CN105446497A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment. The method includes the steps of acquiring movement parameters of the electronic equipment; determining the position change of the electronic equipment in first preset time according to the movement parameters; judging whether the position change is smaller than the preset value or not; if the position change is smaller than the preset, controlling the electronic equipment to adjust the screen brightness of the electronic equipment in a first mode. The method is used for solving the technical problem that in the prior art, electronic equipment cannot flexibly and automatically adjust the screen brightness according to the actual use situations of users.

Description

A kind of information processing method and electronic equipment

Technical field

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

Background technology

The development of science and technology has driven social progress, the development of the communication technology is maked rapid progress and is become the technology that the numerous common people rely on day by day, as popularizing of the electronic equipments such as smart mobile phone, panel computer and intelligent watch, bring great convenience to the life of people.

When using electronic equipment to make user, the brightness of the light of screen is the brightness of applicable human eye viewing, when the screen of design of electronic devices, with the addition of the function of automatic adjusting screen brightness.The different light rays intensity of the residing environment of electronic equipment induction, by changing the backlight of screen, thus the brightness and contrast of automatic adjusting screen.In the environment of dark, the brightness and contrast of screen can turn down automatically, can automatic adjustment height in the environment that light is stronger, thus improves the comfort level of human eye viewing, plays the effect of vision protection.

But, when the automatic adjusting screen brightness of electronic equipment, by the restriction of the blowing angle of optical sensor, the environmental light brightness obtained by optical sensor may be variant with actual environmental light brightness, even if electronic equipment is in same environment, actual environmental light brightness does not change, also may because the environmental light brightness that optical sensor collects changes and triggers the adjustment to screen backlight, cause the problem occurring that screen intensity is glimmered, affect the viewing comfort level of user.

Summary of the invention

The invention provides a kind of information processing method and electronic equipment, can not according to the technical matters of the actual service condition of user adjusting screen brightness automatically neatly in order to solve electronic equipment in prior art.

For solving the problems of the technologies described above, the embodiment of the present invention provides a kind of information processing method on the one hand, and be applied in an electronic equipment, described method comprises:

Gather the kinematic parameter of electronic equipment;

The change in location of described electronic equipment in the first Preset Time is determined according to described kinematic parameter;

Judge whether described change in location is less than preset value;

If described change in location is less than described preset value, control the screen intensity that described electronic equipment regulates described electronic equipment in a first pattern.

Optionally, the described electronic equipment of described control regulates the screen intensity of described electronic equipment in a first pattern, comprising:

Gathered multiple environment bright angle value of described electronic equipment in second schedule time by the optical sensor of described electronic equipment, wherein, described second schedule time and described first schedule time identical or different;

The first brightness value is determined from described multiple environment bright angle value;

Control described electronic equipment and regulate described screen intensity based on described first brightness value.

Optionally, described first brightness value is the maximal value in described multiple environment bright angle value.

Optionally, if described change in location is more than or equal to described preset value, then control the screen intensity that described electronic equipment regulates described electronic equipment in a second mode;

Wherein, in the second mode, gathered N number of environment bright angle value of described electronic equipment by the optical sensor of described electronic equipment, N is positive integer;

Based on described N number of environment bright angle value, screen intensity described in dynamic conditioning.

Optionally, screen intensity described in described dynamic conditioning, comprising:

Gather and obtain described electronic equipment in the environment bright angle value in the first moment, control described electronic equipment and described screen intensity is adjusted to the first screen intensity, wherein, the described environment bright angle value in described first screen intensity and described first moment matches; And

Gather and obtain described electronic equipment in the environment bright angle value in the second moment, control described electronic equipment and described screen intensity is adjusted to the second screen intensity, wherein, the described environment bright angle value in described second screen intensity and described second moment matches.

Optionally, when described electronic equipment regulates described screen intensity with described first mode, if when the environmental light brightness changing value of described electronic equipment within the 3rd schedule time gathering acquisition is greater than threshold value, then the regulative mode of described screen intensity is switched to described second pattern from described first mode.

On the other hand, the embodiment of the present invention also provides a kind of electronic equipment, comprising:

Display unit;

First sensor, for gathering the kinematic parameter of described electronic equipment;

Processor, for determining the change in location of described electronic equipment in the first Preset Time according to described kinematic parameter; Judge whether described change in location is less than preset value; If described change in location is less than described preset value, control the screen intensity that described electronic equipment regulates described display unit in a first pattern.

Optionally, it is characterized in that, described electronic equipment also comprises optical sensor, and described optical sensor is used for:

Gather multiple environment bright angle value of described electronic equipment in second schedule time, wherein, described second schedule time and described first schedule time identical or different;

Described processor is used for: from described multiple environment bright angle value, determine the first brightness value;

Control described electronic equipment and regulate described screen intensity based on described first brightness value.

Optionally, described first brightness value is the maximal value in described multiple environment bright angle value.

Optionally, described electronic equipment also comprises the second sensor, described processor also for:

Described processor also for:

If described change in location is more than or equal to described preset value, then control the screen intensity that described electronic equipment regulates described electronic equipment in a second mode;

In the second mode, based on N number of environment bright angle value of the described electronic equipment that described second sensor gathers, screen intensity described in dynamic conditioning, wherein, N is positive integer; Described second sensor comprises optical sensor.

Optionally, described optical sensor is used for: gather and obtain the environment bright angle value of described electronic equipment in the first moment, and described electronic equipment is in the environment bright angle value in the second moment;

Described processor also for: based on the described environment bright angle value that described first moment collects, control described electronic equipment and described screen intensity is adjusted to the first screen intensity, wherein, the described environment bright angle value in described first screen intensity and described first moment matches; And based on the described environment bright angle value that described second moment collects, control described electronic equipment and described screen intensity is adjusted to the second screen intensity, wherein, the described environment bright angle value in described second screen intensity and described second moment matches.

Optionally, described processor also for:

When described electronic equipment regulates described screen intensity with described first mode, if when the environmental light brightness changing value of described electronic equipment within the 3rd schedule time gathering acquisition is greater than threshold value, then the regulative mode of described screen intensity is switched to described second pattern from described first mode.

On the other hand, the embodiment of the present invention also provides another kind of electronic equipment, comprising:

First acquisition module, for gathering the kinematic parameter of electronic equipment;

First determination module, for determining the change in location of described electronic equipment in the first Preset Time according to described kinematic parameter;

First judge module, for judging whether described change in location is less than preset value;

First control module, for when described change in location is less than described preset value, controls the screen intensity that described electronic equipment regulates described electronic equipment in a first pattern.

By the embodiment of in the above-described embodiment in the present invention or multiple embodiment, at least following technique effect can be realized:

1, in the embodiment of the present invention, the screen intensity shaping modes adapted with change in location is determined, to adapt to current actual conditions, so the regulative mode of scheme in the embodiment of the present invention is more flexible according to change in location, closing to reality situation more, so can obtain better regulating effect.Further, can reach and save electric energy and improve the technique effect of user experience.

2, when the change in location of electronic equipment is less, use first mode to control screen intensity, maintain a certain brightness by screen intensity, effectively can avoid the not mobile problem but causing screen flickering of electronic equipment.When the change in location of electronic equipment is larger; use the second Schema control screen intensity, namely electronic equipment environmentally brightness values dynamic conditioning screen intensity, makes screen intensity change along with the difference of surround lighting; to improve the comfort level of human eye viewing, play the effect of vision protection.

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.

The process flow diagram of a kind of information processing method that Fig. 1 provides for the embodiment of the present invention one;

Fig. 2 a-2c is the schematic diagram determining change in location in the information processing method of Fig. 1;

The structural drawing of a kind of electronic equipment that Fig. 3 provides for the embodiment of the present invention two;

The structural drawing of the another kind of electronic equipment that Fig. 4 provides for the embodiment of the present invention three.

Embodiment

The embodiment of the present invention provides a kind of information processing method and electronic equipment, can not according to the technical matters of the actual service condition of user adjusting screen brightness automatically neatly in order to solve electronic equipment in prior art.

Technical scheme in the embodiment of the present invention is solve above-mentioned technical matters, and general thought is as follows:

In embodiments of the present invention, the kinematic parameter of electronic equipment is gathered, according to the change in location of kinematic parameter determination electronic equipment in the first Preset Time.If change in location is less than preset value, then regulate the screen intensity of electronic equipment in a first pattern.Compared in prior art, electronic equipment is according to the real-time adjusting screen brightness of current environment bright angle value, in the embodiment of the present invention, the screen intensity shaping modes adapted with change in location is determined according to change in location, to adapt to current actual conditions, so the regulative mode of scheme in the embodiment of the present invention is more flexible, closing to reality situation more, so can obtain better regulating effect.Further, can reach and save electric energy and improve the technique effect of user experience.

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 order to better understand technique scheme, below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, the specific features being to be understood that in the embodiment of the present invention and embodiment is the detailed description to technical solution of the present invention, instead of the restriction to technical solution of the present invention, when not conflicting, the technical characteristic in the embodiment of the present invention and embodiment can combine mutually.

Embodiment one

The invention provides a kind of information processing method, can be applied to an electronic equipment, wherein, electronic equipment can be smart mobile phone, panel computer, for described electronic equipment specifically which type of equipment the present invention be not restricted.

As shown in Figure 1, the main flow of this information processing method is described below:

Step 101: the kinematic parameter gathering electronic equipment;

Step 102: determine the change in location of described electronic equipment in the first Preset Time according to described kinematic parameter;

Step 103: judge whether described change in location is less than preset value;

Step 104: if described change in location is less than described preset value, controls the screen intensity that described electronic equipment regulates described electronic equipment in a first pattern.

Wherein, in a step 101, the kinematic parameter of electronic equipment is gathered, specifically, installed the sensor of the motion conditions for detected electrons equipment in the inside of electronic equipment, this sensor can the kinematic parameter of Real-time Collection electronic equipment when being in mobile status.Wherein, kinematic parameter specifically can comprise: locus when electronic equipment remains static, screen orientation, electronic equipment is in acceleration, translational speed and moving direction etc. when moving integrally state, and the rotational angle of electronic equipment when own rotation, angular velocity and sense of rotation etc.Wherein, sensor can be gravity sensor, acceleration transducer or gyroscope etc.Gravity sensor and acceleration transducer may be used for measuring the kinematic parameter of electronic equipment when moving integrally, and gyroscope can obtain the higher kinematic parameter of precision, as obtained the anglec of rotation of electronic equipment at different directions.After sensor acquires kinematic parameter, the motion track of electronic equipment can be determined, as electronic equipment rotates a certain angle along a direction, or displacement etc. on a certain plane.Wherein, when obtaining kinematic parameter, can by a kind of sensors for data wherein, also multiple sensors image data can be used, in actual applications, for the sensor using what type, those skilled in the art can determine according to real needs, is not construed as limiting this present invention.

After execution of step 101, perform step 102, according to the change in location of kinematic parameter determination electronic equipment in the first Preset Time, specifically, in the process of the kinematic parameter such as translational acceleration, translational speed, moving direction, the anglec of rotation of sensor Real-time Obtaining electronic equipment, kinematic parameter before electronic equipment acquisition current time in the first Preset Time, and data processing is carried out to the kinematic parameter obtained, calculate the change in location of electronic equipment.Wherein, according to the difference of change in location obtained, have following three kinds of possible implementations at least:

The first possible implementation:

In the implementation that this is possible, change in location is the relative distance of initial position and final position.When obtaining change in location, first the initial position of electronic equipment in the start time of the first Preset Time is determined, then the final position of electronic equipment in current time (i.e. the end time of the first Preset Time) is obtained, wherein, final position can be determined based on the kinematic parameter of initial position and electronic equipment.After determining the initial position of electronic equipment in the first Preset Time and final position, obtain the relative distance of two positions.

For example, as shown in Figure 2 a, suppose that electronic equipment is mobile phone, in the rectangular coordinate system in space that unit is centimetre, suppose that the initial position of mobile phone is A, coordinate is (0, 0, 3), within the first Preset Time 10 seconds, mobile phone moves to position B from position A, and then be moved to final position C, the coordinate of C is (3, 4, 0), from initial position A to final position C, the change in location coordinate of mobile phone movement is expressed as (-3,-4,-3), being scaled distance is 4.9 centimetres, namely, in the first Preset Time, the change in location of electronic equipment is 4.9 centimetres.

The implementation that the second is possible:

In the implementation that this is possible, change in location is the length of the motion track of the first Preset Time inner electronic equipment.When obtaining change in location, first the initial position of electronic equipment in the start time of the first Preset Time is determined, then the length of electronic equipment motion track of movement in the first Preset Time is obtained, wherein, the length of motion track can calculate acquisition according to the acceleration of electronic equipment movement.

For example, as shown in Figure 2 b, suppose that electronic equipment is mobile phone, in the rectangular coordinate system in space that unit is centimetre, suppose that the initial position of mobile phone is A, coordinate is (0,0,3), within the first Preset Time 10 seconds, mobile phone moves to position B from position A, and the coordinate of B is (3,4,3), and then be moved to final position C at position B, the coordinate of C is (3,4,0).In this embodiment, the size of change in location is the length of A to B and the length sum of B to C, and be 5 centimetres through can be calculated AB, BC is 3 centimetres, that is, in the first Preset Time, the change in location of electronic equipment is 8 centimetres.

The third possible implementation:

In the implementation that this is possible, change in location is the moving range of the first Preset Time inner electronic equipment.When obtaining change in location, need to determine the initial position of electronic equipment in the first Preset Time, movement locus and final position, wherein, the kinematic parameter that movement locus and final position can obtain according to sensor calculates acquisition.According to the line of initial position and final position, and the movement locus of electronic equipment, the area of the moving range of electronic equipment can be calculated, namely obtain change in location.

For example, as shown in Figure 2 c, suppose that electronic equipment is mobile phone, in the rectangular coordinate system in space that unit is centimetre, suppose that the initial position of mobile phone is A, coordinate is (0,0,3), within the first Preset Time 10 seconds, mobile phone moves to position B from position A, and the coordinate of B is (3,4,3), and then be moved to final position C at position B, the coordinate of C is (3,4,0).In this embodiment, the size of change in location is the leg-of-mutton area that initial position A, movement locus AB, BC and final position C form, three sides of a triangle AB, BC, AC are respectively 5,3 and 4.9 centimetres, the area calculating triangle ABC is 7.1 square centimeters, is namely 7.1 square centimeters in the change in location of the first Preset Time inner electronic equipment.

It should be noted that, in actual applications, determine that the mode of change in location has multiple, three kinds that more than enumerate are only citing and use, and not meaning that the implementation of the embodiment of the present invention is only limitted to above three kinds, those skilled in the art can set according to demand.

After execution step 102, perform step 103, judge whether change in location is less than preset value.Specifically, electronic equipment is provided with preset value, as judging the criterion whether change in location satisfies condition.After obtaining change in location, compare with this preset value, wherein, different according to the obtain manner of change in location, the result judged also may produce larger difference, certainly, in actual applications, also can judge whether multiple change in location is less than preset value, when whole change in location is all less than preset value for satisfying condition simultaneously.Such as, in the first Preset Time, user holds mobile phone from the A of position, gets back to again on the A of position after a circle, and when change in location is the relative position of initial position and final position, electronic equipment is equivalent to not mobile.When length computation change in location according to motion track, result of calculation is the girth of the circle that mobile phone is drawn.When calculating according to moving range, change in location is the area of the circle that mobile phone is drawn.When change in location comprises above-mentioned three kinds of situations simultaneously, when the girth determining the circle that mobile phone is drawn is less than length preset value, and when the area of circle is less than area preset value, could determine that change in location is less than preset value.

After execution of step 103, perform step 104, if change in location is less than preset value, control the screen intensity that electronic equipment regulates electronic equipment in a first pattern.Specifically, adjusting screen brightness regulates the backlight of electronic equipment, and backlight display refers to when user uses electronic equipment, and the display screen of electronic equipment can send backlight from side or behind, so that more clearly displaying contents.In embodiments of the present invention, when change in location is less than preset value, the change characterizing the shift position of electronic equipment in the first Preset Time is less, when the shift position change of electronic equipment is less, accordingly, the change of the intensity of illumination of environment residing for electronic equipment is also less.If mobile phone movement by a small margin will cause the screen intensity of electronic equipment to change, the use of user can be affected.Therefore, in embodiments of the present invention, if change in location is less than preset value, control the screen intensity that electronic equipment regulates electronic equipment in a first pattern, in the first mode, when environmental change around electronic equipment is less, the screen intensity controlling electronic equipment maintains a comparatively stable brightness value, avoids the flicker of screen.

In embodiments of the present invention, gather the kinematic parameter of electronic equipment, according to the change in location of kinematic parameter determination electronic equipment in the first Preset Time, judge whether change in location is less than preset value.If change in location is less than preset value, then control the screen intensity that electronic equipment regulates electronic equipment in a first pattern.Compared in prior art, electronic equipment is according to the real-time adjusting screen brightness of current environment bright angle value, in technical scheme of the present invention, first the change in location of electronic equipment in the first Preset Time is determined, when change in location is less than preset value, regulate the screen intensity of electronic equipment in a first pattern, in the flrst mode, control screen intensity and maintain stable brightness, with realize avoiding screen flicker or flickering, save electric energy and improve the technique effect of user experience.

Further, step 104 comprises: the multiple environment bright angle value being gathered the second schedule time inner electronic equipment by the optical sensor of electronic equipment, wherein, second schedule time and first schedule time identical or different.From multiple environment bright angle value, determine the first brightness value, control electronic equipment based on the first brightness value adjusting screen brightness.Specifically, in the first Preset Time, when the change in location of electronic equipment is less than preset value, in the ensuing time, control screen intensity and remain on the first brightness value.When determining the first brightness value, first gathered multiple environment bright angle value of the second schedule time inner electronic equipment by optical sensor, then from multiple environment bright angle value, determine the first brightness value.Wherein, the inside of optical sensor can arrange the photovoltaic detector more weak light signal also being had to higher sensitivity, to gather environment bright angle value more accurately.Second schedule time can be first schedule time, also it can be a period of time after first schedule time, certainly, it can also be the longer a period of time comprising for first schedule time, the setting of the present invention to second schedule time is not restricted, and those skilled in the art can set according to real needs.After optical sensor acquires multiple environment bright angle value within second schedule time, determine the first brightness value according to multiple environment bright angle value, and then based on the first brightness value adjusting screen brightness.

Optionally, first brightness value is the maximal value in multiple environment bright angle value, within second schedule time, environment bright angle value may change among a small circle, in order to make the user demand of the most applicable user of screen intensity, the maximal value chosen in multiple environment bright angle value carrys out adjusting screen brightness.Certainly, in actual applications, can also carry out adjusting screen brightness according to the mean value of multiple environment bright angle value or intermediate value, the present invention is not construed as limiting this.

Optionally, in embodiments of the present invention, if change in location is more than or equal to preset value, then the screen intensity that electronic equipment regulates electronic equipment is in a second mode controlled.Wherein, under the second mode, gathered N number of environment bright angle value of electronic equipment by the optical sensor of electronic equipment, N is positive integer, based on N number of environment bright angle value, and dynamic conditioning screen intensity.Specifically, when change in location is more than or equal to preset value, the moving range characterizing electronic equipment is relatively large, in other words, the environment bright angle value of environment residing for electronic equipment may change greatly, therefore need to switch shaping modes, use the screen intensity of the second mode tuning electronic equipment.In this mode, optical sensor gathers N number of environment bright angle value of electronic equipment, then carrys out dynamic conditioning screen intensity based on N number of environment bright angle value.Screen intensity is maintained under some brightness values in first mode, dynamically adjust screen intensity according to multiple environment bright angle value in a second mode.In prior art, electronic equipment carrys out adjusting screen brightness real-time dynamicly according to current environmental light brightness value completely, in user's hand-hold electronic equipments moving process, also may occur that screen intensity is frequently glimmered, flickering problem.In the embodiment of the present invention, under the second mode, electronic equipment not Real-time Obtaining environment bright angle value carrys out real-time adjusting screen brightness, but gathers N number of environment bright angle value and carry out adjusting screen brightness.

Further, under the second mode, the process of dynamic conditioning screen intensity specifically comprises: gather and obtain the environment bright angle value of electronic equipment in the first moment, control electronic equipment and screen intensity is adjusted to the first screen intensity, wherein, the environment bright angle value in the first screen intensity and the first moment matches.Gather and obtain the environment bright angle value of electronic equipment in the second moment, control electronic equipment and screen intensity is adjusted to the second screen intensity, wherein, the environment bright angle value in the second screen intensity and the second moment matches.Specifically, in embodiments of the present invention, electronic equipment obtains the environment bright angle value of current time respectively in the different moment, and the environment bright angle value controlling screen intensity and current time matches.Wherein, determine that the mode in the first moment and the second moment has multiple, the first arranges the frequency obtaining environment bright angle value, such as, obtains once, be namely separated by between the first moment and the second moment 1 second every 1 second.The second determines according to kinematic parameter, and the translational speed of electronic equipment is faster, and the interval obtaining environment bright angle value is shorter.The third is the size coming regulating time interval according to the change size of the environment bright angle value obtained, if environment bright angle value changes greatly, then and the corresponding time interval shortening acquisition environment bright angle value.Wherein, when the change frequency of environment bright angle value is very fast, but when variation range is less, the interval obtaining environment bright angle value can be lengthened, avoiding when surround lighting changes little, frequently there is flickering situation in screen.For example, when user in the room of a uniform illumination, walk up and down by hand-hold electronic equipments, although electronic equipment is in mobile status, but the change of environment bright angle value is but very little, substantially fluctuate at mean value, in this case, the time interval in the first moment and the second moment should be increased, avoid repeatedly obtaining identical environment bright angle value and frequent adjusting screen brightness among a small circle.Certainly, in actual applications, different modes can also be combined and determine the first moment and the second moment, the present invention is not restricted this.

When change in location is more than or equal to preset value, by the technical scheme of the second mode tuning screen intensity, screen intensity can be made different along with the difference of surround lighting, make it the user demand adapting to user.Wherein, while environmentally brightness values adjusting screen brightness, can avoid again electronic equipment within the extremely short time, occur the problem that screen intensity is glimmered repeatedly.

Optionally, when electronic equipment in a first pattern adjusting screen brightness time, if gather obtain the environmental light brightness changing value of electronic equipment within the 3rd schedule time be greater than threshold value, then the regulative mode of screen intensity is switched to the second pattern from first mode.Specifically, when electronic equipment uses first mode adjusting screen brightness, may occur that electronic equipment is not when occurring mobile, environmental light brightness but creates very large change, if in the brightness still making screen intensity maintain before surround lighting change, then the use of user can be affected.Therefore, in embodiments of the present invention, gather the environment bright angle value of electronic equipment within the 3rd schedule time, obtain environmental light brightness changing value according to calculating, and this environmental light brightness changing value and the threshold value preset are compared.If environmental light brightness changing value is greater than threshold value, then the regulative mode of screen intensity is switched to the second pattern from first mode, enable the electronic equipment environmentally dynamic adjusting screen brightness of brightness values.When environmental light brightness changing value is again less than threshold value in the 3rd Preset Time, and when environment bright angle value is less than preset value in the first Preset Time, then electronic equipment is switched to first mode by the second pattern.

For example, electronic equipment is mobile phone, plays mobile phone in bed before user sleeps, and the illuminating lamp on ceiling provides illumination, uniform illumination in the scope of bed.Suppose in the first Preset Time, user is seated object for appreciation mobile phone, and the change in location of mobile phone is less than preset value, and electronic equipment controls screen brightness stability in a certain brightness.When user becomes recumbency from being seated, the change in location of electronic equipment is greater than preset value, uses the second pattern dynamic adjustments screen intensity.When user's recumbency plays mobile phone, when mobile phone location change is less than preset value again in the first Preset Time, the light-modulating mode of electronic equipment switches back first mode by the second pattern.In the flrst mode, when user determines sleep, by the switch of the head of a bed, indoor illumination is closed, in this case, although the change in location of mobile phone is less than preset value, but the environment bright angle value obtained by optical sensor, can determine that current environment ambient light brightness changing value has exceeded threshold value, therefore, control electronic equipment and switch to the second pattern by first mode, make screen intensity corresponding with the surround lighting that surround lighting occurs after larger change, enable user use electronic equipment under the screen intensity of the best.

Embodiment two

Based on the inventive concept same with information processing method in the embodiment of the present invention one, the embodiment of the present invention provides a kind of electronic equipment, please refer to Fig. 3, and described electronic equipment comprises:

Display unit 301;

First sensor 302, for gathering the kinematic parameter of described electronic equipment;

Processor 303, for determining the change in location of described electronic equipment in the first Preset Time according to described kinematic parameter; Judge whether described change in location is less than preset value; If described change in location is less than described preset value, control the screen intensity that described electronic equipment regulates described display unit in a first pattern.

Specifically, display unit 301 has backlight regulatory function, and when user uses electronic equipment, the backlight module of electronic equipment sends backlight, so that more clearly displaying contents.Because electronic equipment has automatic backlight regulation mechanism; the different light rays intensity of residing environment can be responded to; regulate the brightness and contrast of display unit 301; the brightness and contrast of display unit 301 automatically can turn down in the environment of dark; automatic adjustment height in the environment that light is stronger; thus improve the comfort level of human eye viewing, play the effect of vision protection.

Specifically, processor 303 can be specifically general central processing unit (CPU), can be that ASIC(Application Specific Integrated Circuit) is (English: ApplicationSpecificIntegratedCircuit, being called for short: ASIC), can be one or more integrated circuit performed for control program.

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

Optionally, described electronic equipment also comprises optical sensor, and described optical sensor is used for:

Gather multiple environment bright angle value of described electronic equipment in second schedule time, wherein, described second schedule time and described first schedule time identical or different;

Processor 303 for: from described multiple environment bright angle value, determine the first brightness value;

Control described electronic equipment and regulate described screen intensity based on described first brightness value.

Optionally, described first brightness value is the maximal value in described multiple environment bright angle value.

Optionally, described electronic equipment also comprises the second sensor, processor 303 also for:

If described change in location is more than or equal to described preset value, then control the screen intensity that described electronic equipment regulates described electronic equipment in a second mode;

In the second mode, based on N number of environment bright angle value of the described electronic equipment that described second sensor gathers, screen intensity described in dynamic conditioning, wherein, N is positive integer; Described second sensor comprises optical sensor.

Processor 303 also for: based on described N number of environment bright angle value, screen intensity described in dynamic conditioning.

Described optical sensor is used for: gather and obtain the environment bright angle value of described electronic equipment in the first moment, and described electronic equipment is in the environment bright angle value in the second moment;

Processor 303 for: based on the described environment bright angle value that described first moment collects, control described electronic equipment and described screen intensity is adjusted to the first screen intensity, wherein, the described environment bright angle value in described first screen intensity and described first moment matches; And based on the described environment bright angle value that described second moment collects, control described electronic equipment and described screen intensity is adjusted to the second screen intensity, wherein, the described environment bright angle value in described second screen intensity and described second moment matches.

Optionally, processor 303 also for:

When described electronic equipment regulates described screen intensity with described first mode, if gather the environmental light brightness changing value of described electronic equipment within the 3rd schedule time obtained to be greater than threshold value, then the regulative mode of described screen intensity is switched to described second pattern from described first mode.

Various variation pattern in information processing method in earlier figures 1 embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the aforementioned detailed description to information processing method, 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.

Embodiment three

Based on the inventive concept same with information processing method in the embodiment of the present invention one, the embodiment of the present invention provides a kind of electronic equipment, please refer to Fig. 4, and described electronic equipment comprises:

First acquisition module 401, for gathering the kinematic parameter of electronic equipment;

First determination module 402, for determining the change in location of described electronic equipment in the first Preset Time according to described kinematic parameter;

First judge module 403, for judging whether described change in location is less than preset value;

First control module 404, for when described change in location is less than described preset value, controls the screen intensity that described electronic equipment regulates described electronic equipment in a first pattern.

Optionally, described electronic equipment also comprises the second acquisition module, the second determination module and the second control module, and described second acquisition module is used for:

Gathered multiple environment bright angle value of described electronic equipment in second schedule time by the optical sensor of described electronic equipment, wherein, described second schedule time and described first schedule time identical or different;

Described second determination module is used for: from described multiple environment bright angle value, determine the first brightness value;

Described second control module is used for: control described electronic equipment and regulate described screen intensity based on described first brightness value.

Optionally, described first brightness value is the maximal value in described multiple environment bright angle value.

Optionally, described electronic equipment also comprises the first adjusting module, the first control module 404 also for:

If described change in location is more than or equal to described preset value, then control the screen intensity that described electronic equipment regulates described electronic equipment in a second mode;

Described second acquisition module is used for: in the second mode, and gathered N number of environment bright angle value of described electronic equipment by the optical sensor of described electronic equipment, N is positive integer;

Described first adjusting module is used for: based on described N number of environment bright angle value, screen intensity described in dynamic conditioning.

Optionally, described electronic equipment also comprises the 3rd acquisition module, the 3rd control module, the 4th acquisition module and the 4th control module,

Described 3rd acquisition module is used for: gather and obtain the environment bright angle value of described electronic equipment in the first moment;

Described 3rd control module is used for: control described electronic equipment and described screen intensity is adjusted to the first screen intensity, and wherein, the described environment bright angle value in described first screen intensity and described first moment matches; And

Described 4th acquisition module is used for: gather and obtain the environment bright angle value of described electronic equipment in the second moment;

Described 4th control module is used for: described screen intensity is adjusted to the second screen intensity, and wherein, the described environment bright angle value in described second screen intensity and described second moment matches.

Optionally, described electronic equipment also comprises the first handover module, and described first handover module is used for:

When described electronic equipment regulates described screen intensity with described first mode, if gather the environmental light brightness changing value of described electronic equipment within the 3rd schedule time obtained to be greater than threshold value, then the regulative mode of described screen intensity is switched to described second pattern from described first mode.

Various variation pattern in information processing method in earlier figures 1 embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the aforementioned detailed description to information processing method, 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.

By the one or more technical schemes in the embodiment of the present invention, following one or more technique effect can be realized:

1, in the embodiment of the present invention, the screen intensity shaping modes adapted with change in location is determined, to adapt to current actual conditions, so the regulative mode of scheme in the embodiment of the present invention is more flexible according to change in location, closing to reality situation more, so can obtain better regulating effect.Further, can reach and save electric energy and improve the technique effect of user experience.

2, when the change in location of electronic equipment is less, use first mode to control screen intensity, maintain a certain brightness by screen intensity, effectively can avoid the not mobile problem but causing screen flickering of electronic equipment.When the change in location of electronic equipment is larger; use the second Schema control screen intensity, namely electronic equipment environmentally brightness values dynamic conditioning screen intensity, makes screen intensity change along with the difference of surround lighting; to improve the comfort level of human eye viewing, play the effect of vision protection.

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, CD-ROM, 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 device, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable device 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.

Specifically, the computer program instructions that 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, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Gather the kinematic parameter of electronic equipment;

The change in location of described electronic equipment in the first Preset Time is determined according to described kinematic parameter;

Judge whether described change in location is less than preset value;

If described change in location is less than described preset value, control the screen intensity that described electronic equipment regulates described electronic equipment in a first pattern.

Optionally, store in described storage medium with step: controlling computer program instructions that described electronic equipment regulates the screen intensity of described electronic equipment corresponding in a first pattern when being performed, specifically comprising the steps:

Gathered multiple environment bright angle value of described electronic equipment in second schedule time by the optical sensor of described electronic equipment, wherein, described second schedule time and described first schedule time identical or different;

The first brightness value is determined from described multiple environment bright angle value;

Control described electronic equipment and regulate described screen intensity based on described first brightness value.

Optionally, described first brightness value is the maximal value in described multiple environment bright angle value.

Optionally, also store other computer program instructions in described storage medium, this other computer program instructions comprises the steps: in the process of implementation

If described change in location is more than or equal to described preset value, then control the screen intensity that described electronic equipment regulates described electronic equipment in a second mode;

Wherein, in the second mode, gathered N number of environment bright angle value of described electronic equipment by the optical sensor of described electronic equipment, N is positive integer;

Based on described N number of environment bright angle value, screen intensity described in dynamic conditioning.

Optionally, store in described storage medium with step: computer program instructions corresponding to screen intensity described in dynamic conditioning, when being performed, specifically comprises the steps:

Gather and obtain described electronic equipment in the environment bright angle value in the first moment, control described electronic equipment and described screen intensity is adjusted to the first screen intensity, wherein, the described environment bright angle value in described first screen intensity and described first moment matches; And

Gather and obtain described electronic equipment in the environment bright angle value in the second moment, control described electronic equipment and described screen intensity is adjusted to the second screen intensity, wherein, the described environment bright angle value in described second screen intensity and described second moment matches.

Optionally, also store other computer program instructions in described storage medium, this other computer program instructions comprises the steps: in the process of implementation

When described electronic equipment regulates described screen intensity with described first mode, if gather the environmental light brightness changing value of described electronic equipment within the 3rd schedule time obtained to be greater than threshold value, then the regulative mode of described screen intensity is switched to described second pattern from described first mode.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

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 (13)

1. an information processing method, comprising:

Gather the kinematic parameter of electronic equipment;

The change in location of described electronic equipment in the first Preset Time is determined according to described kinematic parameter;

Judge whether described change in location is less than preset value;

If described change in location is less than described preset value, control the screen intensity that described electronic equipment regulates described electronic equipment in a first pattern.

2. the method for claim 1, is characterized in that, the described electronic equipment of described control regulates the screen intensity of described electronic equipment in a first pattern, comprising:

Gathered multiple environment bright angle value of described electronic equipment in second schedule time by the optical sensor of described electronic equipment, wherein, described second schedule time and described first schedule time identical or different;

The first brightness value is determined from described multiple environment bright angle value;

Control described electronic equipment and regulate described screen intensity based on described first brightness value.

3. method as claimed in claim 2, it is characterized in that, described first brightness value is the maximal value in described multiple environment bright angle value.

4. the method for claim 1, is characterized in that, if described change in location is more than or equal to described preset value, then controls the screen intensity that described electronic equipment regulates described electronic equipment in a second mode;

Wherein, in the second mode, gathered N number of environment bright angle value of described electronic equipment by the optical sensor of described electronic equipment, N is positive integer;

Based on described N number of environment bright angle value, screen intensity described in dynamic conditioning.

5. method as claimed in claim 4, it is characterized in that, screen intensity described in described dynamic conditioning, comprising:

Gather and obtain described electronic equipment in the environment bright angle value in the first moment, control described electronic equipment and described screen intensity is adjusted to the first screen intensity, wherein, the described environment bright angle value in described first screen intensity and described first moment matches; And

Gather and obtain described electronic equipment in the environment bright angle value in the second moment, control described electronic equipment and described screen intensity is adjusted to the second screen intensity, wherein, the described environment bright angle value in described second screen intensity and described second moment matches.

6. method as claimed in claim 4, it is characterized in that, when described electronic equipment regulates described screen intensity with described first mode, if gather the environmental light brightness changing value of described electronic equipment within the 3rd schedule time obtained to be greater than threshold value, then the regulative mode of described screen intensity is switched to described second pattern from described first mode.

7. an electronic equipment method, comprising:

Display unit;

First sensor, for gathering the kinematic parameter of described electronic equipment;

Processor, for determining the change in location of described electronic equipment in the first Preset Time according to described kinematic parameter; Judge whether described change in location is less than preset value; If described change in location is less than described preset value, control the screen intensity that described electronic equipment regulates described display unit in a first pattern.

8. electronic equipment as claimed in claim 7, it is characterized in that, described electronic equipment also comprises the second sensor, for gathering multiple environment bright angle value of described electronic equipment in second schedule time, wherein, described second schedule time and described first schedule time identical or different;

Described processor also for: from described multiple environment bright angle value, determine the first brightness value; Described screen intensity is regulated based on described first brightness value.

9. electronic equipment as claimed in claim 8, it is characterized in that, described first brightness value is the maximal value in described multiple environment bright angle value.

10. electronic equipment as claimed in claim 7, it is characterized in that, described electronic equipment also comprises the second sensor;

Described processor also for:

If described change in location is more than or equal to described preset value, then control the screen intensity that described electronic equipment regulates described electronic equipment in a second mode;

In the second mode, based on N number of environment bright angle value of the described electronic equipment that described second sensor gathers, screen intensity described in dynamic conditioning, wherein, N is positive integer; Described second sensor comprises optical sensor.

11. electronic equipments as claimed in claim 10, is characterized in that,

Described optical sensor is used for: gather and obtain the environment bright angle value of described electronic equipment in the first moment, and described electronic equipment is in the environment bright angle value in the second moment;

Described processor is used for: based on the described environment bright angle value that described first moment collects, control described electronic equipment and described screen intensity is adjusted to the first screen intensity, wherein, the described environment bright angle value in described first screen intensity and described first moment matches; And based on the described environment bright angle value that described second moment collects, control described electronic equipment and described screen intensity is adjusted to the second screen intensity, wherein, the described environment bright angle value in described second screen intensity and described second moment matches.

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

When described electronic equipment regulates described screen intensity with described first mode, if gather the environmental light brightness changing value of described electronic equipment within the 3rd schedule time obtained to be greater than threshold value, then the regulative mode of described screen intensity is switched to described second pattern from described first mode.

13. 1 kinds of electronic equipments, comprising:

First acquisition module, for gathering the kinematic parameter of electronic equipment;

First determination module, for determining the change in location of described electronic equipment in the first Preset Time according to described kinematic parameter;

First judge module, for judging whether described change in location is less than preset value;

First control module, for when described change in location is less than described preset value, controls the screen intensity that described electronic equipment regulates described electronic equipment in a first pattern.