CN104376835A - Method for adjusting brightness and electronic device - Google Patents
Method for adjusting brightness and electronic device Download PDFInfo
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- CN104376835A CN104376835A CN201310359493.3A CN201310359493A CN104376835A CN 104376835 A CN104376835 A CN 104376835A CN 201310359493 A CN201310359493 A CN 201310359493A CN 104376835 A CN104376835 A CN 104376835A
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Abstract
The invention provides a method for adjusting brightness and an electronic device. The method is applied to the electronic device, and the electronic device comprises a display unit. The method includes the steps of monitoring the light intensity of the environment where the electronic device is located to obtain a monitoring result, judging whether the monitoring result meets a preset condition, adjusting the brightness of the display unit when the monitoring result meets the preset condition, wherein the first change curvature of the brightness after adjustment to the brightness before adjustment is different from the change curvature of the brightness adjusted last time, and the first change curvature is matched with the light intensity of the environment.
Description
Technical field
The present invention relates to electronic technology field, particularly relate to a kind of method and the electronic equipment that adjust brightness.
Background technology
Along with the development of electronic device technology, various electronic equipment enters the life of user, such as mobile phone, notebook computer, panel computer, brings great convenience to the life of people.
Usually, conveniently user uses, and these electronic equipments are all provided with display unit, for show handle icon, other store on an electronic device or the content that obtains from network.In the prior art, under varying environment light intensity, feel dazzling in order to not allowing user or too dark, be integrated with the bright dark change of automatically environmentally light intensity all on an electronic device and adjust the function of the brightness of display unit, thus, the brightness of display unit and environmental light intensity can not only be allowed to adapt, but also greatly can reduce the power consumption of mobile phone.
But, the present inventor finds in the process realizing the technical scheme in the embodiment of the present invention, in the prior art, environmentally light intensity adjusts the scheme of the brightness of display unit automatically, the rate of change of each adjustment is all identical, although the program can make to a certain extent the brightness of display unit and environmental light intensity basically identical, but because human eye is different to the susceptibility of the change of environmental light intensity under different environmental light intensities, so the words adjusted according to this Adjusted Option, just accurate not, and brightness is stable not, user is made to think there is flickering.
Summary of the invention
The invention provides a kind of method and the electronic equipment that adjust brightness, the technical matters that degree of accuracy is lower, stability is lower that the technical scheme in order to the brightness solving the bright dark change adjustment display unit of environmentally light intensity exists.
One aspect of the present invention provides a kind of method adjusting brightness, and be applied in an electronic equipment, described electronic equipment comprises a display unit, and described method comprises: the environmental light intensity of monitoring environment residing for described electronic equipment, obtains a monitoring result; Judge that whether described monitoring result meets one pre-conditioned; When described monitoring result meet described pre-conditioned time, adjust the brightness of described display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, described first change curvature and described environmental light intensity adapt.
Optionally, described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Judge whether described environmental light intensity is diminishing, if so, then represent that described monitoring result meets described pre-conditioned; Wherein, described environmental light intensity is less, and described first change curvature is less.
Optionally, the environmental light intensity of environment residing for the described electronic equipment of described monitoring, obtains a monitoring result, is specially:
Continuous monitoring one schedule time, obtain N number of Monitoring Data, wherein, N be more than or equal to 2 integer;
Described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Judge whether described N number of Monitoring Data diminishes according to monitoring time order; Wherein, when described N number of detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
Optionally, the environmental light intensity of environment residing for the described electronic equipment of described monitoring, obtains a monitoring result, is specially:
Continuous monitoring pre-determined number, obtains M Monitoring Data, wherein, M be more than or equal to 2 integer;
Described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Judge whether a described M Monitoring Data diminishes according to monitoring time order; Wherein, when described M detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
Optionally, the environmental light intensity of environment residing for the described electronic equipment of described monitoring, obtains a monitoring result, is specially:
During from the brightness of previous adjustment described display unit, monitor described environmental light intensity, obtain first environment light intensity;
Described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Whether the intensity rank difference between second environment light intensity corresponding when judging the brightness of described first environment light intensity with the described display unit of described previous adjustment is more than or equal to 2, if so, then represents that described monitoring result meets described pre-conditioned.
Optionally, the brightness of the described display unit of described adjustment, is specially: based on described environmental light intensity, after determining described first change curvature, based on described first change curvature, adjust the brightness of described display unit.
Yet another embodiment of the invention also provides a kind of electronic equipment, comprising: display unit; Monitoring means, for monitoring the environmental light intensity of environment residing for described electronic equipment, obtains a monitoring result; Processing unit, one pre-conditioned for judging that whether described monitoring result meets; When described monitoring result meet described pre-conditioned time, adjust the brightness of described display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, described first change curvature and described environmental light intensity adapt.
Optionally, described processing unit specifically for: judge whether described environmental light intensity is diminishing, if so, then represent that described monitoring result meets described pre-conditioned; Wherein, described environmental light intensity is less, and described first change curvature is less.
Optionally, described monitoring means specifically for: continuously one schedule time of monitoring, obtain N number of Monitoring Data, wherein, N be more than or equal to 2 integer;
Described processing unit specifically for: judge whether described N number of Monitoring Data diminishes according to monitoring time order; Wherein, when described N number of detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
Optionally, described monitoring means specifically for: monitor pre-determined number continuously, obtain M Monitoring Data, wherein, M be more than or equal to 2 integer;
Described processing unit specifically for: judge whether a described M Monitoring Data diminishes according to monitoring time order; Wherein, when described M detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
Optionally, described monitoring means specifically for: during from the brightness of previous adjustment described display unit, monitor described environmental light intensity, obtain first environment light intensity;
Described processing unit specifically for: whether the intensity rank difference between second environment light intensity corresponding when judging the brightness of described first environment light intensity with the described display unit of described previous adjustment is more than or equal to 2, if so, then represent that described monitoring result meets described pre-conditioned.
Optionally, described processing unit concrete also for: based on described environmental light intensity, after determining described first change curvature, based on described first change curvature, adjust the brightness of described display unit.
The one or more technical schemes provided in the embodiment of the present invention, at least have following technique effect or advantage:
In one embodiment of the invention, residing for monitoring electronic equipment, the environmental light intensity of environment, obtains a monitoring result; Judge that whether monitoring result meets one pre-conditioned; When monitoring result meet one pre-conditioned time, the brightness of adjustment display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity adapts.This shows, method in the present embodiment, first the environmental light intensity of environment residing for electronic equipment is monitored, obtain a monitoring result, and it is one pre-conditioned to judge that whether monitoring result meets, only when monitoring result meets pre-conditioned, just adjust the brightness of display unit, any judgement is not done so just avoid, as long as often detect an environmental light intensity, the problem that the adjustment that this scheme of brightness with regard to adjusting display unit is brought is not accurately, stability is lower; Further, in the present embodiment, when adjusting the brightness of display unit, the result of adjustment is: the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity and adapt, so compared with scheme of carrying out adjusting all the time with same rate of change of the prior art, the scheme of the present embodiment considers the relation between environmental light intensity and change curvature, makes adjustment more accurate, improves Consumer's Experience.
Accompanying drawing explanation
Fig. 1 is the process flow diagram of the method for adjustment brightness in one embodiment of the invention;
Fig. 2 is the functional block diagram of the electronic equipment in one embodiment of the invention.
Embodiment
The invention provides a kind of method and the electronic equipment that adjust brightness, the technical matters that degree of accuracy is lower, stability is lower that the technical scheme in order to the brightness solving the bright dark change adjustment display unit of environmentally light intensity exists.
Technical scheme in the embodiment of the present invention is solve above-mentioned technical matters, and general thought is as follows:
In one embodiment of the invention, residing for monitoring electronic equipment, the environmental light intensity of environment, obtains a monitoring result; Judge that whether monitoring result meets one pre-conditioned; When monitoring result meet one pre-conditioned time, the brightness of adjustment display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity adapts.This shows, method in the present embodiment, first the environmental light intensity of environment residing for electronic equipment is monitored, obtain a monitoring result, and it is one pre-conditioned to judge that whether monitoring result meets, only when monitoring result meets pre-conditioned, just adjust the brightness of display unit, any judgement is not done so just avoid, as long as often detect an environmental light intensity, the problem that the adjustment that this scheme of brightness with regard to adjusting display unit is brought is not accurately, stability is lower; Further, in the present embodiment, when adjusting the brightness of display unit, the result of adjustment is: the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity and adapt, so compared with scheme of carrying out adjusting all the time with same rate of change of the prior art, the scheme of the present embodiment considers the relation between environmental light intensity and change curvature, makes adjustment more accurate, improves Consumer's Experience.
In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.
The embodiment of the present invention provides a kind of method adjusting brightness, is applied to one and has on the electronic equipment of display unit, and this electronic equipment is such as the electronic equipments such as mobile phone, panel computer, notebook computer.
Please refer to Fig. 1, the method comprises:
Step 101: the environmental light intensity of environment residing for monitoring electronic equipment, obtains a monitoring result;
Step 102: judge that whether monitoring result meets one pre-conditioned;
Step 103: when monitoring result meets pre-conditioned, the brightness of adjustment display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, the first change curvature and environmental light intensity adapt.
Wherein, in a step 101, the environmental light intensity of environment residing for monitoring electronic equipment, concrete example is Real-Time Monitoring environmental light intensity in this way, and namely optical sensor (light sensor) is always in running order, Real-time Obtaining environmental light intensity data; Can also be specifically periodic monitoring, such as just obtain once every 5s, certainly, in practice, this cycle can also be other numerical value, such as 10s, 30s.
No matter pass through monitoring mode how, all can obtain a monitoring result, in practice, may be different due to the mode of monitoring, the monitoring result of acquisition is also incomplete same, and this part will be described in detail in follow-up continuation.
Next when after acquisition one monitoring result, perform step 102, namely judge that whether satisfied monitoring result is one pre-conditioned.
In a step 102, pre-conditioned have numerous embodiments, specifically pre-conditionedly arrange and can arrange according to the actual requirements, if such as want to obtain more stable brightness adjustment in dimmed according to light intensity, so just can arrange pre-conditioned be exactly environmental light intensity really dimmed, instead of unexpected flicker; Again such as, if adopt different adjustment curves respectively when wanting the dimmed and environmental light intensity of environmental light intensity to brighten, so pre-conditioned just can arrange can determine that current environment light intensity is dimmed or brighten.Certainly, the monitoring mode of pre-conditioned setting also with concrete is relevant, such as also for ease of and determine environmental light intensity really dimmed, instead of unexpected flicker, monitoring mode can be monitor from the continuity of time and the continuity of monitoring number of times, and so the pre-conditioned of correspondence is just arranged from the continuity of time and the continuity of monitoring number of times respectively.
One pre-conditioned by judging that whether monitoring result meets, improve the condition of adjustment brightness, so it is whole to decrease some mistunings, improve accuracy and the stability of adjustment.
Then next perform step 103, namely when monitoring result meet this pre-conditioned time, the just brightness of adjustment display unit.
In this step, the brightness of adjustment display unit can be specifically adjust based on the mapping table between environmental light intensity and brightness, can also be adjusted by the functional relation between brightness and environmental light intensity.And concrete adjustment direction (tune amount or dim) is relevant to monitoring result, this part also will be described in detail follow-up.Through the adjustment of step 103, make the brightness after adjusting compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and also first changes curvature and environmental light intensity and adapts.
As can be seen from foregoing description, by the method for the present embodiment, avoid and do not do any judgement, as long as often detect an environmental light intensity, the problem that the adjustment that this scheme of brightness with regard to adjusting display unit is brought not accurately, stability is lower, namely in the present embodiment scheme, improve the condition of the brightness of adjustment display unit, make adjustment more accurate, the stability of brightness is also better, improves Consumer's Experience.Further, in the present embodiment, when adjusting the brightness of display unit, the result of adjustment is: the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity and adapt, so compared with scheme of carrying out adjusting all the time with same rate of change of the prior art, the scheme of the present embodiment considers the relation between environmental light intensity and change curvature, makes adjustment more accurate, improves Consumer's Experience.
The concrete enforcement scene of the method for the adjustment brightness of the present embodiment will be described in detail below.
Implement in scene first, step 101 is specially: continuously one schedule time of monitoring, obtain N number of Monitoring Data, wherein, N be more than or equal to 2 integer, such as monitor 30s continuously, obtain 10 Monitoring Data.
So step 102 is specially: judge whether N number of Monitoring Data diminishes according to monitoring time order, namely judges whether the trend that environmental light intensity diminishes continue for this schedule time.Such as these 10 Monitoring Data are successively 45,45,20,3,3,3,2,2,2,2 according to monitoring time, because to end from monitoring time, the trend of environmental light intensity reduces, so can determine that environmental light intensity is diminishing really, so just can determine that this monitoring result meets pre-conditioned.
Then perform step 103, namely adjust the brightness of display unit, in the present embodiment, step 103 specifically based on the brightness of a pre-defined rule adjustment display unit, makes brightness and environmental light intensity adapt.In specific implementation process, pre-defined rule has multiple example, such as, prestored the mapping table between an environmental light intensity and brightness in the electronic device, please refer to table one:
Environmental light intensity | Optical sensor | Brightness |
1 | 0 | 5 |
2 | 1 | 48 |
3 | 4 | 48 |
20 | 8 | 48 |
45 | 12 | 60 |
75 | 20 | 85 |
140 | 37 | 110 |
190 | 48 | 160 |
Table one
In Table 1, the first hurdle " environmental light intensity " represents the intensity rank of environmental light intensity, and the second hurdle " optical sensor " represents the raw data of the environmental light intensity that light sensors arrives, and third column " brightness " represents the luminance parameter of the brightness of adjustment display unit.In practice, in step 101, monitoring of environmental light intensity, the Monitoring Data of acquisition can refer to the raw data that optical sensor obtains, and also can be to convert the intensity rank of coming according to the corresponding relation of table one, is all described for intensity rank below.Data in table one are through the data that test of many times draws, adjust according to the data of table one, and the brightness of display unit is more accurate, more stable, is more conducive to protect the eyes of user.
Further, in the present embodiment, pre-defined rule also comprises intensity rank with being as the criterion of monitoring for the last time, continue for previous example, namely intensity rank is 2, so just can determine that brightness is 48 according to table one, and the brightness then with regard to adjusting display unit becomes 48.
Certainly, in practice, pre-defined rule can also be other rule, such as intensity rank is as the criterion with the mean value of last three times, can also be that intensity rank is lower, the change curvature of adjustment be less, certainly, here the less trend that refers to reduces, and adjacent change curvature can have identical, such as when intensity rank is varied down to 20 from 45, if adjust brightness, so the change curvature of brightness is the first sub-curvature, when intensity rank is varied down to 3 from 20, if adjust brightness, so the change curvature of brightness is the second sub-curvature, when intensity rank is varied down to 2 from 3, if adjust brightness, so the change curvature of brightness is the 3rd sub-curvature, so the first sub-curvature is greater than the second sub-curvature, second sub-curvature is greater than the 3rd sub-curvature, wherein, change curvature can refer to adjusts to by original luminance value the number percent that present intensity value reduces, if such as based on the numerical value of table one, instead can release the first sub-curvature is 20%, second sub-curvature and the 3rd sub-curvature are 0, the numerical value of table one can not certainly be used, but set the first sub-curvature in advance to the 3rd sub-curvature, such as first sub-curvature is 20%, second sub-curvature is 15%, 3rd sub-curvature is 10%, during each adjustment, the change curvature that electronic equipment just sets according to these carries out calculating should be adjusted to how many.
In another embodiment, change curvature can also be the slope of intensity rank-brightness change curve, same for previous example, when intensity rank is 45, brightness is 60, and intensity rank is when being 20, brightness is 48, so on this change curve, the slope of the line between these 2 is 0.48, namely the first sub-curvature is 0.48, and certainly, this pushes away according to the data in table one are counter, in practice, can by setting change curvature, calculated in advance obtains the data of table one, so in use direct question blank one.Also can be: first based on environmental light intensity, determine the first change curvature, then based on the brightness of the first change curvature adjustment display unit, namely each all environmentally light intensity determines the first change curvature, then should adjust brightness to how many according to the first change curvature estimation.
Because human eye is in the dark comparatively responsive to the change of CD-ROM drive, so in embodiments of the present invention, change curvature is set to diminish along with environmental light intensity and is the trend reduced, so more accurately control electronic equipment environmentally light intensity adjustment display unit brightness, and make user can not be more with dazzling feeling when environmental light intensity is darker, avoid eyes of user uncomfortable, improve Consumer's Experience.
Implement in scene second, with first implements scene unlike, step 101 is specially: monitor pre-determined number continuously, obtains M Monitoring Data, wherein, M be more than or equal to 2 integer, such as monitoring 10 times continuously, obtains 10 Monitoring Data.Step 102 is specially: whether M Monitoring Data diminishes according to monitoring time order; Wherein, when M detection data diminish according to monitoring time order, represent that monitoring result meets pre-conditioned.Such as these 10 Monitoring Data are successively 45,45,20,3,3,3,2,2,2,2 according to monitoring time, because to end from monitoring time, the trend of environmental light intensity reduces, so can determine that environmental light intensity is diminishing really, so just can determine that this monitoring result meets pre-conditioned.Next perform step 103 again, namely adjust the brightness of display unit, this part can the first embodiment implemented in scene similar, so succinct in order to instructions, be not described in detail in this.
3rd implements scene, and in the present embodiment, step 101 is specially: during from the brightness of previous adjustment display unit, and monitoring of environmental light intensity obtains first environment light intensity; Step 102 is specially: whether the intensity rank difference between second environment light intensity corresponding when judging the brightness of first environment light intensity with previous adjustment display unit is more than or equal to 2, if so, then represents that monitoring result meets pre-conditioned.Such as, just continue monitoring of environmental light intensity after at every turn adjust the brightness of display unit, acquisition first environment light intensity is such as 3, and when adjusting based on environmental light intensity be second environment light intensity, be such as 45; Then judge whether the intensity rank difference between first environment light intensity and second environment light intensity is more than or equal to 2, known according to table one, intensity rank is from 45 to 3, and just intensity rank difference is 2, so just represents that monitoring result meets pre-conditioned.
Then at this moment just perform step 103, namely adjust the brightness of display unit, the embodiment of this part is similar to the first enforcement scene, so be not described in detail in this.
4th implements scene, and in the present embodiment, step 102 is specially and judges whether environmental light intensity is diminishing, and if so, then represents that monitoring result meets pre-conditioned; Wherein, here judge whether environmental light intensity is diminishing, can be judged by above-mentioned three methods implementing to introduce in scene, as long as can certainly judge to diminish than previous Monitoring Data, just can be confirmed to be and diminish, such as, a upper Monitoring Data is 45, the data monitored specifically are 20, so just can think to have diminished.
Then perform step 103, be specially: dimmed with the brightness of the first change curvature adjustment display unit, wherein, environmental light intensity is less, and the first change curvature is less.Wherein, the implication of the first change curvature can be the change curvature described in the first enforcement scene, also can be the change curvature of other formal definitions, as long as when making environmental light intensity more diminish, the brightness change of display unit is also less.
By finding out the description that four are implemented scene above, by the technical scheme of the present embodiment, the brightness flicker of display unit can also be avoided, this enforcement is by confirming whether monitoring result satisfies condition, whether such as environmental light intensity is certain is diminishing,, then adjust the brightness of display unit if so.Such as environmental light intensity is all in more stable always and is brighter state, just contingency detect that environmental light intensity is lower, object is such as had accidentally to shelter from light, according to the scheme of the prior art described in background technology, will immediately by brightness adjustment to darker state, but at once the environmental light intensity that a value is larger detected again, then just adjust to brighter state immediately again, so the flickering of display unit will be caused, the eyes of user are made to have sense of discomfort.And if the scheme in the present embodiment, would not just adjust display brightness, so avoid flickering when once in a while dimmed.
Further, in the present embodiment, when adjusting the brightness of display unit, the result of adjustment is: the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity and adapt, so compared with scheme of carrying out adjusting all the time with same rate of change of the prior art, the scheme of the present embodiment considers the relation between environmental light intensity and change curvature, makes adjustment more accurate, improves Consumer's Experience.
In another embodiment, step 102 is specifically as follows: judge whether monitoring result is less than or equal to a threshold value, and if so, namely when environmental light intensity is darker, the method that so step 103 is just implemented to describe in scene according to aforementioned first to fourth adjusts; And if not, so step 103 just can adopt other modes to adjust, such as, change the constant mode of curvature.
And large situation is become for environmental light intensity, as long as can be have to become large, just the brightness of display unit is adjusted, the brightness of display unit is brightened, the change curvature of adjustment can become large greatly along with the change of environmental light intensity, other adjustment modes can certainly be adopted, such as, change the identical mode of curvature.
Based on identical inventive concept, also provide a kind of electronic equipment in one embodiment of the invention, this electronic equipment is such as the electronic equipments such as mobile phone, panel computer, notebook computer.
As shown in Figure 2, this electronic equipment comprises: display unit 201; Monitoring means 202, for monitoring the environmental light intensity of environment residing for electronic equipment, obtains a monitoring result; Processing unit 203, one pre-conditioned for judging that whether monitoring result meets; When monitoring result meets pre-conditioned, the brightness of adjustment display unit 201.Wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, and different from change curvature during previous adjustment, the first change curvature and environmental light intensity adapt.
In one embodiment, processing unit 203 specifically for: judge whether environmental light intensity is diminishing, if so, then represent monitoring result meet pre-conditioned; Wherein, environmental light intensity is less, and the first change curvature is less.
In another embodiment, monitoring means 202 specifically for: continuously one schedule time of monitoring, obtain N number of Monitoring Data, wherein, N be more than or equal to 2 integer; Processing unit 203 specifically for: judge whether N number of Monitoring Data diminishes according to monitoring time order; Wherein, when N number of detection data diminish according to monitoring time order, represent that monitoring result meets pre-conditioned.
In another embodiment, monitoring means 202 specifically for: monitor pre-determined number continuously, obtain M Monitoring Data, wherein, M be more than or equal to 2 integer; Processing unit 203 specifically for: judge whether M Monitoring Data diminishes according to monitoring time order; Wherein, when M detection data diminish according to monitoring time order, represent that monitoring result meets pre-conditioned.
In an embodiment again, monitoring means 202 specifically for: during from the brightness of previous adjustment display unit 201, monitoring of environmental light intensity, obtains first environment light intensity; Processing unit 203 specifically for: whether the intensity rank difference between second environment light intensity corresponding when judging the brightness of first environment light intensity with previous adjustment display unit 201 is more than or equal to 2, if so, then represents that monitoring result meets pre-conditioned.
For aforementioned four kinds of embodiments, further, processing unit 203 specifically for: based on one pre-defined rule adjustment display unit 201 brightness, brightness and environmental light intensity are adapted.Such as based on environmental light intensity, after determining the first change curvature, based on the first change curvature, the brightness of adjustment display unit.
In above each embodiment, display unit 201 can be liquid crystal display 201, also can be touch sensitive display unit 201; Monitoring means 202 can be specifically optical sensor, and processing unit 203 can be a process chip, also can be several separate process chip.
Each embodiment can be implemented separately above, also can in conjunction with enforcement, and technician can select according to actual needs.
Various variation pattern in the method for the adjustment brightness in previous embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the detailed description of the aforementioned method to adjustment brightness, those skilled in the art clearly can know the implementation method of electronic equipment in the present embodiment, so succinct in order to instructions, be not described in detail in this.
The one or more technical schemes provided in the embodiment of the present invention, at least have following technique effect or advantage:
In one embodiment of the invention, residing for monitoring electronic equipment, the environmental light intensity of environment, obtains a monitoring result; Judge that whether monitoring result meets one pre-conditioned; When monitoring result meet one pre-conditioned time, the brightness of adjustment display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity adapts.This shows, method in the present embodiment, first the environmental light intensity of environment residing for electronic equipment is monitored, obtain a monitoring result, and it is one pre-conditioned to judge that whether monitoring result meets, only when monitoring result meets pre-conditioned, just adjust the brightness of display unit, any judgement is not done so just avoid, as long as often detect an environmental light intensity, the problem that the adjustment that this scheme of brightness with regard to adjusting display unit is brought is not accurately, stability is lower; Further, in the present embodiment, when adjusting the brightness of display unit, the result of adjustment is: the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, and first changes curvature and environmental light intensity and adapt, so compared with scheme of carrying out adjusting all the time with same rate of change of the prior art, the scheme of the present embodiment considers the relation between environmental light intensity and change curvature, makes adjustment more accurate, improves Consumer's Experience.
Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory and optical memory etc.) of computer usable program code.
The present invention describes with reference to according to the process flow diagram of the method for the embodiment of the present invention, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.
These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.
These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.
Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.
Claims (12)
1. adjust a method for brightness, be applied in an electronic equipment, described electronic equipment comprises a display unit, and described method comprises:
Monitor the environmental light intensity of environment residing for described electronic equipment, obtain a monitoring result;
Judge that whether described monitoring result meets one pre-conditioned;
When described monitoring result meet described pre-conditioned time, adjust the brightness of described display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, described first change curvature and described environmental light intensity adapt.
2. the method for claim 1, is characterized in that, described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Judge whether described environmental light intensity is diminishing, if so, then represent that described monitoring result meets described pre-conditioned; Wherein, described environmental light intensity is less, and described first change curvature is less.
3. the method for claim 1, is characterized in that, the environmental light intensity of environment residing for the described electronic equipment of described monitoring, obtains a monitoring result, be specially:
Continuous monitoring one schedule time, obtain N number of Monitoring Data, wherein, N be more than or equal to 2 integer;
Described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Judge whether described N number of Monitoring Data diminishes according to monitoring time order; Wherein, when described N number of detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
4. the method for claim 1, is characterized in that, the environmental light intensity of environment residing for the described electronic equipment of described monitoring, obtains a monitoring result, be specially:
Continuous monitoring pre-determined number, obtains M Monitoring Data, wherein, M be more than or equal to 2 integer;
Described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Judge whether a described M Monitoring Data diminishes according to monitoring time order; Wherein, when described M detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
5. the method for claim 1, is characterized in that, the environmental light intensity of environment residing for the described electronic equipment of described monitoring, obtains a monitoring result, be specially:
During from the brightness of previous adjustment described display unit, monitor described environmental light intensity, obtain first environment light intensity;
Described to judge that whether described monitoring result meets one pre-conditioned, is specially:
Whether the intensity rank difference between second environment light intensity corresponding when judging the brightness of described first environment light intensity with the described display unit of described previous adjustment is more than or equal to 2, if so, then represents that described monitoring result meets described pre-conditioned.
6. the method according to any one of claim 3-5, is characterized in that, the brightness of the described display unit of described adjustment, is specially:
Based on described environmental light intensity, after determining described first change curvature, based on described first change curvature, adjust the brightness of described display unit.
7. an electronic equipment, comprising:
Display unit;
Monitoring means, for monitoring the environmental light intensity of environment residing for described electronic equipment, obtains a monitoring result;
Processing unit, one pre-conditioned for judging that whether described monitoring result meets; When described monitoring result meet described pre-conditioned time, adjust the brightness of described display unit, wherein, the brightness after adjustment is compared to the first change curvature of the brightness before adjustment, different from change curvature during previous adjustment, described first change curvature and described environmental light intensity adapt.
8. electronic equipment as claimed in claim 7, is characterized in that, described processing unit specifically for: judge whether described environmental light intensity is diminishing, if so, then represent that described monitoring result meets described pre-conditioned; Wherein, described environmental light intensity is less, and described first change curvature is less.
9. electronic equipment as claimed in claim 7, is characterized in that, described monitoring means specifically for: continuously one schedule time of monitoring, obtain N number of Monitoring Data, wherein, N be more than or equal to 2 integer;
Described processing unit specifically for: judge whether described N number of Monitoring Data diminishes according to monitoring time order; Wherein, when described N number of detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
10. electronic equipment as claimed in claim 7, is characterized in that, described monitoring means specifically for: monitor pre-determined number continuously, obtain M Monitoring Data, wherein, M be more than or equal to 2 integer;
Described processing unit specifically for: judge whether a described M Monitoring Data diminishes according to monitoring time order; Wherein, when described M detection data diminish according to monitoring time order, represent that described monitoring result meets described pre-conditioned.
11. electronic equipments as claimed in claim 7, is characterized in that, described monitoring means specifically for: during from the brightness of previous adjustment described display unit, monitor described environmental light intensity, obtain first environment light intensity;
Described processing unit specifically for: whether the intensity rank difference between second environment light intensity corresponding when judging the brightness of described first environment light intensity with the described display unit of described previous adjustment is more than or equal to 2, if so, then represent that described monitoring result meets described pre-conditioned.
12. electronic equipments according to any one of claim 9-11, it is characterized in that, described processing unit concrete also for: based on described environmental light intensity, after determining described first change curvature, based on described first change curvature, adjust the brightness of described display unit.
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