CN105955585A

CN105955585A - Display method for mobile terminal and mobile terminal

Info

Publication number: CN105955585A
Application number: CN201610383407.6A
Authority: CN
Inventors: 秦兴兴; 张恒莉
Original assignee: Vivo Mobile Communication Co Ltd
Current assignee: Vivo Mobile Communication Co Ltd
Priority date: 2016-05-31
Filing date: 2016-05-31
Publication date: 2016-09-21

Abstract

Embodiments of the invention provide a display method for a mobile terminal and the mobile terminal. The method comprises the steps of detecting light characteristic information of an environment where the mobile terminal is; according to the light characteristic information, identifying environment information of the environment where the mobile terminal is; calculating target display parameters matched with the environment information, wherein the target display parameters at least include one or more of saturability, color temperature and brightness; and adjusting a display mode of the mobile terminal according to the target display parameters. According to the display method for the mobile terminal, provided by the embodiment of the invention, on one hand, the display mode of the mobile terminal is adjusted through environment self-adaptation, a mask with a warm color is not added in a display interface, and a screen does not need to be filmed, so that the display effect in the environment can be ensured; and on the other hand, the display is performed through the environment self-adaptation, so that the utilization rate of display performance is increased, the attributes, such as the intensity, the component and the like, of blue light can be reduced, and the filtration of the blue light is realized.

Description

The display packing of a kind of mobile terminal and mobile terminal

Technical field

The present invention relates to communication technical field, particularly relate to display packing and the movement of a kind of mobile terminal Terminal.

Background technology

In most mobile terminal, it is equipped with display screen, is used for showing view data, in display Time, usual display screen can send blue light.In natural light, wavelength is that the high-energy of 400-500 nanometer is short Ripple blue light can penetrate crystalline lens and go directly retina, and blue light illumination retina can produce free radical, and this A little free radicals can cause retinal pigment epithelium to become feeble and die, and the decline of epithelial cell can cause photaesthesia Cell lacks nutrient thus causes vision impairment, and these damages are all irreversible, therefore blue light Injury for human eye is bigger.

User brings easily simultaneously at enjoyment mobile terminal, and eyes are also by blue light the most virtually The injury brought.At present, filter blue light the most in the following way: first kind of way, aobvious at screen Show in interface, add the masking-out of last layer warm colour；The second way, pad pasting on screen.The first side In formula, the details of display can become unintelligible, causes color distortion very big, and display effect is poor.? In the second way, not only increase hardware cost, and but cannot close user wants and closes when Closing, not closing then can be when sunray be strong at noon, and brightness is on the low side, and display effect is relatively Difference.

Summary of the invention

The embodiment of the present invention provides the display packing of a kind of mobile terminal, to solve existing to filter blue light Scheme hardware cost is high, the problem of display effect difference.

First aspect, it is provided that the display packing of a kind of mobile terminal, described method includes:

The light characteristic information of detection mobile terminal local environment；

According to described smooth characteristic information, identify the environmental information of described mobile terminal local environment；

Calculate the target display parameters mated with described environmental information, wherein, described target display parameters At least include in saturation, colour temperature, brightness is one or more；

The display mode of described mobile terminal is adjusted according to described target display parameters.

Second aspect, it is provided that a kind of mobile terminal, it is characterised in that including:

Light characteristic information detection module, for detecting the light characteristic information of mobile terminal local environment；

Environmental information identification module, for according to described smooth characteristic information, identifies residing for described mobile terminal The environmental information of environment；

Target display parameters computing module, for calculating the target display ginseng mated with described environmental information Number, wherein, it is one or more that described target display parameters at least include in saturation, colour temperature, brightness；

Display module, for adjusting the display side of described mobile terminal according to described target display parameters Formula.

So, in the embodiment of the present invention, by detecting the light characteristic information of mobile terminal local environment, know The environmental information of other mobile terminal local environment, calculates the target display ginseng mated with environmental information with this Number, adjusts the display of screen, it is possible to realizes the self adaptation to environment and shows adjustment, on the one hand, be adaptive Answer environment to adjust the display mode of mobile terminal, and in display interface, do not add the illiteracy of warm colour Version, it is not required that pad pasting on screen, it is ensured that display effect in the present context, the opposing party Face, adaptive environment shows, improves the utilization rate of display performance, it is possible to reduce blue light strong The attributes such as degree, component, it is achieved that the filtration of blue light.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, below by the embodiment of the present invention In description, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only It is only some embodiments of the present invention, for those of ordinary skill in the art, is not paying creativeness On the premise of laborious, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the flow chart of the display packing embodiment of a kind of mobile terminal of the present invention；

Fig. 2 is the flow chart of another embodiment of display packing of a kind of mobile terminal of the present invention；

Fig. 3 is the structured flowchart of a kind of mobile terminal of the present invention；

Fig. 4 is the block diagram of the environmental information identification module in the mobile terminal embodiment of the present invention；

Fig. 5 is the block diagram of the light characteristic range inquiry submodule in the mobile terminal embodiment of the present invention；

Fig. 6 is the block diagram of the target display parameters computing module in the mobile terminal embodiment of the present invention；

Fig. 7 is the frame of the target display parameters range computation submodule in the mobile terminal embodiment of the present invention Figure；

Fig. 8 is the block diagram that the target display parameters in the mobile terminal embodiment of the present invention determine submodule；

Fig. 9 is the block diagram of the display module in the mobile terminal embodiment of the present invention；

Figure 10 A and Figure 10 B is that the display parameters difference in the mobile terminal embodiment of the present invention divides son The block diagram of module；

Figure 11 is the block diagram of the mobile terminal of another embodiment of the present invention；

Figure 12 is the structural representation of the mobile terminal of another embodiment of the present invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is entered Row clearly and completely describes, it is clear that described embodiment is a part of embodiment of the present invention, and It is not all, of embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art are not having Make the every other embodiment obtained under creative work premise, broadly fall into the model of present invention protection Enclose.

First embodiment

With reference to Fig. 1, it is shown that the flow chart of the display packing embodiment of a kind of mobile terminal of the present invention, Specifically may include steps of:

Step 101, the light characteristic information of detection mobile terminal local environment.

In implementing, the embodiment of the present invention can be applied in the terminal, such as, mobile phone, Panel computer, personal digital assistant, wearable device (such as glasses, wrist-watch etc.) etc..

The operating system of these mobile terminals can include Android (Android), IOS, Windows Phone, Windows etc..

In embodiments of the present invention, mobile terminal can be configured with photographic head camera, sensor sensor Deng element, to detect the light characteristic information of mobile terminal local environment.

Wherein, light characteristic information can be the data of the feature characterizing light, such as, photosensitive, color Temperature, brightness etc..

It should be noted that this light can be nature light, it is also possible to for non-natural light, such as light, This is not any limitation as by the embodiment of the present invention.

Step 102, according to described smooth characteristic information, identifies the environment letter of described mobile terminal local environment Breath.

In implementing, under varying environment, the feature of light is different, therefore, by mobile whole The light characteristic information of end local environment, can identify the environment residing for mobile terminal, and this environment is with ring Environment information characterizes, such as ID.

Such as, out of doors direct sunlight, the non-direct projection of outdoors sunlight, indoor, night or dark situation this Under environment, photosensitive value is gradually reduced, and the photosensitive value of each environment is floated within the specific limits, passes through Photosensitive value, can identify the described mobile terminal local environment of identification.

The most such as, out of doors direct sunlight, the non-direct projection of outdoors sunlight, indoor, night or dark situation this Under individual environment, brightness value is gradually reduced, and the brightness value of each environment floats within the specific limits, logical Cross brightness value, the environment identified residing for described mobile terminal can be identified.

Certainly, above-mentioned smooth characteristic information is intended only as example, when implementing the embodiment of the present invention, permissible Arranging other light characteristic informations according to practical situation, this is not any limitation as by the embodiment of the present invention.Separately Outward, in addition to above-mentioned smooth characteristic information, those skilled in the art can also use it according to actual needs Its light characteristic information, this is not any limitation as by the embodiment of the present invention.

It should be noted that the light characteristic information such as photosensitive, colour temperature, brightness can individually be identified, Can also combine in any way and be identified, this is not any limitation as by the embodiment of the present invention.

Step 103, calculates the target display parameters mated with described environmental information.

Target display parameters, belong to display parameters, and i.e. for adjusting the parameter that screen shows, target is For current environment.

In implementing, these display parameters can include saturation, is chroma divided by lightness Value, characterizes the color deviation degree with brightness Lycoperdon polymorphum Vitt；These display parameters can include colour temperature, i.e. represents light The index that source spectral quality is the most general；These display parameters can include brightness, i.e. refers to luminous body (refractive body) The physical quantity that surface light emitting (reflective) is strong and weak.

Certainly, above-mentioned display parameters are intended only as example, when implementing the embodiment of the present invention, and Ke Yigen Arranging other display parameters according to practical situation, this is not any limitation as by the embodiment of the present invention.It addition, remove Outside above-mentioned display parameters, those skilled in the art can also use other display ginseng according to actual needs Number, this is not any limitation as by the embodiment of the present invention.

Step 104, adjusts the display mode of described mobile terminal according to described target display parameters.

In embodiments of the present invention, target display parameters can be stored to specific memorizer, with Be easy to other modules according in this memorizer storage target display parameters, the display mode of screen is entered Row sum-equal matrix, so that the display effect of screen is adaptive with the environment being presently in.

Second embodiment

With reference to Fig. 2, it is shown that the stream of another embodiment of the display packing of a kind of mobile terminal of the present invention Cheng Tu, specifically may include steps of:

Step 201, the light characteristic information of detection mobile terminal local environment.

In one example, mobile terminal can configure light sensor sensor, detects mobile terminal institute The photosensitive value of place's environment.Mobile terminal can configure color temperature sensor sensor, residing for detection mobile terminal The color temperature value of environment.Mobile terminal can configure photographic head camera, detection mobile terminal local environment Brightness value.

Step 202, calculates the light characteristic range that described smooth characteristic information is corresponding.

In embodiments of the present invention, multiple environment can be marked off, accordingly, can be to every kind of light spy Reference breath can arrange multiple smooth characteristic range, and each smooth characteristic range can characterize to a certain extent Go out the feature of environment.

Using photosensitive value as the example of light characteristic information, out of doors in the environment of direct sunlight, photosensitive value General up to 10000～100000lux；Not having out of doors in the environment of direct sunlight, photosensitive value typically may be used Reach 1000～10000lux；In indoor environment, photosensitive value is typically up to 100～1000lux；Night Or dark situation, photosensitive value is typically up to 0～100lux.

Therefore, in this example, light characteristic range can include the first photosensitive scope (alternatively, as 10000～100000lux), the second photosensitive scope (alternatively, such as 1000～10000lux), the 3rd light Quick scope (alternatively, such as 100～1000lux), the 4th photosensitive scope (alternatively, such as 0～100lux) In one or more.

Wherein, the photosensitive value in the first photosensitive scope more than the photosensitive value in the second photosensitive scope, second Photosensitive value in photosensitive scope is more than the photosensitive value in the 3rd photosensitive scope, the light in the 3rd photosensitive scope Quick value is more than the photosensitive value in the 4th photosensitive scope.

Step 203, according to the corresponding relation between default light characteristic information and environmental information, determines institute State the environmental information that target light characteristic range is corresponding, and by environment letter corresponding for described target light characteristic range Breath is defined as the environmental information of described mobile terminal local environment.

Environmental information includes that first environment type (such as outdoors sunlight direct projection), second environment type are (such as family There is no outward direct sunlight), the 3rd environmental form (such as indoor), the 4th environmental form (such as night or Dark situation) in one or more.

Wherein, the first photosensitive scope correspondence first environment type, the second photosensitive scope correspondence second environment class Corresponding 3rd environmental form of type, the 3rd photosensitive scope, corresponding 4th environmental form of the 4th photosensitive scope.

In oneainstance, when photosensitive value belong to the first photosensitive scope (alternatively, as 10000～100000lux) time, right according between default the first photosensitive scope and first environment type Should be related to, determine that mobile terminal local environment is first environment type (such as outdoors sunlight direct projection).

In another scenario, when photosensitive value belong to the second photosensitive scope (alternatively, as 1000～10000lux) time, corresponding according between the second default photosensitive scope and second environment type Relation, determines that mobile terminal local environment is second environment type (as open air does not has direct sunlight).

In another scenario, when photosensitive value belong to the 3rd photosensitive scope (alternatively, as 100～1000lux) time, according to the corresponding pass between the 3rd default photosensitive scope and the 3rd environmental form System, determines that mobile terminal local environment is the 3rd environmental form (such as indoor).

In another scenario, the 4th photosensitive scope (alternatively, such as 0～100lux) is belonged to when photosensitive value Time, according to the corresponding relation between default the 4th photosensitive scope and the 4th environmental form, determine mobile whole End local environment is the 4th environmental form (such as night or dark situation).

Certainly, above-mentioned smooth characteristic range and environmental information are intended only as example, and light characteristic range can wrap Include but be not limited to the scope enumerated in the embodiment of the present invention, when implementing the embodiment of the present invention, Ke Yigen Arranging other light characteristic range and environmental informations according to practical situation, this is not limited by the embodiment of the present invention System.It addition, in addition to above-mentioned smooth characteristic range and environmental information, those skilled in the art can also root According to being actually needed employing other light characteristic range and environmental information, the embodiment of the present invention is to this most in addition Limit.

Step 204, calculates the target display parameters scope that described environmental information is corresponding.

In embodiments of the present invention, can mark off according to the kind of environment and be suitable to carry out in this context The span of the display parameters of display, i.e. target display parameters scope.

In implementing, target display parameters can include one in saturation, colour temperature, brightness Or it is multiple.

If environmental information include first environment type (such as outdoors sunlight direct projection), second environment type (as Open air does not has direct sunlight), the 3rd environmental form (such as indoor), the 4th environmental form (such as night or Person's dark situation) in one or more.

For saturation, target display parameters scope can include the first saturation scope (alternatively, as The 81% of initial saturation scope～100%), the second saturation scope is (alternatively, such as initial saturation The 61% of scope～80%), the 3rd saturation scope is (alternatively, such as initial saturation scope 51%～60%), the 4th saturation scope (alternatively, such as 40%～the 50% of initial saturation scope) In one or more.

In actual applications, initial saturation can be stored in specific memorizer, each to calculate The value of saturation scope.

Wherein, the intensity value in the first saturation scope is more than the saturation in the second saturation scope Value, the intensity value in the second saturation scope is more than the intensity value in the 3rd saturation scope, the Intensity value in three saturation scopes is more than the intensity value in the 4th saturation scope.

For colour temperature, target display parameters scope can include the first reference color temperature (alternatively, as 10001～13000K), the second reference color temperature (alternatively, such as 8001～10000K), tertiary color Wen Fan Enclose in (alternatively, such as 5001～8000K), the 4th reference color temperature one or more (alternatively, Such as 2000～5000K).

Wherein, the color temperature value in the first reference color temperature more than the color temperature value in the second reference color temperature, second Color temperature value in reference color temperature is more than the color temperature value in tertiary color temperature scope, the color in tertiary color temperature scope Temperature value is more than the color temperature value in the 4th reference color temperature.

For brightness, target display parameters scope can include that the first brightness range is (alternatively, as shown Show the 61～100% of brightness), the second brightness range (alternatively, as can display brightness 46～60%), 3rd brightness range (alternatively, as can display brightness 21～45%), the 4th brightness range (optional Ground, as can display brightness 0～20%) in one or more.

In actual applications, can be stored in specific memorizer by display brightness, each to calculate The value of brightness range.

Wherein, the brightness value in the first brightness range more than the brightness value in the second brightness range, second Brightness value in brightness range more than the brightness value in the 3rd brightness range, bright in the 3rd brightness range Angle value is more than the brightness value in the 4th brightness range.

It should be noted that target display parameters scope can be set according to practical situation, example The mobile terminal that normally uses in indoor environment as more in, user, can basis during indoor environment Colour temperature is set to about 7000K by the hobby of Chinese user；Colour temperature can set the upper limit, the most supercool color Temperature can cause significantly showing partially blue, etc., this is not any limitation as by the embodiment of the present invention.

In oneainstance, when environmental information is first environment type (such as outdoors sunlight direct projection), really The display parameters scope that sets the goal is that the first saturation scope is (alternatively, such as initial saturation scope 81%～100%), the first reference color temperature (alternatively, such as 10001～13000K), the first brightness range (alternatively, as can display brightness 61～100%) in one or more.

In another scenario, it is second environment type (as open air does not has direct sunlight) when environmental information Time, determine that target display parameters scope is that the second saturation scope is (preferably, such as initial saturation scope 61%～80%), the second reference color temperature (alternatively, such as 8001～10000K), the second brightness model Enclose (alternatively, as can display brightness 46～60%) in one or more.

In another scenario, when environmental information is the 3rd environmental form (such as indoor), target is determined Display parameters scope is that the 3rd saturation scope is (preferably, such as initial saturation scope 51%～60%), tertiary color temperature scope (preferably, 5001～8000K), the 3rd brightness range are (excellent Choosing, as can display brightness 21～45%) in one or more.

In another scenario, it is the 4th environmental form (such as night or dark situation) when environmental information Time, determine that target display parameters scope is the 4th saturation scope (preferred such as initial saturation scope , 40%～50%), the 4th reference color temperature (preferably, 2000～5000K), the 4th brightness range (preferably, as can display brightness 0～20%) in one or more.

Certainly, above-mentioned target display parameters scope is intended only as example, and target display parameters scope is permissible Including but not limited to the scope enumerated in the embodiment of the present invention, when implementing the embodiment of the present invention, permissible Arranging other target display parameters scopes according to practical situation, this is not limited by the embodiment of the present invention System.It addition, in addition to above-mentioned target display parameters scope, those skilled in the art can also be according to reality Border needs to use other target display parameters scope, and this is not any limitation as by the embodiment of the present invention.

Step 205, determines target display parameters in the range of described target display parameters.

In embodiments of the present invention, (i.e. the value of light characteristic information is at light characteristic range can to pass through equal proportion Ratio, target display parameters are in the ratio of target display parameters scope), slope be positive curvilinear function Etc. making a false countercharge, in the range of target display parameters, calculate target display parameters so that target display parameters with Light characteristic information positive correlation, the i.e. value of light characteristic information are the highest, and the value of target display parameters is the biggest, instead It, the value of light characteristic information is the lowest, and the value of target display parameters is the least.

In oneainstance, when environmental information is first environment type (such as outdoors sunlight direct projection), Saturation is calculated in first saturation scope (preferably, such as 81%～the 100% of initial saturation scope) It is worth, in the first reference color temperature (alternatively, such as 10001～13000K), calculates color temperature value, first Brightness range (alternatively, as can display brightness 61～100%) in calculate brightness value.

In another scenario, it is second environment type (as open air does not has direct sunlight) when environmental information Time, calculate in the second saturation scope (alternatively, such as 61%～the 80% of initial saturation scope) Intensity value, in the second reference color temperature (alternatively, such as 8001～10000K) calculate color temperature value, Second brightness range (alternatively, as can display brightness 46～60%) in calculate brightness value.

In another scenario, when environmental information is the 3rd environmental form (such as indoor), satisfy the 3rd With calculating intensity value in degree scope (alternatively, such as 51%～the 60% of initial saturation scope), Calculate in tertiary color temperature scope (alternatively, 5001～8000K) color temperature value, (can in the 3rd brightness range Selection of land, as can display brightness 21～45%) in calculate brightness value.

In another scenario, it is the 4th environmental form (such as night or dark situation) when environmental information Time, calculate in the 4th saturation scope (alternatively, such as 40%～the 50% of initial saturation scope) Intensity value, calculate color temperature value in the 4th reference color temperature (alternatively, 2000～5000K), the 4th Brightness range (alternatively, as can display brightness 0～20%) in calculate brightness value；Wherein, saturation Value is believed with light feature with light characteristic information positive correlation, brightness value with light characteristic information positive correlation, color temperature value Breath positive correlation.

Using photosensitive value as the example of light characteristic information, photosensitive value is the highest, intensity value, color temperature value and Brightness value is the biggest, otherwise, photosensitive value is the lowest, and intensity value, color temperature value and brightness value are the least.

Certainly, the calculation of above-mentioned target display parameters is intended only as example, real implementing the present invention When executing example, can arrange the calculation of other target display parameters according to practical situation, the present invention is real Execute example this is not any limitation as.It addition, in addition to the calculation of above-mentioned target display parameters, ability Field technique personnel can also use the calculation of other target display parameters according to actual needs, this This is not any limitation as by bright embodiment.

Step 206, adjusts the display mode of described mobile terminal according to described target display parameters.

In embodiments of the present invention, can be adjusted according to these target display parameters so that screen Display is adaptive with current environment.

Such as, for colour temperature, red (R), green (G) of screen, blue (B) component can be adjusted Ratio, obtains a new white point chromaticity coordinates, uses this chromaticity coordinates, calculate new colour temperature.

The most such as, for saturation, screen red (R), green (G), blue (B) component can be adjusted The ratio of saturation part, i.e. saturation, thus can control the change of screen saturation.

The most such as, for brightness, owing to there being two kinds of screens at present, use OLED (Organic Light-Emitting Diode, Organic Light Emitting Diode) screen (abbreviation OLED screen) of technology and LCD The screen (abbreviation LCD screen) of (Liquid Crystal Display, liquid crystal display) technology, OLED Screen is self luminous screen, can go to regulate brightness by the way of controlling voltage；And LCD screen is to have the back of the body Light module, can be by controlling the PWM of backlight IC (integrated circuit, integrated circuit) The output duty cycle of (Pulse Width Modulation, pulse bandwidth is modulated) ripple regulates the height of brightness Low (dutycycle is the highest, and brightness is the highest).

In implementing, the display parameters of current mobile terminal display screen can be obtained, obtain original aobvious Show parameter, calculate the difference of target display parameters and currently displaying parameter, obtain display parameters difference, will Display parameters difference divides, and obtains many sub-display parameters differences, according to default time interval, With original display parameter as radix, increase many sub-display parameters differences successively, until original display being joined Number adjusts to target display parameters, prevents the display effect of screen from suddenling change, and improves Consumer's Experience.

Assume that original display parameter is X₀, target display parameters are X₁, display parameters difference is Δ X=X₁-X₀。

Δ X is divided into n part (n is positive integer) sub-display parameters difference, respectively Δ X₁、Δ X₂、…、ΔX_n, in adjusting time T, according to the time every T/n, at X₀On the basis of point Zeng Jia Δ X₁、ΔX₂、…、ΔX_n, i.e. X₁=X₀+ΔX₁+ΔX₂+…+ΔX_n, in this way Realize gradual change.

Wherein, the mode that sub-display parameters difference divides, generally comprise two kinds:

1, equivalent cutting

In the manner, described display parameters difference is divided into multiple equal portions, obtains multiple value equal Sub-display parameters difference.

In actual applications, for the display parameters such as saturation, colour temperature, use equivalent cutting (also known as all Point) mode make conversion equilibrium, better user experience.

2, non-equivalence cutting

In the manner, according to critical display parameters, display parameters difference is carried out division and obtain many height Display parameters difference；Wherein, critical display parameters are to increase by one on the basis of original display parameter Or the display parameters that many sub-display parameters differences are obtained.Further, critical display parameters and son display ginseng Number difference positive correlation, the most critical display parameters are the lowest, and sub-display parameters difference is the least, otherwise, critical Display parameters are the highest, and sub-display parameters difference is the biggest.

In actual applications, for display parameters such as brightness, due to the value of display parameters relatively low time Waiting, human eye is more sensitive to the change of display parameters, and sub-display parameters difference value can be less, allows User will not perceive display parameters sudden change during display parameters change.And at display parameters The when of being worth higher, human eye is the most less sensitive to the change of display parameters, and sub-display parameters are poor Value can be bigger.

So, in the embodiment of the present invention, by brightness, colour temperature, saturation are adjusted:

For the adjustment of brightness, reduce brightness and be effectively reduced the intensity of blue light.

For the adjustment of colour temperature, owing to screen color performance is by red (R), green (G), blue (B) three Plant color component composition, blue (B) component in the performance of current screen color can be efficiently reduced, and It is allowed to present the performance that colour temperature warms, it is also possible to effectively reduce blue light strength.

For the adjustment of saturation, the first coordinates when brightness and colour temperature change, and coordinates display effect The needs of fruit；It two is too high saturation, deposits in its color representation generally not true nature circle , it is distortion, the high saturated display of viewing, the most dazzling for a long time, easily produces and regards Feel tired, therefore, while brightness adjustment, saturation can be dynamically adjusted, it is thus achieved that preferably Display effect, slows down visual fatigue, allows user obtain a more comfortable display effect and experiences.

During adjusting the display parameters such as saturation, colour temperature, brightness, if directly using a step The method being adjusted in place, may cause the display effect of screen to be suddenlyd change, affect Consumer's Experience, therefore, The embodiment of the present invention can be to take the adjustment mode of gradual change step by step.

It should be noted that for embodiment of the method, in order to be briefly described, therefore it is all expressed as one The combination of actions of series, but those skilled in the art should know, and the embodiment of the present invention is not by institute The restriction of the sequence of movement described, because according to the embodiment of the present invention, some step can use other Sequentially or carry out simultaneously.Secondly, those skilled in the art also should know, described in the specification Embodiment belong to preferred embodiment, the involved action not necessarily embodiment of the present invention is musted Must.

3rd embodiment

With reference to Fig. 3, it is shown that the structured flowchart of a kind of mobile terminal of the present invention, this mobile terminal 300 Specifically can include such as lower module:

Light characteristic information detection module 301, for detecting the light characteristic information of mobile terminal local environment.

Environmental information identification module 302, for according to described smooth characteristic information, identifies described mobile terminal The environmental information of local environment.

Target display parameters computing module 303, shows for calculating the target mated with described environmental information Parameter, wherein, described target display parameters at least include in saturation, colour temperature, brightness or many Individual.

Display module 304, for adjusting the display side of described mobile terminal according to described target display parameters Formula.

In one preferred embodiment of the invention, with reference to the frame of the environmental information identification module shown in Fig. 4 Figure, described environmental information identification module 302 can include following submodule further:

Light characteristic range calculating sub module 3021, for calculating the target light that described smooth characteristic information is corresponding Characteristic range.

Light characteristic range determines submodule 3022, for according to the light characteristic information preset and environmental information Between corresponding relation, determine the environmental information that described target light characteristic range is corresponding, and by described target The environmental information that light characteristic range is corresponding is defined as the environmental information of described mobile terminal local environment.

In implementing, when described smooth characteristic information includes photosensitive value, described smooth characteristic range includes First photosensitive scope, the second photosensitive scope, the 3rd photosensitive scope and the 4th photosensitive scope；Described environment is believed Breath includes first environment type, second environment type, the 3rd environmental form and the 4th environmental form, its In, described first photosensitive scope, the second photosensitive scope, the 3rd photosensitive scope and the 4th photosensitive scope are respectively Corresponding described first environment type, second environment type, the 3rd environmental form and the 4th environmental form.

In one preferred embodiment of the invention, with reference to the light characteristic range inquiry submodule shown in Fig. 5 Block, described smooth characteristic range inquiry submodule 3022 can include further such as lower unit:

First environment type determining units 30221, for belonging to the first photosensitive scope in described photosensitive value Time, according to the corresponding relation between default the first photosensitive scope and first environment type, determine described shifting Dynamic terminal local environment is first environment type.

Second environment type determining units 30222, for belonging to the second photosensitive scope in described photosensitive value Time, according to the corresponding relation between default the second photosensitive scope and second environment type, determine described shifting Dynamic terminal local environment is second environment type.

3rd environmental form determines unit 30223, for belonging to the 3rd photosensitive scope in described photosensitive value Time, according to the corresponding relation between default the 3rd photosensitive scope and the 3rd environmental form, determine described shifting Dynamic terminal local environment is the 3rd environmental form.

4th environment type determining units 30224, for belonging to the 4th photosensitive scope in described photosensitive value Time, according to the corresponding relation between default the 4th photosensitive scope and the 4th environmental form, determine described shifting Dynamic terminal local environment is the 4th environmental form.

In one preferred embodiment of the invention, mould is calculated with reference to the target display parameters shown in Fig. 6 Block, described target display parameters computing module 303 can include following submodule:

Target display parameters range computation submodule 3031, for calculating the mesh that described environmental information is corresponding Mark display parameters scope.

Target display parameters determine submodule 3032, for determining in the range of described target display parameters Target display parameters, wherein, described target display parameters and described smooth characteristic information positive correlation.

In actual applications, described target display parameters scope include the first saturation scope, second satisfy With degree scope, the 3rd saturation scope, the 4th saturation scope.

Or described target display parameters scope includes the first reference color temperature, the second reference color temperature, tertiary color Temperature scope, the 4th reference color temperature；

Or described target display parameters scope includes the first brightness range, the second brightness range, the 3rd bright Degree scope, the 4th brightness range.

In one preferred embodiment of the invention, with reference to the target display parameters range computation shown in Fig. 7 Submodule, described target display parameters range computation submodule 3031 can include such as lower unit:

First scope determines unit 30311, is used for when described environmental information is first environment type, really Fixed described target display parameters scope is the first saturation scope, the first reference color temperature, the first brightness model Enclose.

Second scope determines unit 30312, is used for when described environmental information is second environment type, really Fixed described target display parameters scope is the second saturation scope, the second reference color temperature, the second brightness model Enclose.

3rd scope determines unit 30313, is used for when described environmental information is three environmental form, really Fixed described target display parameters scope is the 3rd saturation scope, tertiary color temperature scope, the 3rd brightness model Enclose.

4th scope determines unit 30314, is used for when described environmental information is four environmental form, really Fixed described target display parameters scope is the 4th saturation scope, the 4th reference color temperature, the 4th brightness model Enclose.

In one preferred embodiment of the invention, submodule is determined with reference to the target display parameters shown in Fig. 8 Block, described target display parameters determine that submodule 3032 can include such as lower unit:

First computing unit 30321, in the range of described first saturation calculate intensity value, Calculate color temperature value in described first reference color temperature, in described first brightness range, calculate brightness value.

Second computing unit 30322, in the range of described second saturation calculate intensity value, Calculate color temperature value in described second reference color temperature, in described second brightness range, calculate brightness value.

3rd computing unit 30323, in the range of described 3rd saturation calculate intensity value, Calculate color temperature value in the range of described tertiary color temperature, in described 3rd brightness range, calculate brightness value.

4th computing unit 30324, in the range of described 4th saturation calculate intensity value, Calculate color temperature value in described 4th reference color temperature, in described 4th brightness range, calculate brightness value.

Wherein, described intensity value and light characteristic information positive correlation, described color temperature value and described smooth feature Information positive correlation, described brightness value and described smooth characteristic information positive correlation.

In one preferred embodiment of the invention, with reference to the display module shown in Fig. 9, described display mould Block 304 can include following submodule:

Original display parameter acquiring submodule 3041, for obtaining the aobvious of presently described mobile terminal display screen Show parameter, obtain original display parameter.

Display parameters mathematic interpolation submodule 3042, be used for calculating described target display parameters with described currently The difference of display parameters, obtains display parameters difference.

Display parameters difference divides submodule 3043, for described display parameters difference is divided, To many sub-display parameters differences.

Display parameters difference is progressively increased submodule 3044, for according to default time interval, with described original Display parameters are radix, increase the plurality of sub-display parameters difference successively, until by described original display Parameter adjustment is to described target display parameters.

In one preferred embodiment of the invention, divide with reference to the display parameters difference shown in Figure 10 A Submodule, described display parameters difference divides submodule 3043 and can include such as lower unit further:

First division unit 30431, for described display parameters difference is divided into multiple equal portions, obtains The sub-display parameters difference that multiple values are equal.

In one preferred embodiment of the invention, divide with reference to the display parameters difference shown in Figure 10 B Submodule, described display parameters difference divides submodule 3043 and can include such as lower unit further:

Second division unit 30432, for carrying out described display parameters difference according to critical display parameters Division obtains many sub-display parameters differences, and wherein, described critical display parameters are described original aobvious Increase the display parameters that one or more sub-display parameters difference is obtained on the basis of showing parameter, described in face Boundary's display parameters and described sub-display parameters difference positive correlation.

Mobile terminal 300 is capable of each that mobile terminal in the embodiment of the method for Fig. 1 to Fig. 2 realizes Process, for avoiding repeating, repeats no more here.

4th embodiment

Figure 11 is the block diagram of the mobile terminal of another embodiment of the present invention.Mobile terminal shown in Figure 11 1100 include: at least one processor 1101, memorizer 1102, at least one network interface 1104 and User interface 1103.Each assembly in mobile terminal 1100 is coupling in one by bus system 1105 Rise.It is understood that bus system 1105 is for realizing the connection communication between these assemblies.Bus system 1105 in addition to including data/address bus, also includes power bus, controls bus and status signal bus in addition. But for the sake of understanding explanation, in fig. 11 various buses are all designated as bus system 1105.

Wherein, user interface 1103 can include display, keyboard or pointing device (such as, Mus Mark, trace ball (trackball), touch-sensitive plate or touch screen etc..

The memorizer 1102 being appreciated that in the embodiment of the present invention can be volatile memory or non-easily The property lost memorizer, maybe can include volatibility and nonvolatile memory.Wherein, non-volatile deposit Reservoir can be read only memory (Read-OnlyMemory, ROM), programmable read only memory (ProgrammableROM, PROM), Erasable Programmable Read Only Memory EPROM (ErasablePROM, EPROM), Electrically Erasable Read Only Memory (ElectricallyEPROM, EEPROM) or sudden strain of a muscle Deposit.Volatile memory can be random access memory (RandomAccessMemory, RAM), It is used as External Cache.By exemplary but be not restricted explanation, the RAM of many forms can With, such as static RAM (StaticRAM, SRAM), dynamic random access memory (DynamicRAM, DRAM), Synchronous Dynamic Random Access Memory (SynchronousDRAM, SDRAM), double data speed synchronous dynamic RAM (DoubleDataRate SDRAM, DDRSDRAM), enhancement mode Synchronous Dynamic Random Access Memory (Enhanced SDRAM, ESDRAM), synchronized links dynamic random access memory (SynchlinkDRAM, SLDRAM) and direct rambus random access memory (DirectRambusRAM, DRRAM).The memorizer 1102 of the system and method that the embodiment of the present invention describes is intended to include but does not limits In these and the memorizer of any other applicable type.

In some embodiments, memorizer 1102 stores following element, executable module or Data structure, or their subset, or their superset: operating system 11021 and application journey Sequence 11022.

Wherein, operating system 11021, comprise various system program, such as ccf layer, core library layer, Drive layer etc., be used for realizing various basic business and processing hardware based task.Application program 11022, comprise various application program, such as media player (MediaPlayer), browser (Browser) etc., it is used for realizing various applied business.The program realizing embodiment of the present invention method is permissible It is included in application program 11022.

In embodiments of the present invention, by calling program or the instruction of memorizer 1102 storage, specifically , can be program or the instruction of storage in application program 11022, processor 1101 is used for detecting shifting The light characteristic information of dynamic terminal local environment；According to described smooth characteristic information, identify described mobile terminal institute The environmental information of place's environment；Calculate the target display parameters mated with described environmental information, wherein, described It is one or more that target display parameters at least include in saturation, colour temperature, brightness；According to described target Display parameters adjust the display mode of described mobile terminal.

The method that the invention described above embodiment discloses can apply in processor 1101, or by processing Device 1101 realizes.Processor 1101 is probably a kind of IC chip, has the process energy of signal Power.During realizing, each step of said method can be by the collection of the hardware in processor 1101 The instruction becoming logic circuit or software form completes.Above-mentioned processor 1101 can be general procedure Device, digital signal processor (DigitalSignalProcessor, DSP), special IC (ApplicationSpecific IntegratedCircuit, ASIC), ready-made programmable gate array (FieldProgrammableGateArray, FPGA) or other PLDs, discrete gate Or transistor logic, discrete hardware components.Can realize or perform in the embodiment of the present invention Disclosed each method, step and logic diagram.General processor can be microprocessor or this at Reason device can also be the processor etc. of any routine.Step in conjunction with the method disclosed in the embodiment of the present invention Suddenly can be embodied directly in hardware decoding processor to have performed, or with the hardware in decoding processor And software module combination execution completes.Software module may be located at random access memory, flash memory, read-only deposits Reservoir, this area such as programmable read only memory or electrically erasable programmable memorizer, depositor becomes In ripe storage medium.This storage medium is positioned at memorizer 1102, and processor 1101 reads memorizer Information in 1102, completes the step of said method in conjunction with its hardware.

It is understood that the embodiment of the present invention describe these embodiments can use hardware, software, Firmware, middleware, microcode or a combination thereof realize.Realizing for hardware, processing unit can realize One or more special ICs (ApplicationSpecificIntegratedCircuits, ASIC), Digital signal processor (DigitalSignalProcessing, DSP), digital signal processing appts (DSPDevice, DSPD), programmable logic device (ProgrammableLogicDevice, PLD), Field programmable gate array (Field-ProgrammableGateArray, FPGA), general processor, control Device processed, microcontroller, microprocessor, for perform herein described function other electronic unit or In a combination thereof.

Software is realized, can by perform function described in the embodiment of the present invention module (such as process, Function etc.) realize the technology described in the embodiment of the present invention.Software code is storable in memorizer also Performed by processor.Memorizer can within a processor or realize outside processor.

Alternatively, processor 1101 is additionally operable to: calculate the target light feature that described smooth characteristic information is corresponding Scope；According to the corresponding relation between default light characteristic information and environmental information, determine described target light The environmental information that characteristic range is corresponding, and environmental information corresponding for described target light characteristic range is defined as The environmental information of described mobile terminal local environment.

Alternatively, when described smooth characteristic information includes photosensitive value, described smooth characteristic range includes the first light Quick scope, the second photosensitive scope, the 3rd photosensitive scope and the 4th photosensitive scope；Described environmental information includes First environment type, second environment type, the 3rd environmental form and the 4th environmental form, wherein, described First photosensitive scope, the second photosensitive scope, the 3rd photosensitive scope and the 4th photosensitive scope corresponding institute respectively State first environment type, second environment type, the 3rd environmental form and the 4th environmental form.

Alternatively, processor 1101 is additionally operable to: when described photosensitive value belongs to the first photosensitive scope, root According to the corresponding relation between default the first photosensitive scope and first environment type, determine described mobile terminal Local environment is first environment type；When described photosensitive value belongs to the second photosensitive scope, according to presetting The second photosensitive scope and second environment type between corresponding relation, determine ring residing for described mobile terminal Border is second environment type；When described photosensitive value belongs to three photosensitive scopes, according to the default the 3rd Corresponding relation between photosensitive scope and the 3rd environmental form, determines that described mobile terminal local environment is Three environmental forms；When described photosensitive value belongs to four photosensitive scopes, according to the 4th default photosensitive model Enclose the corresponding relation between the 4th environmental form, determine that described mobile terminal local environment is the 4th environment Type.

Alternatively, processor 1101 is additionally operable to: calculate the target display parameters that described environmental information is corresponding Scope；Determining target display parameters in the range of described target display parameters, wherein, described target shows Show parameter and described smooth characteristic information positive correlation.

Alternatively, described target display parameters scope includes the first saturation scope, the second saturation model Enclose, the 3rd saturation scope, the 4th saturation scope；Or described target display parameters scope includes Color temperature scope, the second reference color temperature, tertiary color temperature scope, the 4th reference color temperature；Or described target Display parameters scope includes the first brightness range, the second brightness range, the 3rd brightness range, the 4th bright Degree scope.

Alternatively, processor 1101 is additionally operable to: when described environmental information is first environment type, really Fixed described target display parameters scope is the first saturation scope, the first reference color temperature, the first brightness model Enclose；When described environmental information is second environment type, determine that described target display parameters scope is Two saturation scopes, the second reference color temperature, the second brightness range；When described environmental information is the 3rd ring During the type of border, determine that described target display parameters scope is the 3rd saturation scope, tertiary color Wen Fan Enclose, the 3rd brightness range；When described environmental information is four environmental form, determine that described target shows Show that parameter area is the 4th saturation scope, the 4th reference color temperature, the 4th brightness range.

Alternatively, processor 1101 is additionally operable to: calculate saturation in the range of described first saturation Value, calculating color temperature value, calculating brightness in described first brightness range in described first reference color temperature Value；Or in the range of described second saturation, calculate intensity value, count in described second reference color temperature Calculate color temperature value, in described second brightness range, calculate brightness value；Or in described 3rd saturation scope Interior calculating intensity value, in the range of described tertiary color temperature calculate color temperature value, at described 3rd brightness model Enclose interior calculating brightness value；Or in the range of described 4th saturation, calculate intensity value, the described 4th Calculate color temperature value in reference color temperature, in described 4th brightness range, calculate brightness value；

Alternatively, processor 1101 is additionally operable to: calculate saturation in the range of described first saturation Value, calculating color temperature value, calculating brightness in described first brightness range in described first reference color temperature Value；Or in the range of described second saturation, calculate intensity value, count in described second reference color temperature Calculate color temperature value, in described second brightness range, calculate brightness value；Or in described 3rd saturation scope Interior calculating intensity value, in the range of described tertiary color temperature calculate color temperature value, at described 3rd brightness model Enclose interior calculating brightness value；Or in the range of described 4th saturation, calculate intensity value, the described 4th Calculate color temperature value in reference color temperature, in described 4th brightness range, calculate brightness value；Wherein, described Intensity value and light characteristic information positive correlation, described color temperature value and described smooth characteristic information positive correlation, institute State brightness value and described smooth characteristic information positive correlation.

Alternatively, processor 1101 is additionally operable to: described display parameters difference is divided into multiple equal portions, Obtain the sub-display parameters difference that multiple value is equal.

Alternatively, processor 1101 is additionally operable to: according to critical display parameters by described display parameters difference Carrying out division and obtain many sub-display parameters differences, wherein, described critical display parameters are described former The display parameters that one or more sub-display parameters difference is obtained, institute is increased on the basis of beginning display parameters State critical display parameters and described sub-display parameters difference positive correlation.

Mobile terminal 1100 is capable of each process that in previous embodiment, mobile terminal realizes, for keeping away Exempt to repeat, repeat no more here.

5th embodiment

Figure 12 is the structural representation of the mobile terminal of another embodiment of the present invention.Specifically, Figure 12 In mobile terminal 1200 can be mobile phone, panel computer, personal digital assistant (PersonalDigital Assistant, PDA) or vehicle-mounted computer etc..

Mobile terminal 1200 in Figure 12 includes radio frequency (RadioFrequency, RF) circuit 1210, deposits Reservoir 1220, input block 1230, display unit 1240, processor 1260, voicefrequency circuit 1270, WiFi (WirelessFidelity) module 1280 and power supply 1290.

Wherein, input block 1230 can be used for receiving numeral or the character information of user's input, and produces The raw signal input relevant with the user setup of mobile terminal 1200 and function control.Specifically, originally In inventive embodiments, this input block 1230 can include contact panel 1231.Contact panel 1231, Also referred to as touch screen, can collect user thereon or neighbouring touch operation (such as user use finger, Any applicable object such as stylus or adnexa operation on contact panel 1231), and according to presetting Formula drive corresponding attachment means.Optionally, contact panel 1231 can include touch detecting apparatus With two parts of touch controller.Wherein, the touch orientation of touch detecting apparatus detection user, and examine Survey the signal that touch operation brings, transmit a signal to touch controller；Touch controller is from touching inspection Survey and on device, receive touch information, and be converted into contact coordinate, then give this processor 1260, And order that processor 1260 sends can be received and performed.Furthermore, it is possible to use resistance-type, electricity The polytypes such as appearance formula, infrared ray and surface acoustic wave realize contact panel 1231.Except contact panel 1231, input block 1230 can also include other input equipments 1232, other input equipments 1232 Physical keyboard, function key (such as volume control button, switch key etc.), rail can be included but not limited to One or more in mark ball, mouse, action bars etc..

Wherein, display unit 1240 can be used for the information that display is inputted or the letter being supplied to user by user Breath and the various menu interfaces of mobile terminal 1200.Display unit 1240 can include display floater 1241, optionally, LCD or Organic Light Emitting Diode can be used Forms such as (OrganicLight-EmittingDiode, OLED) configures display floater 1241.

It should be noted that contact panel 1231 can cover display floater 1241, formed and touch display screen, when This touch display screen detects thereon or after neighbouring touch operation, sends processor 1260 to really Determine the type of touch event, touching on display screen according to the type of touch event with preprocessor 1260 Corresponding visual output is provided.

Touch display screen and include Application Program Interface viewing area and conventional control viewing area.This application program The arrangement mode of interface display district and this conventional control viewing area does not limit, can be arranged above and below, Left-right situs etc. can distinguish the arrangement mode of two viewing areas.This Application Program Interface viewing area is permissible For showing the interface of application program.Each interface can comprise the icon of at least one application program And/or the interface element such as widget desktop control.This Application Program Interface viewing area can also be for not comprise The empty interface of any content.This conventional control viewing area is for showing the control that utilization rate is higher, example As, the application icon etc. such as settings button, interface numbering, scroll bar, phone directory icon.

Wherein processor 1260 is the control centre of mobile terminal 1200, utilizes various interface and circuit even Connect the various piece of whole mobile phone, be stored in the software in first memory 1221 by running or performing Program and/or module, and call the data being stored in second memory 1222, perform mobile terminal The various functions of 1200 and process data, thus mobile terminal 1200 is carried out integral monitoring.Optional , processor 1260 can include one or more processing unit.

In embodiments of the present invention, by call the software program stored in this first memory 1221 and/ Or the data in module and/or this second memory 1222, processor 1260 is used for detecting mobile terminal institute The light characteristic information of place's environment；According to described smooth characteristic information, identify described mobile terminal local environment Environmental information；Calculate the target display parameters mated with described environmental information, wherein, described target It is one or more that display parameters at least include in saturation, colour temperature, brightness；Show according to described target Show the display mode of mobile terminal described in parameter adjustment.

Alternatively, processor 1260 is additionally operable to: calculate the target light feature that described smooth characteristic information is corresponding Scope；According to the corresponding relation between default light characteristic information and environmental information, determine described target light The environmental information that characteristic range is corresponding, and environmental information corresponding for described target light characteristic range is defined as The environmental information of described mobile terminal local environment.

Alternatively, processor 1260 is additionally operable to: when described photosensitive value belongs to the first photosensitive scope, root According to the corresponding relation between default the first photosensitive scope and first environment type, determine described mobile terminal Local environment is first environment type；When described photosensitive value belongs to the second photosensitive scope, according to presetting The second photosensitive scope and second environment type between corresponding relation, determine ring residing for described mobile terminal Border is second environment type；When described photosensitive value belongs to three photosensitive scopes, according to the default the 3rd Corresponding relation between photosensitive scope and the 3rd environmental form, determines that described mobile terminal local environment is Three environmental forms；When described photosensitive value belongs to four photosensitive scopes, according to the 4th default photosensitive model Enclose the corresponding relation between the 4th environmental form, determine that described mobile terminal local environment is the 4th environment Type.

Alternatively, processor 1260 is additionally operable to: calculate the target display parameters that described environmental information is corresponding Scope；Determining target display parameters in the range of described target display parameters, wherein, described target shows Show parameter and described smooth characteristic information positive correlation.

Alternatively, processor 1260 is additionally operable to: when described environmental information is first environment type, really Fixed described target display parameters scope is the first saturation scope, the first reference color temperature, the first brightness model Enclose；When described environmental information is second environment type, determine that described target display parameters scope is Two saturation scopes, the second reference color temperature, the second brightness range；When described environmental information is the 3rd ring During the type of border, determine that described target display parameters scope is the 3rd saturation scope, tertiary color Wen Fan Enclose, the 3rd brightness range；When described environmental information is four environmental form, determine that described target shows Show that parameter area is the 4th saturation scope, the 4th reference color temperature, the 4th brightness range.

Alternatively, processor 1260 is additionally operable to: calculate saturation in the range of described first saturation Value, calculating color temperature value, calculating brightness in described first brightness range in described first reference color temperature Value；Or in the range of described second saturation, calculate intensity value, count in described second reference color temperature Calculate color temperature value, in described second brightness range, calculate brightness value；Or in described 3rd saturation scope Interior calculating intensity value, in the range of described tertiary color temperature calculate color temperature value, at described 3rd brightness model Enclose interior calculating brightness value；Or in the range of described 4th saturation, calculate intensity value, the described 4th Calculate color temperature value in reference color temperature, in described 4th brightness range, calculate brightness value；

Alternatively, processor 1260 is additionally operable to: calculate saturation in the range of described first saturation Value, calculating color temperature value, calculating brightness in described first brightness range in described first reference color temperature Value；Or in the range of described second saturation, calculate intensity value, count in described second reference color temperature Calculate color temperature value, in described second brightness range, calculate brightness value；Or in described 3rd saturation scope Interior calculating intensity value, in the range of described tertiary color temperature calculate color temperature value, at described 3rd brightness model Enclose interior calculating brightness value；Or in the range of described 4th saturation, calculate intensity value, the described 4th Calculate color temperature value in reference color temperature, in described 4th brightness range, calculate brightness value；Wherein, described Intensity value and light characteristic information positive correlation, described color temperature value and described smooth characteristic information positive correlation, institute State brightness value and described smooth characteristic information positive correlation.

Alternatively, processor 1260 is additionally operable to: described display parameters difference is divided into multiple equal portions, Obtain the sub-display parameters difference that multiple value is equal.

Alternatively, processor 1260 is additionally operable to: according to critical display parameters by described display parameters difference Carrying out division and obtain many sub-display parameters differences, wherein, described critical display parameters are described former The display parameters that one or more sub-display parameters difference is obtained, institute is increased on the basis of beginning display parameters State critical display parameters and described sub-display parameters difference positive correlation.

Visible, in the embodiment of the present invention, by detecting the light characteristic information of mobile terminal local environment, know The environmental information of other mobile terminal local environment, calculates the target display ginseng mated with environmental information with this Number, adjusts the display of screen, it is possible to realizes the self adaptation to environment and shows adjustment, on the one hand, be adaptive Answer environment to adjust the display mode of mobile terminal, and in display interface, do not add the illiteracy of warm colour Version, it is not required that pad pasting on screen, it is ensured that display effect in the present context, the opposing party Face, adaptive environment shows, improves the utilization rate of display performance, it is possible to reduce blue light strong The attributes such as degree, component, it is achieved that the filtration of blue light.

Those of ordinary skill in the art are it is to be appreciated that combine enforcement disclosed in the embodiment of the present invention The unit of each example that example describes and algorithm steps, it is possible to electronic hardware or computer software and Being implemented in combination in of electronic hardware.These functions perform with hardware or software mode actually, depend on Application-specific and design constraint in technical scheme.Professional and technical personnel can to each specifically Should be used for using different methods to realize described function, but this realization is it is not considered that exceed this The scope of invention.

Those skilled in the art is it can be understood that arrive, for convenience and simplicity of description, above-mentioned The specific works process of the system, device and the unit that describe, is referred in preceding method embodiment Corresponding process, does not repeats them here.

In embodiment provided herein, it should be understood that disclosed apparatus and method, can To realize by another way.Such as, device embodiment described above is only schematically , such as, the division of described unit, it is only a kind of logic function and divides, actual permissible when realizing Have other dividing mode, the most multiple unit or assembly can in conjunction with or be desirably integrated into another System, or some features can ignore, or do not perform.Another point, shown or discussed mutual it Between coupling or direct-coupling or communication connection can be indirect by some interfaces, device or unit 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, The parts shown as unit can be or may not be physical location, i.e. may be located at a ground Side, or can also be distributed on multiple NE.Can select therein according to the actual needs Some or all of unit realizes the purpose of the present embodiment scheme.

It addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit In, 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 In one unit.

If described function realizes using the form of SFU software functional unit and as independent production marketing or make Used time, can be stored in a computer read/write memory medium.Based on such understanding, this Part that prior art is contributed by bright technical scheme the most in other words or this technical scheme Part can embody with the form of software product, and this computer software product is stored in a storage In medium, including some instructions with so that a computer equipment (can be personal computer, service Device, or the network equipment etc.) perform completely or partially walking of method described in each embodiment of the present invention Suddenly.And aforesaid storage medium includes: USB flash disk, portable hard drive, ROM, RAM, magnetic disc or light The various medium that can store program code such as dish.

The above, the only detailed description of the invention of the present invention, but protection scope of the present invention not office Being limited to this, any those familiar with the art, can in the technical scope that the invention discloses Readily occur in change or replace, all should contain within protection scope of the present invention.Therefore, the present invention Protection domain should be as the criterion with scope of the claims.

Claims

1. the display packing of a mobile terminal, it is characterised in that including:

Calculating the target display parameters mated with described environmental information, wherein, described target display parameters are extremely Include in saturation, colour temperature, brightness less is one or more；

Method the most according to claim 1, it is characterised in that described according to described smooth feature letter Breath, identifies the step of the environmental information of described mobile terminal local environment, including:

Calculate the target light characteristic range that described smooth characteristic information is corresponding；

According to the corresponding relation between default light characteristic information and environmental information, determine that described target light is special The environmental information that scope of levying is corresponding, and environmental information corresponding for described target light characteristic range is defined as institute State the environmental information of mobile terminal local environment.

Method the most according to claim 2, it is characterised in that when described smooth characteristic information includes During photosensitive value, described smooth characteristic range includes the first photosensitive scope, the second photosensitive scope, the 3rd photosensitive model Enclose and the 4th photosensitive scope；Described environmental information include first environment type, second environment type, the 3rd Environmental form and the 4th environmental form, wherein, described first photosensitive scope, the second photosensitive scope, the 3rd Photosensitive scope and the 4th photosensitive scope respectively corresponding described first environment type, second environment type, the Three environmental forms and the 4th environmental form.

Method the most according to claim 3, it is characterised in that the light feature that described basis is preset Corresponding relation between information and environmental information, determines the environment letter that described target light characteristic range is corresponding Breath, and environmental information corresponding for described target light characteristic range is defined as described mobile terminal local environment The step of environmental information, including:

When described photosensitive value belongs to the first photosensitive scope, according to default the first photosensitive scope and first Corresponding relation between environmental form, determines that described mobile terminal local environment is first environment type；

When described photosensitive value belongs to the second photosensitive scope, according to default the second photosensitive scope and second Corresponding relation between environmental form, determines that described mobile terminal local environment is second environment type；

When described photosensitive value belongs to three photosensitive scopes, according to default the 3rd photosensitive scope and the 3rd Corresponding relation between environmental form, determines that described mobile terminal local environment is the 3rd environmental form；

When described photosensitive value belongs to four photosensitive scopes, according to default the 4th photosensitive scope and the 4th Corresponding relation between environmental form, determines that described mobile terminal local environment is the 4th environmental form.

5. according to the method described in claim 2,3 or 4, it is characterised in that described calculating is with described The step of the target display parameters of environmental information coupling, including:

Calculate the target display parameters scope that described environmental information is corresponding；

Determining target display parameters in the range of described target display parameters, wherein, described target shows Parameter and described smooth characteristic information positive correlation.

Method the most according to claim 5, it is characterised in that

Described target display parameters scope include the first saturation scope, the second saturation scope, the 3rd Saturation scope, the 4th saturation scope；

Method the most according to claim 6, it is characterised in that the described environmental information of described calculating The step of corresponding target display parameters scope, including:

When described environmental information is first environment type, determine that described target display parameters scope is One saturation scope, the first reference color temperature, the first brightness range；

When described environmental information is second environment type, determine that described target display parameters scope is Two saturation scopes, the second reference color temperature, the second brightness range；

When described environmental information is three environmental form, determine that described target display parameters scope is Three saturation scopes, tertiary color temperature scope, the 3rd brightness range；

When described environmental information is four environmental form, determine that described target display parameters scope is Four saturation scopes, the 4th reference color temperature, the 4th brightness range.

Method the most according to claim 6, it is characterised in that described in described target display ginseng The step of target display parameters is determined in the range of number, including:

In the range of described first saturation, calculate intensity value, calculate in described first reference color temperature Color temperature value, in described first brightness range calculate brightness value；

Or in the range of described second saturation, calculate intensity value, count in described second reference color temperature Calculate color temperature value, in described second brightness range, calculate brightness value；

Or in the range of described 3rd saturation, calculate intensity value, count in the range of described tertiary color temperature Calculate color temperature value, in described 3rd brightness range, calculate brightness value；

Or in the range of described 4th saturation, calculate intensity value, count in described 4th reference color temperature Calculate color temperature value, in described 4th brightness range, calculate brightness value；

9. according to the method described in claim 1,2,3,4,6,7 or 8, it is characterised in that institute State the step of the display mode adjusting described mobile terminal according to described target display parameters, including:

Obtain the display parameters of presently described mobile terminal display screen, obtain original display parameter；

Calculate the difference of described target display parameters and described currently displaying parameter, obtain display parameters poor Value；

Described display parameters difference is divided, obtains many sub-display parameters differences；

According to default time interval, with described original display parameter as radix, increase the plurality of successively Sub-display parameters difference, until by described original display parameter adjustment to described target display parameters.

Method the most according to claim 9, it is characterised in that described by poor for described display parameters Value divides, and obtains the step of many sub-display parameters differences, including:

Described display parameters difference is divided into multiple equal portions, and the sub-display parameters obtaining multiple value equal are poor Value.

11. methods according to claim 9, it is characterised in that described by poor for described display parameters Value divides, and obtains the step of many sub-display parameters differences, including:

According to critical display parameters, described display parameters difference is carried out division and obtain many sub-display parameters Difference, wherein, described critical display parameters are to increase by one on the basis of described original display parameter Or the display parameters that many sub-display parameters differences are obtained, described critical display parameters and described sub-display Parameter difference positive correlation.

12. 1 kinds of mobile terminals, it is characterised in that including:

13. mobile terminals according to claim 12, it is characterised in that described environmental information is known Other module includes:

Light characteristic range calculating sub module, for calculating the target light feature that described smooth characteristic information is corresponding Scope；

Light characteristic range determines submodule, between according to light characteristic information and the environmental information preset Corresponding relation, determine the environmental information that described target light characteristic range is corresponding, and described target light is special Environmental information corresponding to scope of levying is defined as the environmental information of described mobile terminal local environment.

14. mobile terminals according to claim 13, it is characterised in that when described smooth feature is believed Breath is when including photosensitive value, described smooth characteristic range include the first photosensitive scope, the second photosensitive scope, the 3rd Photosensitive scope and the 4th photosensitive scope；Described environmental information includes first environment type, second environment class Type, the 3rd environmental form and the 4th environmental form, wherein, described first photosensitive scope, the second photosensitive model Enclose, the 3rd photosensitive scope and the 4th photosensitive scope respectively corresponding described first environment type, second environment Type, the 3rd environmental form and the 4th environmental form.

15. mobile terminals according to claim 14, it is characterised in that described smooth characteristic range Determine that submodule includes:

First environment type determining units, is used for when described photosensitive value belongs to the first photosensitive scope, root According to the corresponding relation between default the first photosensitive scope and first environment type, determine described mobile terminal Local environment is first environment type；

Second environment type determining units, is used for when described photosensitive value belongs to the second photosensitive scope, root According to the corresponding relation between default the second photosensitive scope and second environment type, determine described mobile terminal Local environment is second environment type；

3rd environmental form determines unit, is used for when described photosensitive value belongs to three photosensitive scopes, root According to the corresponding relation between default the 3rd photosensitive scope and the 3rd environmental form, determine described mobile terminal Local environment is the 3rd environmental form；

4th environment type determining units, is used for when described photosensitive value belongs to four photosensitive scopes, root According to the corresponding relation between default the 4th photosensitive scope and the 4th environmental form, determine described mobile terminal Local environment is the 4th environmental form.

16. according to the mobile terminal described in claim 13,14 or 15, it is characterised in that described mesh Mark display parameters computing module includes:

Target display parameters range computation submodule, shows for calculating target corresponding to described environmental information Show parameter area；

Target display parameters determine submodule, for determining target in the range of described target display parameters Display parameters, wherein, described target display parameters and described smooth characteristic information positive correlation.

17. mobile terminals according to claim 16, it is characterised in that

18. mobile terminals according to claim 17, it is characterised in that described target display ginseng Number range computation submodule includes:

First scope determines unit, for when described environmental information is first environment type, determines institute Stating target display parameters scope is the first saturation scope, the first reference color temperature, the first brightness range；

Second scope determines unit, for when described environmental information is second environment type, determines institute Stating target display parameters scope is the second saturation scope, the second reference color temperature, the second brightness range；

3rd scope determines unit, for when described environmental information is three environmental form, determines institute Stating target display parameters scope is the 3rd saturation scope, tertiary color temperature scope, the 3rd brightness range；

4th scope determines unit, for when described environmental information is four environmental form, determines institute Stating target display parameters scope is the 4th saturation scope, the 4th reference color temperature, the 4th brightness range.

19. mobile terminals according to claim 17, it is characterised in that described target display ginseng Number determines that submodule includes:

First computing unit, for calculating intensity value, described in the range of described first saturation Calculate color temperature value in first reference color temperature, in described first brightness range, calculate brightness value；

Second computing unit, for calculating intensity value, described in the range of described second saturation Calculate color temperature value in second reference color temperature, in described second brightness range, calculate brightness value；

3rd computing unit, for calculating intensity value, described in the range of described 3rd saturation Calculate color temperature value in the range of tertiary color temperature, in described 3rd brightness range, calculate brightness value；

4th computing unit, for calculating intensity value, described in the range of described 4th saturation Calculate color temperature value in 4th reference color temperature, in described 4th brightness range, calculate brightness value；

20. according to the mobile terminal described in claim 12,13,14,15,17,18 or 19, its Being characterised by, described display module includes:

Original display parameter acquiring submodule, for obtaining the display ginseng of presently described mobile terminal display screen Number, obtains original display parameter；

Display parameters mathematic interpolation submodule, is used for calculating described target display parameters currently displaying with described The difference of parameter, obtains display parameters difference；

Display parameters difference divides submodule, for described display parameters difference being divided, obtains many Individual sub-display parameters difference；

Display parameters difference is progressively increased submodule, for according to default time interval, with described original display Parameter is radix, increases the plurality of sub-display parameters difference successively, until by described original display parameter Adjust to described target display parameters.

21. mobile terminals according to claim 20, it is characterised in that described display parameters are poor Value divides submodule and includes:

First division unit, for described display parameters difference is divided into multiple equal portions, obtains multiple value Equal sub-display parameters difference.

22. mobile terminals according to claim 20, it is characterised in that described display parameters are poor Value divides submodule and includes:

Second division unit, for dividing described display parameters difference according to critical display parameters Obtaining many sub-display parameters differences, wherein, described critical display parameters are for join in described original display The display parameters that one or more sub-display parameters difference is obtained are increased on the basis of number, described critical aobvious Show parameter and described sub-display parameters difference positive correlation.