After determining destination object, it is possible to obtain the positional information of destination object.Wherein, the position letter of a destination object Breath can include the coordinate information of this destination object, such as, can set up coordinate system in automobile, then can obtain destination object Coordinate information, or the positional information of a destination object can include this destination object seat information in automobile.Separately Outward, in addition to the coordinate information that can include destination object or seat information, the positional information of destination object can also include Some other possible information, as included the top elevation information etc. relative to automobile top of destination object.

When being incided the incident intensity at least one destination object outside car by vehicle window to part or all of target pair Need during as interfering this portions incident light intensity is controlled, so firstly the need of detection by least one destination object Reflective light intensity after reflection, to determine that whether the incident intensity incided at least one destination object is to part or all of target Object causes interference.Wherein, detection reflected by destination object after reflective light intensity, that can detect by destination object is complete Reflective light intensity after portion's regional reflex, incides entering on the Zone Full of destination object to reduce by corresponding transmission region Penetrate light intensity, or the reflective light intensity after being reflected by the eye of at least one destination object can also be detected, to reduce by phase The transmission region answered incides the incident intensity of the eye of destination object.The method of detection reflective light intensity can have multiple, such as Detected by the built-in camera of automobile, or examined by special light-intensity test equipment or light detection equipment Survey, as detected by light sensor.

If the reflective light intensity after being reflected by each destination object at least one destination object has destination object Reflective light intensity more than predetermined threshold value, or after being reflected by the eye of each destination object at least one destination object Reflective light intensity has the reflective light intensity of eye of destination object more than predetermined threshold value, it is believed that the intensity of the incident ray outside automobile can Can reach this partial target object in automobile is caused the degree of bad interference, then can be according to the position of this partial target object Confidence breath determines corresponding transmission region, reduces with the transparency by adjustment transmission region and incides this portion by transmission region Incident intensity on partial objectives for object.This partial target object is properly termed as Part I destination object.Predetermined threshold value can be The light intensity value that the vision of people may be interfered, it is also possible to may interfere being in dormant user Light intensity value.

Wherein it is determined that the mode of transmission region can have multiple, it is described below therein several.

First kind of way: can pre-set corresponding relation between positional information and the transmission region of destination object, so, Just corresponding transmission region can be determined according to this corresponding relation after knowing the positional information of destination object.Such as, driver's seat Corresponding transmission region can be the half region on the whole front windshield of automobile or front windshield corresponding to driver's seat, The transmission region that heel row window seat is corresponding can be the whole side window of the automobile nearest from this seat, etc..

The second way: in order to determine transmission region more accurately, in addition to obtaining the positional information of destination object, also The built-in camera that can use automobile obtains the front orientation information of Part I destination object, and this front orientation information is used for Instruction Part I destination object in each destination object front towards direction, such as, Part I destination object Just facing to may refer in Part I destination object the face of each destination object towards, can be according to Part I target The positional information of object and front orientation information, determine corresponding transmission region.The built-in shooting by automobile of this transmission region Head detection obtains, and is Part I destination object reflective light intensity on the face at least one car corresponding to position more than predetermined threshold value Part or all of region on window.Such as, at the automobile that China sells, with face front or the eye pair of the user on driver's seat The transmission region answered can be the half region (i.e. relative with driver's seat half region) on the left side of shield glass, with The transmission region that the left side face of the user on driver's seat is corresponding can be that the left front side window of automobile monoblock is (i.e. from the side that driver's seat is nearest Window) etc..

The third mode: if light source is the sun, it is also possible to according to positional information and the sunlight of Part I destination object Incide the incident direction on Part I destination object and determine corresponding transmission region.Part I destination object can be obtained The direction of motion and current temporal information, the direction of motion and current temporal information further according to Part I destination object are true Determine sunlight and incide the incident direction on Part I destination object.Owing to the embodiment of the present invention is to drive a car to enter for scene Row is introduced, so the direction of motion of Part I destination object should be consistent with the direction that automobile advances.The direction that automobile advances The direction that headstock advances can be equal to, can be by global positioning system (the Global Positioning of automotive internal System, GPS) or magnetometer obtain, the current temporal information i.e. local time of automobile Location.Obtaining at least one After the positional information of individual destination object, first can be incided according to the positional information of Part I destination object and sunlight Incident direction on partial objectives for object determines corresponding transmission region.Transmission region can be to incide Part I destination object On the intersecting area of sunlight and vehicle window.

Three of the above determines that the mode of transmission region can be used separately, it is also possible to combine use.Determine transparent area The mode in territory is not limited to this.

In order to determine transmission region more targetedly, after determining corresponding transmission region, it is also possible at transparent area First area is determined on territory.First area occupies the subregion of transmission region.

As a example by any one destination object in Part I destination object, introduce a kind of side determining first area Formula: be sequentially adjusted in the transparency of each subregion divided in advance on transmission region by preset direction, and detect in adjustment every time After transparency, the reflective light intensity after being reflected by Zone Full on this destination object or subregion (such as face or eye), If testing result is that to adjust the reflective light intensity of this destination object Zone Full or subregion after transparency transparent less than adjusting The Zone Full of degree this destination object front or the reflective light intensity of subregion, then the subregion being adjusted transparency belongs to first Region.First area can include at least one subregion, and can be the whole districts inciding Part I destination object The incident sunlight of territory or subregion and the intersecting area of vehicle window.

In embodiments of the present invention, vehicle window can use the material that can adjust transparency to make, such as at common vehicle window Covering the liquid crystal film that conductive polymeric material is made on glass, when logical upper alternating current, liquid crystal structure arrangement makes vehicle window become in order For transparent, the light outside car can directly be shining in car, once closes power supply, and liquid crystal structure becomes unordered, and glass for vehicle window becomes Opaque state, to stop the light outside car.Certainly, the mode adjusting vehicle window transparency is not limited to this, and glazing material does not limits In liquid crystal material.

In the embodiment of the present invention, when the reflective light intensity after destination object reflects is more than predetermined threshold value, by adjusting and mesh The transparency of the transmission region that mark object is corresponding, can reduce the incident intensity inciding on destination object by transmission region, Provide a kind of reasonable light shading method, and adjust incident intensity by adjusting the transparency of transmission region, the knot of adjustment Fruit is relatively more accurate, and the experience brought to user is preferable.

Referring to Fig. 2, based on same inventive concept, the embodiment of the present invention provides the first incident intensity to control equipment, should Incident intensity controls equipment and includes:

Memorizer 201, is used for storing instruction；

Processor 202, for calling the instruction of memorizer 201 storage:

Obtain the positional information of destination object；

Detect the reflective light intensity after being reflected by destination object；

If reflective light intensity is more than predetermined threshold value, according to positional information, determine corresponding transmission region, adjust transmission region Transparency, incides the incident intensity on described destination object to reduce by transmission region.

Wherein, the wearing that processor 202 can be worn by photographic head or sensor (such as gravity sensor) or user Get parms at least one equipment in formula equipment (such as intelligent watch or Intelligent bracelet etc.) information, so that it is determined that target pair As, and obtain the positional information of destination object.

Wherein, processor 202 can pass through photographic head or detect equipment such as by special light-intensity test equipment or light The detection reflective light intensity such as light sensor.

The quantity of memorizer 201 can be one or more.Memorizer 201 can include read only memory (Read Only Memory, ROM), random access memory (Random Access Memory, RAM) or disk memory.Processor 202 can To include general central processing unit (Central Processing Unit, CPU), or can include that application-specific is integrated Circuit (Application Specific Integrated Circuit, ASIC), or can include one or more for The integrated circuit that control program performs.

Wherein, memorizer 201 can be connected with processor 202 by Special-purpose connecting line, or memorizer 201 can also lead to Crossing bus 203 to be connected with processor 202, Fig. 2 is as a example by connecting by bus 203.

Optionally, processor 202 is additionally operable to:

Obtain the front orientation information of destination object；Front orientation information for indicate destination object front towards Direction；

Processor 202, according to positional information, determines corresponding transmission region, can be accomplished by:

Positional information according to destination object and front orientation information, determine corresponding transmission region.

Optionally, processor 202, according to the positional information of destination object and front orientation information, determines corresponding transparent area After territory, it is additionally operable to:

Transmission region determines first area；First area occupies the subregion of transmission region；

Processor 202 adjusts the transparency of transmission region, can be accomplished by:

Adjust the transparency of first area.

Optionally, light source is the sun；Processor 202 is additionally operable to:

Obtain the direction of motion of destination object and current temporal information；

The direction of motion and current temporal information according to destination object calculate sunlight and incide the incidence side of destination object To；

Processor 202, according to positional information, determines corresponding transmission region, can be accomplished by:

According to positional information and incident direction, determine corresponding transmission region.

Optionally, transmission region is the part window on automobile, processor 202 obtain destination object positional information it Before,

Whether processor 202 exists destination object in being used for detecting automobile；Such as, processor 202 can utilize automobile Whether destination object is there is in gravity sensor detection automobile under built-in camera or each seat of being arranged in automobile；

Processor 202 obtains the positional information of destination object, specifically can be accomplished by:

If there is at least one destination object in automobile, obtain the target complete object at least one destination object or portion The positional information of partial objectives for object.

Optionally, after whether there is destination object in processor 202 detects automobile, processor 202 is additionally operable to:

If destination object does not exists, adjust the whole windows on automobile, so that all window is opaque.

Optionally, the target complete object in processor 202 obtains at least one destination object or partial target object Positional information before, processor 202 is additionally operable to:

If there is at least one destination object in automobile, it is judged that whether automobile is automatic Pilot state；

Processor 202 obtains the position letter of the target complete object at least one destination object or partial target object Breath, can be accomplished by:

If automobile is not automatic Pilot state, then obtain the target complete object at least one destination object or part mesh The positional information of mark object.

Optionally, after processor 202 judges whether automobile is automatic Pilot state, processor 202 is additionally operable to:

If automobile is automatic Pilot state, adjust the transparency of whole window, so that all window is opaque.

The first incident intensity provided due to the embodiment of the present invention controls equipment for performing the embodiment institute shown in Fig. 1 The incident intensity control method provided, each functional module therefore included for the first incident intensity control equipment is caned real Existing function and some realize process and refer to the description of the embodiment part shown in Fig. 1, do not repeat them here.

Referring to Fig. 3, based on same inventive concept, the embodiment of the present invention also provides for the second incident intensity and controls equipment, It can be same equipment that this incident intensity controls the incident intensity control equipment of equipment and the offer of the embodiment shown in Fig. 2, or Can also be different equipment.This incident intensity controls equipment and may include that

Acquisition module 301, for obtaining the positional information of destination object；

Detection module 302, the reflective light intensity after detection is reflected by destination object；

Determine module 303, for when reflective light intensity is more than predetermined threshold value, according to positional information, determining corresponding printing opacity Region；

Adjusting module 304, for adjusting the transparency of transmission region, incides destination object to reduce by transmission region On incident intensity.

Optionally, acquisition module 301 is additionally operable to obtain the front orientation information of destination object；Front orientation information is used for referring to Show destination object front towards direction；

Determine that module 303, according to positional information, determines corresponding transmission region, can be accomplished by:

Positional information according to destination object and front orientation information, determine corresponding transmission region.

Optionally, determine module 303 according to the positional information of destination object and front orientation information, determine corresponding thoroughly After light region, determine that module 303 is additionally operable to:

Transmission region determines first area；First area occupies the subregion of transmission region；

Adjusting module 304 adjusts the transparency of transmission region, can be accomplished by:

Adjust the transparency of first area.

Optionally, referring to Fig. 4, this equipment also includes computing module 305, and light source is the sun；

Acquisition module 301 is additionally operable to obtain the direction of motion of destination object and current temporal information；

Computing module 305 is additionally operable to the direction of motion according to destination object and current temporal information calculates sunlight and incides The incident direction of destination object；

Determine that module 303, according to positional information, determines corresponding transmission region, can be accomplished by:

According to positional information and incident direction, determine corresponding transmission region.

Optionally, transmission region is the part window on automobile, obtains the positional information of destination object at acquisition module 301 Before, whether detection module 302 exists destination object in being additionally operable to detect automobile；

Acquisition module 301 obtains the positional information of destination object, can be accomplished by:

If there is at least one destination object in automobile, obtain the target complete object at least one destination object or portion The positional information of partial objectives for object.

Optionally, after whether there is destination object in detection module 302 detects automobile, adjusting module is additionally operable to:

If destination object does not exists, adjust the whole windows on automobile, so that all window is opaque.

Optionally, referring to Fig. 5, this equipment also includes judge module 306, obtains at least one mesh at acquisition module 301 Before marking the positional information of the target complete object in object or partial target object, it is judged that module 306 is used for:

If there is at least one destination object in automobile, it is judged that whether automobile is automatic Pilot state；

Acquisition module 301 obtains the position letter of the target complete object at least one destination object or partial target object Breath, can be accomplished by:

If automobile is not automatic Pilot state, then obtain the target complete object at least one destination object or part mesh The positional information of mark object.

Optionally, after judge module 306 judges whether automobile is automatic Pilot state, adjusting module 304 is additionally operable to:

If automobile is automatic Pilot state, adjust the transparency of whole window, so that all window is opaque.

Optionally, acquisition module 301, detection module 302, determine module 303, adjusting module 404, computing module 305 and The entity device of judge module 306 correspondence may each be the processor 202 in Fig. 2.

The second incident intensity provided due to the embodiment of the present invention controls equipment for performing the embodiment institute shown in Fig. 1 The incident intensity control method provided, each functional module therefore included for the second incident intensity control equipment is caned real Existing function and some realize process and refer to the description of the embodiment part shown in Fig. 1, do not repeat them here.

Those skilled in the art is it can be understood that arrive, for convenience and simplicity of description, only with above-mentioned each function The division of module is illustrated, and in actual application, can distribute above-mentioned functions by different function lists as desired Unit completes, and the internal structure of device will be divided into different functional units, to complete all or part of merit described above Energy.The specific works process of the system of foregoing description, device and unit, the corresponding mistake being referred in preceding method embodiment Journey, does not repeats them here.

In several embodiments provided by the present invention, it should be understood that disclosed system, apparatus and method are permissible Realize by another way.Such as, device embodiment described above is only schematically, such as, described module or The division of unit, is only a kind of logic function and divides, and actual can have other dividing mode, the most multiple unit when realizing Or assembly can in conjunction with or be desirably integrated into another system, or some features can be ignored, or does not performs.Another point, institute The coupling each other shown or discuss or direct-coupling or communication connection can be by some interfaces, device or unit INDIRECT COUPLING or communication connection, can be electrical, machinery or other form.

The described unit illustrated as separating component can be or may not be physically separate, shows as unit The parts shown can be or may not be physical location, i.e. may be located at a place, or can also be distributed to multiple On NE.Some or all of unit therein can be selected according to the actual needs to realize the mesh of the present embodiment scheme 's.

It addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, it is also possible to It is that unit is individually physically present, it is also possible to two or more unit are integrated in a unit.Above-mentioned integrated list Unit both can realize to use the form of hardware, it would however also be possible to employ the form of SFU software functional unit realizes.

If described integrated unit realizes and as independent production marketing or use using the form of SFU software functional unit Time, can be stored in a computer read/write memory medium.Based on such understanding, technical scheme is substantially The part that in other words prior art contributed or this technical scheme completely or partially can be with the form of software product Embodying, this computer software product is stored in a storage medium, including some instructions with so that a computer Equipment (can be personal computer, server, or the network equipment etc.) or processor (processor) perform the present invention each All or part of step of method described in embodiment.And aforesaid storage medium includes: general serial bus USB (Universal Serial Bus flash disk), portable hard drive, read only memory (Read-Only Memory, ROM), Random access memory (Random Access Memory, RAM), magnetic disc or CD etc. are various can store program code Medium.

Specifically, the computer program instructions that a kind of incident intensity control method in the embodiment of the present invention is corresponding is permissible Be stored in CD, hard disk, on the storage medium such as general serial bus USB, when in storage medium with a kind of incident intensity When computer program instructions corresponding to control method is read by an electronic equipment or be performed, comprise the steps:

Obtain the positional information of destination object；

Detect the reflective light intensity after being reflected by destination object；

If reflective light intensity is more than predetermined threshold value, according to positional information, determine corresponding transmission region；

Adjust the transparency of transmission region, incided the incident intensity on destination object by transmission region to reduce.

Optionally, when the computer program instructions corresponding with a kind of incident intensity control method in storage medium is by an electricity When subset reads or is performed, also include:

Obtain the front orientation information of destination object；Front orientation information for indicate destination object front towards Direction；

In storage medium storage and step: according to positional information, determining corresponding transmission region, corresponding computer refers to Make among the process being performed, including:

Positional information according to destination object and front orientation information, determine corresponding transmission region.

Optionally, in storage medium storage and step: according to positional information and the front orientation information of destination object, really Fixed corresponding transmission region, corresponding computer instruction among the process being performed, including:

Positional information according to destination object and front orientation information, determine first area on transmission region；Firstth district Territory occupies the subregion of transmission region；

In storage medium storage and step: adjusting the transparency of transmission region, corresponding computer instruction is being performed Process among, including:

Adjust the transparency of first area.

Optionally, light source is the sun, when the computer journey corresponding with a kind of incident intensity control method in storage medium When sequence instruction is read by an electronic equipment or is performed, also include:

Obtain the direction of motion of destination object and current temporal information；

The direction of motion and current temporal information according to destination object calculate sunlight and incide the incidence side of destination object To；

According to positional information, determine corresponding transmission region, including:

According to positional information and incident direction, determine corresponding transmission region.

Optionally, transmission region is the part window on automobile, store in storage medium and step: obtain destination object Positional information, corresponding computer instruction before being executed, including:

Whether destination object is there is in detection automobile；

In storage medium storage and step: obtaining the positional information of destination object, corresponding computer instruction is being held Among the process of row, including:

If there is at least one destination object in automobile, obtain the target complete object at least one destination object or portion The positional information of partial objectives for object.

Optionally, store in storage medium and step: whether there is destination object, corresponding computer in detection automobile Instruction, after being performed, also includes:

If destination object does not exists, adjust the whole windows on automobile, so that all window is opaque.

Optionally, in storage medium storage and step: obtain the target complete object at least one destination object or The positional information of partial target object, corresponding computer instruction before being executed, also includes:

If there is at least one destination object in automobile, it is judged that whether automobile is automatic Pilot state；

In storage medium storage and step: obtain the target complete object at least one destination object or partial target The positional information of object, corresponding computer instruction among the process being performed, including:

If automobile is not automatic Pilot state, then obtain the target complete object at least one destination object or part mesh The positional information of mark object.

Optionally, store in storage medium and step: judge whether automobile is automatic Pilot state, corresponding computer Instruct after being performed, including:

If automobile is automatic Pilot state, adjust the transparency of whole window, so that all window is opaque.

Above example is only in order to be described in detail technical scheme, but the explanation of above example is only It is the method and core concept thereof being adapted to assist in and understanding the present invention, should not be construed as limitation of the present invention.The art Technical staff in the technical scope that the invention discloses, the change that can readily occur in or replacement, all should contain the guarantor in the present invention Within the scope of protecting.

Claims (10)

1. an incident intensity control method, described method includes:

Obtain the positional information of destination object；

Detect the reflective light intensity after being reflected by described destination object；

If described reflective light intensity is more than predetermined threshold value, according to described positional information, determine corresponding transmission region；

Adjust the transparency of described transmission region, incide the incidence on described destination object to reduce by described transmission region Light intensity.

2. the method for claim 1, it is characterised in that

Described method also includes:

Obtain the front orientation information of described destination object；Described front orientation information is for indicating the front of described destination object Towards direction；

According to described positional information, determine corresponding transmission region, including:

Positional information according to described destination object and described front orientation information, determine corresponding transmission region.

3. method as claimed in claim 2, it is characterised in that according to the positional information of described destination object and described just face To information, after determining corresponding transmission region, also include:

Described transmission region determines first area；Described first area occupies the subregion of described transmission region；

Adjust the transparency of described transmission region, including:

Adjust the transparency of described first area.

4. the method for claim 1, it is characterised in that described light source is the sun；

Described method also includes:

Obtain the direction of motion of described destination object and current temporal information；

The direction of motion and described current temporal information according to described destination object calculate sunlight and incide described destination object Incident direction；

According to described positional information, determine corresponding transmission region, including:

According to described positional information and described incident direction, determine corresponding transmission region.

5. the method as described in claim 1-4 is arbitrary, described transmission region is the part window on automobile, it is characterised in that

Before obtaining the positional information of destination object, also include:

Whether destination object is there is in detecting described automobile；

Obtain the positional information of destination object, including:

If there is at least one destination object in described automobile, obtain the target complete object at least one destination object described Or the positional information of partial target object.

6. method as claimed in claim 5, it is characterised in that after whether there is destination object in detecting described automobile, Also include:

If described destination object does not exists, adjust the whole windows on described automobile, so that described whole window is opaque.

7. method as claimed in claim 5, it is characterised in that the target complete in obtaining at least one destination object described Before the positional information of object or partial target object, also include:

If there is at least one destination object in described automobile, it is judged that whether described automobile is automatic Pilot state；

Obtain the target complete object at least one destination object described or the positional information of partial target object, including:

If described automobile is not automatic Pilot state, then obtain the target complete object at least one destination object described or portion The positional information of partial objectives for object.

8. method as claimed in claim 7, it is characterised in that after judging whether described automobile is automatic Pilot state, Also include:

If described automobile is automatic Pilot state, adjust the transparency of described whole window, so that described whole window is impermeable Bright.

9. incident intensity controls an equipment, including:

Memorizer, is used for storing instruction；

Processor, for calling the instruction of described memorizer storage, obtains the positional information of destination object, and detection is by described mesh Reflective light intensity after mark object reflection；If described reflective light intensity is more than predetermined threshold value, according to described positional information, determine corresponding Transmission region, adjusts the transparency of described transmission region, is incided on described destination object by described transmission region to reduce Incident intensity.

10. incident intensity controls an equipment, including:

Acquisition module, for obtaining the positional information of destination object；

Detection module, the reflective light intensity after detection is reflected by described destination object；

Determine module, for when described reflective light intensity is more than predetermined threshold value, according to described positional information, determining corresponding printing opacity Region；

Adjusting module, for adjusting the transparency of described transmission region, incides described mesh to reduce by described transmission region Incident intensity on mark object.