CN105425905A - Information processing method and electronic device - Google Patents

Abstract

The present invention discloses an information processing method and an electronic device, aiming to solve the technical problem that an electronic device has low accuracy in detecting ambient light. The method comprises the steps of: detecting at least two corresponding light intensity values by using at least two light sensors of the electronic device; determining an adjustment policy as a first adjustment policy according to the at least two light intensity values, wherein the adjustment policy is a policy that the value of at least one parameter of the electronic device is adjusted; and adjusting the value of the at least one parameter according to the first adjustment policy.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to field of computer technology, particularly relate to a kind of information processing method and electronic equipment.

Background technology

Along with the development of science and technology, electronic technology have also been obtained development at full speed, the kind of electronic product gets more and more, and people have also enjoyed the various facilities that development in science and technology brings, the comfortable life that present people can be brought along with development in science and technology by various types of electronic equipment enjoyment.

At present; in most of electronic equipment; all be provided with optical sensor; electronic equipment can pass through light sensors ambient light intensity; automatically the display brightness of display screen is regulated again according to the ambient light intensity detected; the viewing demand of user can be met so as far as possible, the eyes of user can also be protected.

But, mobile phone for electronic equipment, generally only be provided with an optical sensor, and be generally the upper side edge being arranged at mobile phone, such as, be arranged near receiver, because optical sensor can only detect the light with specific incident angle, when mobile phone is in specific grip state, the ambient light intensity detected may be caused to be forbidden, cause brightness of display screen to adjust inaccurate and not in time, affect the viewing experience of user.Such as, when the display screen of mobile phone is gripped towards user oneself, the light that optical sensor can detect is generally incident angle is the light pointing to display screen from user, but now light source is generally the top being positioned at mobile phone, such as indoor light or sunshine, differ comparatively large with the intensity of the actual light detected of optical sensor, testing result may be caused inaccurate.

Visible, in the prior art, the accuracy that electronic equipment detects surround lighting is lower, and precision is poor.

Summary of the invention

The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving the lower technical matters of accuracy that electronic equipment detects surround lighting.

First aspect, provides a kind of information processing method, comprising:

By at least two light intensity value that at least two light sensors of electronic equipment are corresponding;

According to described at least two light intensity value, regulation strategy is defined as the first regulation strategy; Wherein, described regulation strategy is the strategy adjusted the value of at least one parameter of described electronic equipment;

According to described first regulation strategy, the value of at least one parameter described is adjusted.

Optionally, according to described at least two light intensity value, regulation strategy is defined as the first regulation strategy, comprises:

According to described at least two light intensity value, determine the first adjustment foundation;

Regulate according to described first according to the strategy adjusted the value of at least one parameter described as described first regulation strategy.

Optionally, according to described at least two light intensity value, determine the first adjustment foundation, comprising:

The light intensity value that in described at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as described first; Wherein, the end time of described scheduled duration be detect described in moment of at least two light intensity value; Or

The mean value of described at least two light intensity value is regulated foundation as described first; Or

Light intensity value maximum for value in described at least two light intensity value is regulated foundation as described first.

Optionally, according to described at least two light intensity value, determine the first adjustment foundation, comprising:

Determine the current pose of described electronic equipment;

According to described current pose and described at least two light intensity value, determine that described first regulates foundation.

Optionally, the first optical sensor in described at least two optical sensors is arranged at the first surface at the display unit place of described electronic equipment, the second optical sensor in described at least two optical sensors is arranged at second of the place, top of described electronic equipment, described first surface with described second vertical;

According to described current pose and described at least two light intensity value, determine that described first regulates foundation, comprising:

Be less than or equal to the attitude of the first predetermined angle threshold value if described current pose is the angle between described display unit and surface level, the first light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described first light intensity value is obtained by described first light sensors.

Optionally, described current pose is the attitude when described display unit horizontal positioned.

Optionally, according to described current pose and described at least two light intensity value, determine that described first regulates foundation, comprising:

Be more than or equal to the attitude of the second predetermined angle threshold value if described current pose is the angle between described display unit and surface level, the second light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described second predetermined angle threshold value is more than or equal to described first predetermined angle threshold value, and described second light intensity value is obtained by described second light sensors.

Optionally, described current pose is when described display unit is perpendicular to attitude during described surface level.

Second aspect, provides the first electronic equipment, comprising:

At least two optical sensors, for detecting at least two corresponding light intensity value;

Processor, is connected with described at least two optical sensors, for according to described at least two light intensity value, regulation strategy is defined as the first regulation strategy; And according to described first regulation strategy, the value of at least one parameter of described electronic equipment is adjusted; Wherein, described regulation strategy is the strategy adjusted the value of at least one parameter described.

Optionally, described processor is used for:

According to described at least two light intensity value, determine the first adjustment foundation;

Regulate according to described first according to the strategy adjusted the value of at least one parameter described as described first regulation strategy.

Optionally, described processor is used for:

The light intensity value that in described at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as described first; Wherein, the end time of described scheduled duration be detect described in moment of at least two light intensity value; Or

The mean value of described at least two light intensity value is regulated foundation as described first; Or

Light intensity value maximum for value in described at least two light intensity value is regulated foundation as described first.

Optionally, described processor is used for:

Determine the current pose of described electronic equipment;

According to described current pose and described at least two light intensity value, determine that described first regulates foundation.

Optionally, described electronic equipment also comprises display device, is connected with described processor; The first optical sensor in described at least two optical sensors is arranged at the first surface at described display device place, the second optical sensor in described at least two optical sensors is arranged at second of the place, top of described electronic equipment, described first surface with described second vertical;

Described processor is used for:

Be less than or equal to the attitude of the first predetermined angle threshold value if described current pose is the angle between described display device and surface level, the first light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described first light intensity value is obtained by described first light sensors.

Optionally, described current pose is the attitude when described display device horizontal positioned.

Optionally, described processor is used for:

Be more than or equal to the attitude of the second predetermined angle threshold value if described current pose is the angle between described display device and surface level, the second light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described second predetermined angle threshold value is more than or equal to described first predetermined angle threshold value, and described second light intensity value is obtained by described second light sensors.

Optionally, described current pose is when described display device is perpendicular to attitude during described surface level.

The third aspect, provides the second electronic equipment, comprising:

Detection module, for passing through at least two light intensity value corresponding at least two light sensors;

Determination module, for according to described at least two light intensity value, is defined as the first regulation strategy by regulation strategy; Wherein, described regulation strategy is the strategy adjusted the value of at least one parameter of described electronic equipment;

Adjusting module, for according to described first regulation strategy, adjusts the value of at least one parameter described.

In the embodiment of the present invention, electronic equipment can pass through at least two light intensity value corresponding at least two light sensors, and then determine the first regulation strategy according at least two light intensity value again, to adjust according to the value of the first regulation strategy at least one parameter of electronic equipment, because in general, multiple optical sensor can the corresponding multiple positions arranged on an electronic device, and be directed to same environment, by multiple light intensity value that multiple light sensors arrives, compared to only by a light intensity value that a light sensors arrives, the truth of environment can be reflected more exactly, that is, actual environment can be reflected more exactly by least two light intensity value, the light intensity value that electronic equipment finally obtains also just can be more accurate, and then also can be more accurate to the adjustment of the value of at least one parameter according at least two light intensity value, can conform to actual environment so as far as possible, to meet the actual demand of user.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only the embodiment of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

Fig. 1 is the process flow diagram of information processing method in the embodiment of the present invention;

Fig. 2 is in the embodiment of the present invention be mobile phone for electronic equipment, the setting position schematic diagram of the first optical sensor and the second optical sensor;

Fig. 3 is the structural representation of electronic equipment in the embodiment of the present invention;

Fig. 4 is the structural representation that in the embodiment of the present invention, electronic equipment also comprises display device;

Fig. 5 is the structured flowchart of electronic equipment in the embodiment of the present invention.

Embodiment

Clearly understand for making the object, technical solutions and advantages of the present invention, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.When not conflicting, the embodiment in the present invention and the feature in embodiment can combination in any mutually.Further, although show logical order in flow charts, in some cases, can be different from the step shown or described by order execution herein.

In addition, term "and/or" herein, being only a kind of incidence relation describing affiliated partner, can there are three kinds of relations in expression, and such as, A and/or B, can represent: individualism A, exists A and B simultaneously, these three kinds of situations of individualism B.In addition, character "/" herein, when not illustrating, general expression forward-backward correlation is to the relation liking a kind of "or".

In the embodiment of the present invention, electronic equipment can refer to the electronic equipment that mobile phone, panel computer (PAD) etc. are different, for described electronic equipment specifically which type of equipment the present invention do not limit, as long as described electronic equipment is provided with at least two optical sensors.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

Refer to Fig. 1, the embodiment of the present invention provides a kind of information processing method, and the method can be applied to electronic equipment, that is, in the method, the executive agent of each step can be electronic equipment.The flow process of the method is described below.

Step 101: by least two light intensity value that at least two light sensors of electronic equipment are corresponding.

In inventive embodiments, at least two light intensity value that at least two light sensors are corresponding, specifically can refer to, at synchronization, each optical sensor at least two optical sensors can detect a light intensity value corresponding with it, such as, there are three optical sensors, optical sensor 1 respectively, optical sensor 2 and optical sensor 3, at a time, the light intensity value that optical sensor 1 detects is 10cd (candela, candela), the light intensity value that optical sensor 2 detects is 15cd, the light intensity value that optical sensor 3 detects is 13cd, so 10cd, 15cd and 13cd is exactly and optical sensor 1, the light intensity value of optical sensor 2 and optical sensor 3 difference correspondence.

Wherein, optical sensor can refer to RGB sensor or ALS (Ambientlightsensor, ambient light sensor) sensor, or can also be the optical sensor of other type, the present invention does not do concrete restriction to the type of optical sensor, as long as it can detect light intensity value.In addition, each sensor at least two optical sensors can be identical, also can be different, or also can part same section different, more preferably, as far as possible consistent in order to ensure the lighting performance of multiple optical sensor, to guarantee the accuracy adjusted the value of at least one parameter, at least two optical sensors can refer to the optical sensor of identical type.

In addition, any one detection mode during electronic equipment can adopt real-time detection, cycle detection or timing to detect detects light intensity value, specifically can determine to adopt which kind of detection mode according to the actual demand of the performance of electronic equipment and/or user, but no matter adopt which kind of detection mode, at least two optical sensors are all carry out work simultaneously, namely, as long as when needs detect light intensity value, at least two optical sensors all can carry out work simultaneously, at least two corresponding light intensity value to be detected.

Step 102: according at least two light intensity value, is defined as the first regulation strategy by regulation strategy; Wherein, regulation strategy is the strategy adjusted the value of at least one parameter of electronic equipment.

In specific implementation process, can be the light intensity value of ambient light, and surround lighting such as can refer to indoor light, outdoor sunshine, etc., and then at least one parameter of electronic equipment can be adjusted according to the light intensity value correspondence detected, to meet the actual needs of user as far as possible.For example, at least one parameter can refer to the display parameter of the display unit of electronic equipment, the contrast of the backlight illumination of such as display unit, the font size of display unit, display unit or other display parameter.

Such as, when the light intensity value detected is 100cd, the backlight illumination of display unit can be adjusted to 70% automatically, when the light intensity value detected is 60cd, the backlight illumination of display unit can be adjusted to 50%, namely, when surround lighting is stronger, the backlight illumination of display unit can be tuned up, so that user more clearly can watch the information on display unit, when surround lighting is more weak, the backlight illumination of display unit can be turned down, can avoid like this in darker environment because the backlight of display unit causes too by force user's visual fatigue, to meet the viewing demand of user as far as possible, the eyes of user can be protected as far as possible.

Because in general, multiple optical sensor corresponding can be arranged at the multiple positions on electronic equipment, be directed to same environment, by multiple light intensity value that multiple light sensors arrives, compared to only by a light intensity value that a light sensors arrives, the truth of environment can be reflected more exactly, can conform to actual environment as far as possible, and then also can more realistic situation to the adjustment of at least one parameter according at least two light intensity value, the accuracy adjusted is improved, to meet the actual demand of user.

In the embodiment of the present invention, the first regulation strategy can be determined according at least two light intensity value, and then can adjust according to the value of the first regulation strategy at least one parameter again, specifically, optionally, in another embodiment of the present invention, according at least two light intensity value, regulation strategy is defined as the first regulation strategy, comprises:

According at least two light intensity value, determine the first adjustment foundation;

Regulate according to first according to the strategy adjusted the value of at least one parameter as the first regulation strategy.

That is, the first adjustment foundation can be determined according at least two light intensity value detected, first adjustment foundation of such acquisition can more close to actual conditions, and then regulate using first according to the strategy adjusted at least one parameter value as the first regulation strategy again, so also can be more accurate for the adjustment of at least one parameter according to the first regulation strategy, precision is higher.

Step 103: according to the first regulation strategy, adjusts the value of at least one parameter.

After determining the first regulation strategy, just directly can adjust the value of at least one parameter according to the first regulation strategy, specifically, can regulate according to adjusting the value of at least one parameter according to first, continue for above-mentioned example, 100cd and 60cd wherein all can be understood as first in the embodiment of the present invention and regulates foundation, the backlight illumination of display unit can be understood as at least one parameter in the embodiment of the present invention, so, namely the first regulation strategy is can be understood as according to the strategy that the backlight illumination of 100cd or 60cd to display unit adjusts.

In specific implementation process, step 102 can be implemented in such a way.

Optionally, in another embodiment of the present invention, according at least two light intensity value, determine the first adjustment foundation, comprising:

The light intensity value that at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as first; Wherein, the end time of scheduled duration is detect the moment of at least two light intensity value; Or

The mean value of at least two light intensity value is regulated foundation as first; Or

Light intensity value maximum for value at least two light intensity value is regulated foundation as first.

That is, by after at least two light sensors at least two light intensity value, the first adjustment foundation can be determined according to any one mode in above-mentioned three kinds of modes, specifically:

First kind of way:

The light intensity value that at least two light intensity value, amplitude of variation is minimum in scheduled duration can be regulated foundation as first.

In embodiments of the present invention, electronic equipment can store the history Detection Information of at least two optical sensors, when in step 101 at least two light intensity value being detected, can on the basis of history Detection Information, determine the light intensity value that amplitude of variation is minimum in scheduled duration, and it can be used as the first adjustment foundation.

Wherein, scheduled duration can be such as 3 minutes or 8 minutes, etc., in order to avoid because user moves to another environment from an environment and causes the sudden change of ambient light as far as possible, more preferably, what scheduled duration can be arranged is shorter, because in general, when user be in a specific environment use electronic equipment time, because the optical sensor of electronic equipment itself is for outside the detection restriction of light, the change of ambient light is general all less, so adopt first kind of way can improve the accuracy of detection as far as possible.

The second way:

The mean value of at least two light intensity value is regulated foundation as first.

In general, the mean value of at least two light intensity value is relative to any one at least two light intensity value, can more close to the actual value of actual environment, by the mode of averaging, the too high or too low of single light intensity value can be avoided as far as possible, the accuracy of detection can be improved with this.

The third mode:

Light intensity value maximum for value at least two light intensity value is regulated foundation as first.

In the environment residing for electronic equipment, light source is generally positioned at the top of electronic equipment, such as indoor lamp source is generally be positioned at ceiling, the light intensity value of so irradiating the light come from top is generally maximum, and, because user is in this context, such light is also generally the most direct for the impact of user, when by multiple light sensors to multiple light intensity value time, in order to conform to the actual conditions of user as far as possible, first each light intensity value at least two light intensity value can be compared, and light intensity value maximum for wherein value is regulated foundation as first.

More than merely illustrate the mode that three kinds of bases at least two light intensity value determine the first adjustment foundation, certainly, can also have alternate manner, just differ one illustrates herein.

In specific implementation process, user can select wherein any one mode to determine the first adjustment foundation, or, electronic equipment also can Stochastic choice wherein a kind of, the present invention does not do concrete restriction.

In addition, electronic equipment is in the process used, due to the difference of attitude, may cause the detection of light intensity value inaccurate, and user is in the process using electronic equipment, the frequency that the attitude of electronic equipment changes is general all higher, so can also on the basis of at least two light intensity value, again according to the actual service condition of electronic equipment, namely determine the first adjustment foundation according to the attitude of electronic equipment again.

Optionally, in another embodiment of the present invention, according at least two light intensity value, determine the first adjustment foundation, comprising:

Determine the current pose of electronic equipment;

According to current pose and at least two light intensity value, determine the first adjustment foundation.

Because multiple optical sensor is generally positioned at multiple positions of electronic equipment, and the light intensity value that multiple optical sensors of multiple position detect respectively is generally different, in order to as far as possible close to actual environment, can determine according to the current pose of electronic equipment can close to the light intensity value of true environment, and it can be used as the first adjustment according to the adjustment realized at least one parameter.

Optionally, in another embodiment of the present invention, the first optical sensor at least two optical sensors is arranged at the first surface at the display unit place of electronic equipment, the second optical sensor at least two optical sensors is arranged at second of the place, top of electronic equipment, and first surface is vertical with second;

According to current pose and at least two light intensity value, determine the first adjustment foundation, comprising:

Be less than or equal to the first attitude of the first predetermined angle threshold value if current pose is the angle between display unit and surface level, the first light intensity value at least two light intensity value is defined as the first adjustment foundation; Wherein, the first light intensity value is obtained by the first light sensors.

Be mobile phone with electronic equipment, be specially two at least two optical sensors, refer to Fig. 2, first surface is the face at the display screen place of mobile phone, the i.e. face at rectangle frame 203 place in Fig. 2, the second face is the face at the place, top of mobile phone, i.e. the face at rectangle frame 204 place in Fig. 2, visible, first surface is vertical with second, and density bullet 201 represents the first optical sensor, and density bullet 202 represents the second optical sensor.

In actual use, most of light in environment is generally injected directly over mobile phone, attitude when the current pose of mobile phone is display screen horizontal positioned or close to attitude during horizontal positioned time, by the first light sensors of being arranged at the first surface of mobile phone to light intensity value should be maximum, and be also immediate with actual environment, because now user will check display screen, so the light intensity of light experienced of user should with from directly over the light intensity of incident light close, the light intensity value (i.e. the first light intensity value) that now just the first light sensors can be arrived regulates foundation as first.Wherein, the attitude during display screen horizontal positioned of mobile phone, mobile phone is lain in a horizontal plane in desktop viewing video by such as user, or mobile phone level is held in hand and checks photo, etc.

When the display screen horizontal positioned of level, the display screen of mobile phone be parallel between surface level, namely, angle now between the display screen of mobile phone and surface level can think 0 °, and when the display screen of level close to horizontal positioned is, angle between display screen and surface level can be thought close to 0 °, so can by first predetermined threshold arrange less, such as 10 °, first predetermined angle threshold value is less, show the display screen of mobile phone and surface level more close to parallel, the first light intensity value now arrived by the first light sensors more can close to the actual light intensity angle value of environment, namely actual environment can be reflected more really, the accuracy of testing result also can be higher.

Optionally, in another embodiment of the present invention, according to current pose and at least two light intensity value, determine the first adjustment foundation, comprising:

Be more than or equal to the attitude of the second predetermined angle threshold value if current pose is the angle between display unit and surface level, by the second light intensity value lacked in two light intensity value be defined as the first adjustment foundation; Wherein, the second predetermined angle threshold value is more than or equal to the first predetermined angle threshold value, and the second light intensity value is obtained by the second light sensors.

Continue for Fig. 2, when determining that the display screen of mobile phone is with horizontal plane or close to time vertical, now because attitude changes, second optical sensor is more close to light source, the second light intensity value so arrived by the second light sensors can more close to the light intensity value of true environment, namely, the light intensity value arrived by the second light sensors is just more accurate, more conform to actual conditions, so, now the second light intensity value directly can be regulated foundation, to improve the accuracy of the adjustment of the value at least one parameter as first.

Further, in order to try one's best exactly by the light intensity value of the second light sensors true environment, what the second predetermined angle threshold value can be arranged tries one's best close to 90 °, such as, can be set to 85 °.

In addition, in specific implementation process, first predetermined angle threshold value can be less than the second angle threshold value, such as the first angle threshold value is 10 °, second angle threshold value is 85 °, or, first predetermined angle threshold value also can be identical with the second angle threshold value, such as be 45 °, the embodiment of the present invention does not limit for the value of the first angle threshold value and the second angle threshold value, specifically can consider to arrange according to combined factors such as the performances of the use habit of the performance of electronic equipment, user, the first optical sensor and the second optical sensor.

In the embodiment of the present invention, electronic equipment can pass through at least two light intensity value corresponding at least two light sensors, and then determine the first regulation strategy according at least two light intensity value again, to adjust according to the value of the first regulation strategy at least one parameter of electronic equipment, because in general, multiple optical sensor can the corresponding multiple positions arranged on an electronic device, and be directed to same environment, by multiple light intensity value that multiple light sensors arrives, compared to only by a light intensity value that a light sensors arrives, the truth of environment can be reflected more exactly, that is, actual environment can be reflected more exactly by least two light intensity value, the light intensity value that electronic equipment finally obtains also just can be more accurate, and then also can be more accurate to the adjustment of the value of at least one parameter according at least two light intensity value, can conform to actual environment so as far as possible, to meet the actual demand of user.

Refer to Fig. 3, based on same inventive concept, the embodiment of the present invention provides the first electronic equipment 300, and electronic equipment 300 comprises:

At least two optical sensors 301, for detecting at least two corresponding light intensity value;

Processor 302, is connected with at least two optical sensors 301, for according at least two light intensity value, regulation strategy is defined as the first regulation strategy; And according to the first regulation strategy, the value of at least one parameter of electronic equipment 300 is adjusted; Wherein, regulation strategy is the strategy adjusted the value of at least one parameter.

Specifically, processor 302 can be general central processing unit (CPU), or can be ASIC(Application Specific Integrated Circuit) (ApplicationSpecificIntegratedCircuit, ASIC), or can be one or more for control program perform integrated circuit.

Can be connected respectively by connecting line between processor 302 with at least two optical sensors 301, this connecting line has the effect of Signal transmissions, namely, can keeping being electrically connected between processor 302 and at least two optical sensors 301, detecting at least two corresponding light intensity value for controlling at least two optical sensors 301.

Further, electronic equipment 300 can also comprise storer, and the quantity of storer can be one or more.Storer can comprise ROM (read-only memory) (ReadOnlyMemory, ROM), random access memory (RandomAccessMemory, RAM) or magnetic disk memory.

Optionally, in another embodiment of the present invention, processor 302 for:

According at least two light intensity value, determine the first adjustment foundation;

Regulate according to first according to the strategy adjusted the value of at least one parameter described as the first regulation strategy.

Optionally, in another embodiment of the present invention, processor 302 for:

The light intensity value that at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as first; Wherein, the end time of scheduled duration is detect the moment of at least two light intensity value; Or

The mean value of at least two light intensity value is regulated foundation as first; Or

Light intensity value maximum for value at least two light intensity value is regulated foundation as first.

Optionally, in another embodiment of the present invention, processor 302 for:

Determine the current pose of electronic equipment 300;

According to current pose and at least two light intensity value, determine the first adjustment foundation.

Optionally, in another embodiment of the present invention, refer to Fig. 4, electronic equipment 300 also comprises display device 400, is connected with processor 302; The first optical sensor at least two optical sensors 301 is arranged at the first surface at display device 400 place, and the second optical sensor at least two optical sensors 301 is arranged at second of the place, top of electronic equipment 300, and first surface is vertical with second;

Processor 302 for:

Be less than or equal to the attitude of the first predetermined angle threshold value if current pose is the angle between display device 400 and surface level, the first light intensity value at least two light intensity value is defined as the first adjustment foundation; Wherein, the first light intensity value is obtained by the first light sensors.

Specifically, display device 400 can refer to light emitting diode (LightEmittingDiode, LED) display screen, Organic Light Emitting Diode (OrganicLightEmittingDiode, OLED) display screen, active matrix organic light-emitting diode (ActiveMatrixOrganicLightEmittingDiode, AMOLED) display screen IPS (In-PlaneSwitching, plane conversion) display screen, etc., display device 400 can have many sides, and many sides can form the shape of class rectangle.

In the diagram, be that two optical sensors 301 carry out illustrated exemplary explanation with at least two optical sensors 301, and, in specific implementation process, processor 302 generally can be arranged at the lower floor of display device 400, namely processor 302 generally can be arranged at the inside of electronic equipment 300, is to consult for the ease of reader in Fig. 4, is described so just it be directly shown in display device 400.

In addition, the second optical sensor of electronic equipment 300 can be arranged at the optional position of second, such as, can be arranged in Fig. 4 that in the middle part of place position to the left, or can also be arranged on position to the right, or can also be arranged on the two-port place of second, etc.

Optionally, in another embodiment of the present invention, current pose is the attitude when display device 400 horizontal positioned.

Optionally, in another embodiment of the present invention, processor 302 for:

Be more than or equal to the attitude of the second predetermined angle threshold value if current pose is the angle between display device 400 and surface level, the second light intensity value at least two light intensity value is defined as the first adjustment foundation; Wherein, the second predetermined angle threshold value is more than or equal to the first predetermined angle threshold value, and the second light intensity value is obtained by the second light sensors.

Optionally, in another embodiment of the present invention, current pose is when display device 400 is perpendicular to attitude during surface level.

Because the electronic equipment 300 in the embodiment of the present invention is similar to the principle that the information processing method in Fig. 1 is dealt with problems, therefore in the embodiment of the present invention, the enforcement of electronic equipment 300 see the enforcement of information processing method in Fig. 1, can not repeat them here.

In the embodiment of the present invention, electronic equipment 300 can detect at least two corresponding light intensity value by least two optical sensors 301, and then determine the first regulation strategy according at least two light intensity value again, to adjust according to the value of the first regulation strategy at least one parameter of electronic equipment 300, because in general, multiple optical sensor corresponding can be arranged on the multiple positions on electronic equipment 300, and be directed to same environment, by multiple light intensity value that multiple light sensors arrives, compared to only by a light intensity value that a light sensors arrives, the truth of environment can be reflected more exactly, that is, actual environment can be reflected more exactly by least two light intensity value, the light intensity value that electronic equipment 300 finally obtains also just can be more accurate, and then also can be more accurate to the adjustment of the value of at least one parameter according at least two light intensity value, can conform to actual environment so as far as possible, to meet the actual demand of user.

Refer to Fig. 5, based on same inventive concept, the embodiment of the present invention also provides the second electronic equipment, and this electronic equipment comprises detection module 501, determination module 502 and adjusting module 503.

Detection module 501, for passing through at least two light intensity value corresponding at least two light sensors;

Determination module 502, for according at least two light intensity value, is defined as the first regulation strategy by regulation strategy; Wherein, regulation strategy is the strategy adjusted the value of at least one parameter of electronic equipment;

Adjusting module 503, for according to the first regulation strategy, adjusts the value of at least one parameter.

Optionally, in another embodiment of the present invention, determination module 502 for:

According at least two light intensity value, determine the first adjustment foundation;

Regulate according to first according to the strategy adjusted the value of at least one parameter as the first regulation strategy.

Optionally, in another embodiment of the present invention, determination module 502, for basis at least two light intensity value, is determined the first adjustment foundation, is specially:

The light intensity value that at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as first; Wherein, the end time of scheduled duration is detect the moment of at least two light intensity value; Or

The mean value of at least two light intensity value is regulated foundation as first; Or

Light intensity value maximum for value at least two light intensity value is regulated foundation as first.

Optionally, in another embodiment of the present invention, determination module 502 for:

Determine the current pose of electronic equipment;

According to current pose and at least two light intensity value, determine the first adjustment foundation.

Optionally, in another embodiment of the present invention, the first optical sensor at least two optical sensors is arranged at the first surface at the display unit place of electronic equipment, the second optical sensor at least two optical sensors is arranged at second of the place, top of electronic equipment, and first surface is vertical with institute second;

Determination module 502 for according to current pose and at least two light intensity value, is determined the first adjustment foundation, is specially:

Be less than or equal to the attitude of the first predetermined angle threshold value if current pose is the angle between display unit and surface level, the first light intensity value at least two light intensity value is defined as the first adjustment foundation; Wherein, the first light intensity value is obtained by the first light sensors.

Optionally, in another embodiment of the present invention, current pose is the attitude when display unit horizontal positioned.

Optionally, in another embodiment of the present invention, determination module 502 for according to current pose and at least two light intensity value, is determined the first adjustment foundation, is specially:

Be more than or equal to the attitude of the second predetermined angle threshold value if current pose is the angle between display unit and surface level, the second light intensity value at least two light intensity value is defined as the first adjustment foundation; Wherein, the second predetermined angle threshold value is more than or equal to the first predetermined angle threshold value, and the second light intensity value is obtained by the second light sensors.

Optionally, in another embodiment of the present invention, current pose is when display unit is perpendicular to attitude during surface level.

Because the electronic equipment in the embodiment of the present invention is similar to the principle that the information processing method in Fig. 1 is dealt with problems, therefore in the embodiment of the present invention, the enforcement of electronic equipment see the enforcement of the information processing method in Fig. 1, can not repeat them here.

In the embodiment of the present invention, electronic equipment can pass through at least two light intensity value corresponding at least two light sensors, and then determine the first regulation strategy according at least two light intensity value again, to adjust according to the value of the first regulation strategy at least one parameter of electronic equipment, because in general, multiple optical sensor can the corresponding multiple positions arranged on an electronic device, and be directed to same environment, by multiple light intensity value that multiple light sensors arrives, compared to only by a light intensity value that a light sensors arrives, the truth of environment can be reflected more exactly, that is, actual environment can be reflected more exactly by least two light intensity value, the light intensity value that electronic equipment finally obtains also just can be more accurate, and then also can be more accurate to the adjustment of the value of at least one parameter according at least two light intensity value, can conform to actual environment so as far as possible, to meet the actual demand of user.

Those skilled in the art can be well understood to, for convenience and simplicity of description, only be illustrated with the division of above-mentioned each functional module, in practical application, can distribute as required and by above-mentioned functions and be completed by different functional units, inner structure by device is divided into different functional units, to complete all or part of function described above.The system of foregoing description, the specific works process of device and unit, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

In several embodiment provided by the present invention, should be understood that, disclosed system, apparatus and method, can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of described module or unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

If described integrated unit using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words or all or part of of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) or processor (processor) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (Read-OnlyMemory, ROM (read-only memory)), RAM (RandomAccessMemory, random access memory), magnetic disc or CD etc. various can be program code stored medium.

Specifically, the computer program instructions that a kind of information processing method in the embodiment of the present invention is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with a kind of information processing method in storage medium is read by an electronic equipment or be performed, comprise the steps:

By at least two light intensity value that at least two light sensors of electronic equipment are corresponding;

According at least two light intensity value, regulation strategy is defined as the first regulation strategy; Wherein, regulation strategy is the strategy adjusted the value of at least one parameter of electronic equipment;

According to the first regulation strategy, the value of at least one parameter is adjusted.

Optionally, that store in storage medium and step: according at least two light intensity value, regulation strategy is defined as the first regulation strategy, corresponding computer instruction, among the process be performed, comprising:

According at least two light intensity value, determine the first adjustment foundation;

Regulate according to first according to the strategy adjusted the value of at least one parameter as the first regulation strategy.

Optionally, that store in storage medium and step: according at least two light intensity value, determine the first adjustment foundation, corresponding computer instruction, among the process be performed, comprising:

The light intensity value that at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as first; Wherein, the end time of scheduled duration is detect the moment of at least two light intensity value; Or

The mean value of at least two light intensity value is regulated foundation as first; Or

Light intensity value maximum for value at least two light intensity value is regulated foundation as first.

Optionally, that store in storage medium and step: according at least two light intensity value, determine the first adjustment foundation, corresponding computer instruction, among the process be performed, comprising:

Determine the current pose of electronic equipment;

According to current pose and described at least two light intensity value, determine the first adjustment foundation.

Optionally, the first optical sensor at least two optical sensors is arranged at the first surface at the display unit place of electronic equipment, the second optical sensor at least two optical sensors is arranged at second of the place, top of electronic equipment, first surface is vertical with second, that store in storage medium and step: according to current pose and at least two light intensity value, determine the first adjustment foundation, corresponding computer instruction, among the process be performed, comprising:

Be less than or equal to the attitude of the first predetermined angle threshold value if current pose is the angle between display unit and surface level, the first light intensity value at least two light intensity value is defined as the first adjustment foundation; Wherein, the first light intensity value is obtained by the first light sensors.

Optionally, current pose is the attitude when display unit horizontal positioned.

Optionally, that store in storage medium and step: according to current pose and at least two light intensity value, determine that described first regulates foundation, corresponding computer instruction, among the process be performed, comprising:

Be more than or equal to the attitude of the second predetermined angle threshold value if current pose is the angle between described display unit and surface level, the second light intensity value at least two light intensity value is defined as the first adjustment foundation; Wherein, the second predetermined angle threshold value is more than or equal to the first predetermined angle threshold value, and the second light intensity value is obtained by the second light sensors.

Optionally, current pose is when display unit is perpendicular to attitude during surface level.

The above, above embodiment is only in order to be described in detail technical scheme of the present invention, but the explanation of above embodiment just understands method of the present invention and core concept thereof for helping, and should not be construed as limitation of the present invention.Those skilled in the art are in the technical scope that the present invention discloses, and the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.

Claims (17)

1. an information processing method, comprising:

By at least two light intensity value that at least two light sensors of electronic equipment are corresponding;

According to described at least two light intensity value, regulation strategy is defined as the first regulation strategy; Wherein, described regulation strategy is the strategy adjusted the value of at least one parameter of described electronic equipment;

According to described first regulation strategy, the value of at least one parameter described is adjusted.

2. the method for claim 1, is characterized in that, according to described at least two light intensity value, regulation strategy is defined as the first regulation strategy, comprises:

According to described at least two light intensity value, determine the first adjustment foundation;

Regulate according to described first according to the strategy adjusted the value of at least one parameter described as described first regulation strategy.

3. method as claimed in claim 2, is characterized in that, according to described at least two light intensity value, determine the first adjustment foundation, comprising:

The light intensity value that in described at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as described first; Wherein, the end time of described scheduled duration be detect described in moment of at least two light intensity value; Or

The mean value of described at least two light intensity value is regulated foundation as described first; Or

Light intensity value maximum for value in described at least two light intensity value is regulated foundation as described first.

4. method as claimed in claim 2, is characterized in that, according to described at least two light intensity value, determine the first adjustment foundation, comprising:

Determine the current pose of described electronic equipment;

According to described current pose and described at least two light intensity value, determine that described first regulates foundation.

5. method as claimed in claim 4, it is characterized in that, the first optical sensor in described at least two optical sensors is arranged at the first surface at the display unit place of described electronic equipment, the second optical sensor in described at least two optical sensors is arranged at second of the place, top of described electronic equipment, described first surface with described second vertical;

According to described current pose and described at least two light intensity value, determine that described first regulates foundation, comprising:

Be less than or equal to the attitude of the first predetermined angle threshold value if described current pose is the angle between described display unit and surface level, the first light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described first light intensity value is obtained by described first light sensors.

6. method as claimed in claim 5, it is characterized in that, described current pose is the attitude when described display unit horizontal positioned.

7. method as claimed in claim 5, is characterized in that, according to described current pose and described at least two light intensity value, determines that described first regulates foundation, comprising:

Be more than or equal to the attitude of the second predetermined angle threshold value if described current pose is the angle between described display unit and surface level, the second light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described second predetermined angle threshold value is more than or equal to described first predetermined angle threshold value, and described second light intensity value is obtained by described second light sensors.

8. method as claimed in claim 7, it is characterized in that, described current pose is when described display unit is perpendicular to attitude during described surface level.

9. an electronic equipment, comprising:

At least two optical sensors, for detecting at least two corresponding light intensity value;

Processor, is connected with described at least two optical sensors, for according to described at least two light intensity value, regulation strategy is defined as the first regulation strategy; And according to described first regulation strategy, the value of at least one parameter of described electronic equipment is adjusted; Wherein, described regulation strategy is the strategy adjusted the value of at least one parameter described.

10. electronic equipment as claimed in claim 9, it is characterized in that, described processor is used for:

According to described at least two light intensity value, determine the first adjustment foundation;

Regulate according to described first according to the strategy adjusted the value of at least one parameter described as described first regulation strategy.

11. electronic equipments as claimed in claim 10, it is characterized in that, described processor is used for:

The light intensity value that in described at least two light intensity value, amplitude of variation is minimum in scheduled duration is regulated foundation as described first; Wherein, the end time of described scheduled duration be detect described in moment of at least two light intensity value; Or

The mean value of described at least two light intensity value is regulated foundation as described first; Or

Light intensity value maximum for value in described at least two light intensity value is regulated foundation as described first.

12. electronic equipments as claimed in claim 10, it is characterized in that, described processor is used for:

Determine the current pose of described electronic equipment;

According to described current pose and described at least two light intensity value, determine that described first regulates foundation.

13. electronic equipments as claimed in claim 12, it is characterized in that, described electronic equipment also comprises display device, is connected with described processor; The first optical sensor in described at least two optical sensors is arranged at the first surface at described display device place, the second optical sensor in described at least two optical sensors is arranged at second of the place, top of described electronic equipment, described first surface with described second vertical;

Described processor is used for:

Be less than or equal to the attitude of the first predetermined angle threshold value if described current pose is the angle between described display device and surface level, the first light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described first light intensity value is obtained by described first light sensors.

14. electronic equipments as claimed in claim 13, is characterized in that, described current pose is the attitude when described display device horizontal positioned.

15. electronic equipments as claimed in claim 13, it is characterized in that, described processor is used for:

Be more than or equal to the attitude of the second predetermined angle threshold value if described current pose is the angle between described display device and surface level, the second light intensity value in described at least two light intensity value be defined as described first and regulate foundation; Wherein, described second predetermined angle threshold value is more than or equal to described first predetermined angle threshold value, and described second light intensity value is obtained by described second light sensors.

16. electronic equipments as claimed in claim 15, is characterized in that, described current pose is when described display device is perpendicular to attitude during described surface level.

17. 1 kinds of electronic equipments, comprising:

Detection module, for passing through at least two light intensity value corresponding at least two light sensors;

Determination module, for according to described at least two light intensity value, is defined as the first regulation strategy by regulation strategy; Wherein, described regulation strategy is the strategy adjusted the value of at least one parameter of described electronic equipment;

Adjusting module, for according to described first regulation strategy, adjusts the value of at least one parameter described.