WO2019120027A1 - 屏幕亮度的调节方法、装置、存储介质及移动终端 - Google Patents
屏幕亮度的调节方法、装置、存储介质及移动终端 Download PDFInfo
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- WO2019120027A1 WO2019120027A1 PCT/CN2018/116792 CN2018116792W WO2019120027A1 WO 2019120027 A1 WO2019120027 A1 WO 2019120027A1 CN 2018116792 W CN2018116792 W CN 2018116792W WO 2019120027 A1 WO2019120027 A1 WO 2019120027A1
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- brightness
- value
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- adjustment
- ambient light
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G5/00—Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
- G09G5/10—Intensity circuits
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/725—Cordless telephones
Definitions
- the embodiment of the present invention relates to a mobile terminal technology, for example, to a method, an apparatus, a storage medium, and a mobile terminal for adjusting screen brightness.
- the current mobile terminal can automatically adjust the brightness of the screen according to the ambient light intensity.
- the screen brightness adjustment scheme provided in the related art has defects, and cannot meet the actual requirements of the screen brightness of the mobile terminal user. Manual adjustments are made on the basis of automatic adjustment to achieve the desired brightness effect, which limits the intelligence of the screen brightness adjustment.
- the embodiment of the present application provides a method, a device, a storage medium, and a mobile terminal for adjusting the brightness of a screen, which can improve the intelligence of the mobile terminal.
- the embodiment of the present application provides a method for adjusting a brightness of a screen, including: acquiring an intensity value of ambient light, determining, according to the intensity value, whether to trigger a preset brightness adjustment event; when the brightness adjustment event is triggered Obtaining a target history adjustment record that matches the intensity value; calculating a target brightness value according to the target history adjustment record; and adjusting a screen brightness according to the target brightness value.
- the embodiment of the present application further provides an apparatus for adjusting brightness of a screen, the apparatus comprising: an intensity acquiring module, configured to acquire an intensity value of ambient light, and determine, according to the intensity value, whether to trigger a preset brightness adjustment event.
- an intensity acquiring module configured to acquire an intensity value of ambient light, and determine, according to the intensity value, whether to trigger a preset brightness adjustment event.
- a record acquisition module configured to acquire a target history adjustment record matching the intensity value when the brightness adjustment event is triggered;
- a brightness calculation module configured to calculate a target brightness value according to the target history adjustment record; and brightness adjustment The module is configured to adjust the brightness of the screen according to the target brightness value.
- the embodiment of the present application further provides a computer readable storage medium, where the computer program is stored, and when the program is executed by the processor, the method for adjusting the brightness of the screen according to the first aspect is implemented.
- the embodiment of the present application further provides a mobile terminal, including a memory, a processor, and a computer program stored in the memory and executable by the processor, where the processor executes the computer program as described above A method of adjusting the brightness of a screen as described on the one hand.
- the embodiment of the present application provides a screen brightness adjustment scheme, by determining an intensity value of ambient light, determining whether to trigger a preset brightness adjustment event according to the intensity value; and when the brightness adjustment event is triggered, acquiring the intensity value
- the target history adjustment record is calculated according to the target history adjustment record; the screen brightness is adjusted according to the target brightness value, and the screen brightness is automatically adjusted according to the user's historical adjustment habit, and the adjustment result is more consistent.
- the actual experience requirements of the user solves the problem that the adjustment result of the screen brightness adjustment scheme in the related art is inconsistent with the user's expectation of brightness, resulting in multiple adjustments, and improves the intelligence of the mobile terminal in adjusting the brightness of the screen.
- FIG. 1 is a flowchart of a method for adjusting screen brightness according to an embodiment of the present application.
- FIG. 2 is a flowchart of another method for adjusting screen brightness according to an embodiment of the present application.
- FIG. 3 is a schematic structural diagram of an apparatus for adjusting brightness of a screen according to an embodiment of the present application.
- FIG. 4 is a structural block diagram of a mobile terminal according to an embodiment of the present application.
- FIG. 5 is a structural block diagram of a smart phone according to an embodiment of the present application.
- the automatic adjustment scheme of the screen brightness in the related art is mostly performed by performing simple judgment on the current ambient light value.
- the screen brightness actually desired by different users is different. For example, under the same ambient light intensity, some users may prefer Make the screen darker, and some users may prefer to brighten the screen. Therefore, the adjustment scheme based on ambient light only has certain limitations, and can not meet the user's personalized demand for screen brightness.
- the user often performs manual adjustment on the basis of automatic adjustment to achieve the desired brightness effect, so that the screen brightness is adjusted.
- the level of intelligence is limited.
- the embodiment of the present application provides a screen brightness adjustment scheme, which can solve the adjustment scheme of the screen brightness in the related art.
- FIG. 1 is a flowchart of a method for adjusting screen brightness according to an embodiment of the present disclosure.
- the method may be performed by a screen brightness adjusting device, where the device may be implemented by software and/or hardware, and generally integrated in a mobile terminal. in.
- the method includes steps 110-140.
- step 110 an intensity value of ambient light is acquired, and it is determined according to the intensity value whether a preset brightness adjustment event is triggered.
- the intensity value of the ambient light in the embodiment of the present application is a numerical value indicating that the ambient light intensity is weak.
- This value can be acquired by a setting sensor built into the mobile terminal.
- the set sensor includes, but is not limited to, an ambient light sensor.
- the value output by the ambient light sensor is obtained according to the set sampling interval, and the value is used as the intensity value of the ambient light.
- the set sampling interval may be the default of the system, or may be set by the user according to actual needs, and the sampling interval is set to be read by the ambient light sensor every 15 minutes, then, this time is read by the ambient light sensor.
- the value is the first value corresponding to the current sampling time.
- the current sampling time is taken as the origin, and the time that is traced back 15 minutes is the last sampling time.
- the value read by the ambient light sensor at the last sampling time is used as the last sampling time.
- There are many ways to obtain the intensity value and it is not limited to the above-listed acquisition by the ambient light sensor. It is also possible to capture an image of the external environment through the camera, analyze the image to obtain the intensity value of the ambient light, and the like.
- whether the preset brightness adjustment event in the mobile terminal is triggered is determined according to the first value corresponding to the current sampling time and the second value corresponding to the previous sampling time.
- the manner of determining whether the preset brightness adjustment event is triggered may be: using the first value output by the ambient light sensor at the current sampling time as the first intensity value of the current sampling time. And reading a second value corresponding to the last sampling time from the set storage space as a second intensity value, and calculating a deviation amount between the first intensity value and the second intensity value; when the deviation amount exceeds the set threshold, determining The brightness adjustment event is triggered.
- the setting threshold may be the system default, or may be set by the user according to actual needs, and the setting threshold is set to determine whether to trigger the execution of the screen brightness adjustment event.
- step 120 upon triggering the brightness adjustment event, a target history adjustment record that matches the intensity value is acquired.
- the brightness adjustment event is a preset event that triggers the mobile terminal to perform a screen brightness adjustment operation, including but not limited to the intensity value of the ambient light exceeding a set threshold.
- the mobile terminal acquires the intensity value of the ambient light at the time, the brightness value before and after the brightness adjustment operation, and the obtained intensity value of the ambient light before and after the brightness adjustment operation, each time the user adjusts the adjustment operation of the brightness of the screen.
- the brightness value is stored as a history adjustment record in the historical adjustment information database.
- the historical execution time of the brightness adjustment operation may also be stored in the historical adjustment information database, where the historical execution time may be used as a basis for determining the weight of the historical adjustment record, wherein the historical execution time may be each time the screen brightness adjustment is performed.
- System time for operation That is, the historical adjustment information database correlates the intensity value of the stored ambient light, the historical brightness value before and after the brightness adjustment operation, and the historical execution time of the screen brightness adjustment operation.
- the above execution time may select a time at which the execution of the screen brightness adjustment operation is started, or a time at which the execution of the screen brightness adjustment operation is completed, or an intermediate time between the start time and the end time of the screen brightness adjustment operation.
- the numerical interval formed by the upper limit of detection and the lower limit of detection of the ambient light sensor is divided into N equal parts in advance to form N sub-value intervals, where N ⁇ 2. Assign an ambient light number to each sub-value interval.
- the ambient light number is associated with the intensity value interval of the ambient light and stored in a preset white list.
- a column is inserted in the historical adjustment information database for recording the ambient light number. For example, sequentially obtaining an intensity value in the historical adjustment information database, querying the preset white list according to the intensity value, determining a corresponding ambient light number, and determining an insertion position according to the newly inserted column and the row where the intensity value is located, and The ambient light number is added to the insertion position.
- the ambient light number can be used to identify any intensity value contained in the sub-value interval. If the intensity value of the current ambient light is known, the preset white list may be queried according to the intensity value of the current ambient light, and the ambient light number corresponding to the intensity value is determined, thereby converting the intensity value into the ambient light number.
- the history adjustment information database is queried according to the ambient light number, and a target history adjustment record corresponding to the ambient light number is obtained.
- the target history adjustment record is a history adjustment record regarding the screen brightness adjustment condition corresponding to the intensity value of the current ambient light, including the brightness value after the brightness adjustment operation, and the brightness value after the brightness adjustment operation is stored in association with the intensity value.
- the target history adjustment record may also include an execution time of each brightness adjustment operation, and the like.
- the target history record may include a plurality of brightness adjustment values after the brightness adjustment operation corresponding to the ambient light number. Therefore, the intensity value near the base point can be obtained based on the intensity value of the ambient light (that is, the difference between the intensity values of the base point and the intensity value of the base point is a set value threshold value), and the plurality of intensity values including the base point are included.
- the historical brightness value corresponding to the intensity value is comprehensively calculated to determine the user's screen brightness adjustment habit.
- step 130 a target brightness value is calculated based on the target history adjustment record.
- the target brightness value based on the target history adjustment record includes the manner in which the average value of the brightness values after the brightness adjustment operation included in the target history adjustment record is calculated. For example, assume that I T-1 , I T-2 , I T-3 , ..., I TN represent historical brightness values contained in the target history adjustment record associated with the current ambient light number, where I T- 1 represents the historical brightness value included in the latest target history adjustment record associated with the current ambient light number, and I TN represents the historical brightness value included in the target history adjustment record of the N records separated from the latest target history adjustment record. Based on the above historical luminance value, the target luminance value I is calculated using the following formula (1).
- the manner of determining the target luminance value based on the target history adjustment record may also be a weighting operation.
- the historical execution time of the brightness adjustment operation in the record may be adjusted according to the target history, and the weight of the historical brightness value may be determined.
- the historical execution time corresponding to the historical brightness value after the brightness adjustment operation in the target history adjustment record may be acquired through the history adjustment information database.
- the historical execution time is sorted, and a preset weighting coefficient is assigned to the historical brightness value included in the target history adjustment record according to the sorting result.
- I T-1 , I T-2 , I T-3 , ..., I TN represent historical brightness values contained in the target history adjustment record associated with the current ambient light number
- I T- 1 represents the historical brightness value included in the latest target history adjustment record associated with the current ambient light number
- I TN represents the historical brightness value included in the target history adjustment record of the N records separated from the latest target history adjustment record.
- I T-1 is given a preset weighting coefficient ⁇ 1
- I T-1 is given a preset weighting coefficient ⁇ 2 , . . .
- a predetermined weighting coefficient ⁇ N is given to I TN .
- the above weighting coefficients may be equal or unequal.
- the weighting coefficients assigned to the historical brightness values are not equal, and the historical brightness value I T-1 included in the most recent target history adjustment record associated with the current ambient light number may be assigned to the largest of ⁇ 1 to ⁇ N
- the weighting factor and the historical luminance value I TN included in the farthest target history adjustment record associated with the current ambient light number are assigned the smallest weighting coefficients of ⁇ 1 to ⁇ N .
- the distance between the target history adjustment record and the ambient light number is determined by the historical execution time of the brightness adjustment operation, for example, the time between the historical execution time and the trigger time of the current brightness adjustment event compared with the trigger time of the current brightness adjustment event.
- a luminance weighted average value is calculated based on the historical luminance value and the corresponding weighting coefficient, and the luminance weighted average value is used as the target luminance value.
- the target luminance value I can be calculated by the following formula (2).
- the target brightness value may be calculated by using the above formula (1) or formula (2).
- the number of settings may be system default or determined by the user, and the number of settings is at least one.
- the above-described average value method and weighting calculation method are only examples for calculating the target brightness value based on the target history adjustment record, and are not limited.
- step 140 the screen brightness is adjusted according to the target brightness value.
- adjusting the brightness of the screen according to the target brightness value may be to replace the current brightness value of the screen with the target brightness value.
- the adjustment method here is relatively blunt, and if the target brightness value differs greatly from the current brightness value, direct replacement may result in poor user experience.
- a preset number of intermediate values may be set between the target brightness value and the current brightness value to avoid a situation in which the brightness of the screen suddenly jumps to make the human eye feel uncomfortable. For example, calculating a difference between the target brightness value and the current brightness value; when the difference exceeds the set adjustment interval value, dividing the difference into at least two value intervals according to a brightness deviation from the target brightness value; The numerical interval is used to smoothly adjust the screen brightness.
- the at least two value intervals may be a result of equally dividing the interval between the current brightness value and the target brightness value. It is also possible to adjust the current brightness away from the target brightness value with a small value change according to actual needs, and increase the value change amount when approaching the target brightness value. For example, if the target brightness value is 500 and the current brightness value is 400, it can be determined that the difference between the target brightness value and the current brightness value is 100, and the difference can be divided into 4 parts to set the screen brightness every set time interval. The value is increased by 25 to gradually adjust the current brightness value to reach the target brightness value.
- a change adjustment strategy may be set according to actual needs, for example, before the current brightness value reaches 460, the screen brightness is increased by 10 every set time interval, after the current brightness reaches 460, Adjust the screen brightness by 20 in the set time interval.
- the technical solution of the embodiment obtains an intensity value of the ambient light, and determines whether to trigger a preset brightness adjustment event according to the intensity value; and when the brightness adjustment event is triggered, acquires a target history adjustment record that matches the intensity value, The target brightness value is calculated according to the target history adjustment record; the screen brightness is adjusted according to the target brightness value, and the screen brightness is automatically adjusted according to the user's historical adjustment habit, and the adjustment result is more in line with the user's actual experience requirements.
- the above technical solution solves the problem that the adjustment result of the screen brightness adjustment scheme in the related art is inconsistent with the user's expectation of brightness, resulting in multiple adjustments, and improves the intelligence of the mobile terminal in adjusting the brightness of the screen.
- FIG. 2 is a flowchart of another method for adjusting screen brightness according to an embodiment of the present application. As shown in FIG. 2, the method includes steps 201-214.
- step 201 the value output by the ambient light sensor is acquired according to the set sampling interval, and the value is taken as the intensity value of the ambient light.
- step 202 a deviation amount of the first value corresponding to the current sampling time and the second value corresponding to the previous sampling time is calculated.
- step 203 it is determined whether the deviation amount is greater than or equal to a set threshold. If the deviation amount is greater than or equal to the set threshold, step 204 is performed. If the deviation amount is less than the set threshold, step 201 is performed.
- the deviation amount of the first value corresponding to the current sampling time and the second value corresponding to the previous sampling time is calculated; when the deviation amount is greater than or equal to the set threshold, step 204 is performed; When it is less than the set threshold, step 201 is performed.
- the setting threshold may be the system default or may be set by the user. If the deviation amount of the value corresponding to the two adjacent sampling moments is greater than or equal to the set threshold value, the ambient light changes greatly, and the screen brightness adjustment is required. If the deviation amount is less than the set threshold, the environment change is not large, and the screen brightness adjustment operation may not be performed temporarily, and the process returns to step 201 to monitor the change of the ambient light.
- the current system time may also be obtained, and the time interval between the current system time and the time of the last screen brightness adjustment operation may be determined.
- the brightness adjustment event may also be triggered.
- the start timer starts timing to record the time interval between the current time and the time of the last screen brightness adjustment operation.
- the time threshold may be set by the system or set by the user according to actual needs, and is used to trigger a brightness adjustment event.
- the set time interval may be 1 hour, the reading of the timer is obtained, and it is determined whether the time interval exceeds 1 hour.
- the control timer is cleared to re-time after the screen brightness adjustment operation is completed.
- step 204 it is determined that a preset brightness adjustment event is triggered.
- step 205 the preset whitelist is queried according to the intensity value, and the ambient light number corresponding to the intensity value is determined.
- step 206 the history adjustment information database is queried according to the ambient light number, and a target history adjustment record corresponding to the ambient light number is obtained.
- the historical adjustment information database is associated with a historical intensity value of the ambient light, a first historical brightness value before the brightness adjustment operation, a second historical brightness value after the brightness adjustment operation, and a historical execution time of the brightness adjustment operation.
- step 207 the historical execution time included in the target history adjustment record is sorted, and the second historical brightness value included in the target history adjustment record is respectively assigned a preset weighting coefficient according to the sorting result.
- a luminance weighted average is calculated according to the second historical luminance value and the corresponding weighting coefficient, and the luminance weighted average is used as the target luminance value.
- step 209 the current brightness value of the screen is obtained.
- step 210 a difference between the target brightness value and the current brightness value is calculated.
- step 211 it is determined whether the difference is greater than or equal to the set adjustment interval value. If the difference is greater than or equal to the set adjustment interval value, step 212 and step 214 are performed; if the difference is less than the set adjustment interval value, Steps 213 and 214 are performed.
- the above setting adjustment interval value can be analyzed and determined according to the screen brightness history adjustment record of a large number of user groups. For example, after the operation of adjusting the brightness from the current brightness to the target brightness value, the user manually adjusts the brightness of the screen, and it is considered that the brightness deviation between the current brightness value and the target brightness value is larger in the current screen brightness adjustment operation, according to the Regularity, analyze the screen brightness history adjustment record, and determine the setting adjustment interval value.
- step 212 the difference is divided into at least two numerical intervals according to a deviation from the target luminance value, and the screen brightness is smoothly adjusted according to the numerical interval.
- the division of the at least two numerical intervals may be based on equally dividing the numerical interval corresponding to the difference.
- the dividing basis may further be that, during the screen brightness adjustment process, the value interval corresponding to the difference is divided into at least two numerical intervals according to the deviation between the real-time acquired screen brightness value and the target brightness value.
- the screen brightness is acquired in real time (hereinafter referred to as the real-time screen brightness), and when the real-time screen brightness is far from the target brightness value, the first value interval is smaller, that is, smaller The numerical interval is smoothly adjusted.
- the divided second value interval is larger, that is, the brightness is adjusted by using a larger numerical interval.
- the target brightness value is 500
- the current screen brightness is 400
- a threshold value is set to 460.
- the first A numerical interval (such as a numerical interval of 10) adjusts the brightness of the screen.
- the second numerical interval (such as the numerical interval is 20) is used to adjust the screen brightness, and after adjusting 2 times, the screen is adjusted. The brightness reaches the target brightness value.
- step 214 is performed.
- step 213 the current brightness value is replaced with the target brightness value.
- step 214 is performed.
- step 214 a target image brightness value corresponding to the target brightness value is acquired, and a brightness of the current display content is adjusted according to the target image brightness value.
- the factor that affects the user's perception of the screen is not only the brightness of the screen, but also the content displayed on the screen that affects the user's viewing experience.
- a set number of user groups are collected for the historical setting operation of the screen brightness and the brightness of the image displayed on the screen, and the above-mentioned history setting operation is analyzed by using data analysis means to obtain the brightness of the display image matching the screen brightness.
- the correspondence between the above screen brightness and the image brightness may be stored in the form of a white list.
- the white list is queried according to the target brightness value, the corresponding image brightness value is determined, and the brightness of the current display content is adjusted according to the image brightness value.
- the difference interval (the range of the difference between the current image brightness value and the target image brightness value) may be divided into at least two according to the deviation from the target image brightness value. According to the sub-interval, the brightness of the image is smoothly adjusted according to the sub-interval, so that the image brightness adjustment process of the display content is adapted to the smoothness of the screen brightness.
- Step 214 is not a necessary step of the embodiment of the present application, that is, step 214 may or may not be performed. Meanwhile, the execution order of step 214 is not limited to the case described in the embodiment of the present application, and step 214 may be performed after determining the target brightness value.
- the current ambient light intensity value, the brightness value before the screen adjustment operation, the target brightness value, and the execution time of the completion brightness adjustment operation may be stored in the history adjustment information database.
- FIG. 3 is a schematic structural diagram of an apparatus for adjusting brightness of a screen according to an embodiment of the present application.
- the device may be implemented by software and/or hardware, and may be integrated into the mobile terminal for performing the method for adjusting the brightness of the screen provided by the embodiment of the present application.
- the apparatus includes an intensity acquisition module 310, a record acquisition module 320, a brightness calculation module 330, and a brightness adjustment module 340.
- the intensity obtaining module 310 is configured to acquire an intensity value of the ambient light, and determine, according to the intensity value, whether to trigger a preset brightness adjustment event.
- the record acquisition module 320 is configured to acquire a target history adjustment record that matches the intensity value when the brightness adjustment event is triggered.
- the brightness calculation module 330 is configured to calculate a target brightness value based on the target history adjustment record.
- the brightness adjustment module 340 is configured to adjust the brightness of the screen according to the target brightness value.
- the technical solution of the embodiment provides a device for adjusting the brightness of the screen, and automatically adjusts the brightness of the screen according to the historical adjustment habit of the user, and the adjustment result is more in line with the actual experience requirement of the user.
- the above technical solution solves the problem that the adjustment result of the screen brightness adjustment scheme in the related art is inconsistent with the user's expectation of brightness, resulting in multiple adjustments, and improves the intelligence of the mobile terminal in adjusting the brightness of the screen.
- the intensity obtaining module 310 is configured to obtain, according to the set sampling interval, a value output by the ambient light sensor as an intensity value of the ambient light; and calculate a first value corresponding to the current sampling time and a second value corresponding to the last sampling time. a deviation amount; and when the deviation amount exceeds a set threshold, determining to trigger a preset brightness adjustment event.
- the record obtaining module 320 is configured to query the preset white list according to the intensity value, and determine an ambient light number corresponding to the intensity value, where the intensity value interval and the pre-stored ambient light in the white list are associated with Corresponding relationship of the number; and querying the historical adjustment information database according to the ambient light number to obtain a target history adjustment record corresponding to the ambient light number, wherein the historical adjustment information database is associated with the historical intensity value and brightness adjustment of the ambient light Historical brightness value after operation and historical execution time of brightness adjustment operation.
- the brightness calculation module 330 is further configured to: calculate an average value of the plurality of brightness values after the brightness adjustment operation included in the target history adjustment record; and use the calculated average value as the target brightness value.
- the device may further include: a coefficient determining module.
- the coefficient determination module is configured to sort the historical execution time, and assign a preset weight to the historical brightness value according to the sorting result. coefficient.
- the coefficient determining module may be configured to: sort the historical execution time according to the degree of association with the current ambient light number; and perform the history execution in the order of the degree of association with the current ambient light number from near to far.
- the historical brightness values included in the target history adjustment record corresponding to the time are assigned different weighting coefficients, wherein the closer the degree of association with the current ambient light is, the larger the weighting coefficient is.
- the brightness calculation module 330 is configured to calculate a brightness weighted average according to the historical brightness value and the corresponding weighting coefficient, and use the brightness weighted average as the target brightness value.
- the brightness adjustment module 340 is configured to acquire a current brightness value of the screen; calculate a difference between the target brightness value and the current brightness value; and when the difference exceeds the set adjustment interval value, according to the real-time screen brightness The deviation from the target brightness value divides the difference into at least two value intervals; and smooth adjustment of the screen brightness according to the value interval.
- the device may further include: a content brightness adjustment module.
- the content brightness adjustment module is configured to acquire a target image brightness value corresponding to the target brightness value, and adjust a brightness of the current display content according to the target image brightness value.
- Embodiments of the present application also provide a storage medium including computer executable instructions for performing a method of adjusting screen brightness when executed by a computer processor, the method comprising: acquiring intensity of ambient light a value, determining whether to trigger a preset brightness adjustment event according to the intensity value; acquiring a target history adjustment record matching the intensity value when the brightness adjustment event is triggered; and calculating a target brightness value according to the target history adjustment record And adjusting the brightness of the screen according to the target brightness value.
- Storage media any of a variety of types of memory devices or storage devices.
- the term "storage medium” is intended to include: a mounting medium such as a CD-ROM, a floppy disk or a tape device; a computer system memory or a random access memory such as DRAM, DDR RAM, SRAM, EDO RAM, Rambus RAM, etc.
- Non-volatile memory such as flash memory, magnetic media (such as hard disk or optical storage); registers or other similar types of memory elements, and the like.
- the storage medium may also include other types of memory or a combination thereof.
- the storage medium may be located in a first computer system in which the program is executed, or may be located in a different second computer system, the second computer system being coupled to the first computer system via a network, such as the Internet.
- the second computer system can provide program instructions to the first computer for execution.
- the term "storage medium" may include two or more storage media that reside in different locations (eg, in different computer systems connected through a network).
- a storage medium may store program instructions (eg, embodied as a computer program) executable by one or more processors.
- a storage medium containing computer executable instructions the computer executable instructions of which are not limited to the adjustment operation of the screen brightness as described above, and can also perform the adjustment of the screen brightness provided by any embodiment of the present application. Related operations in the method.
- the embodiment of the present application provides a mobile terminal, which has an operating system therein, and the device for adjusting the brightness of the screen provided by the embodiment of the present application can be integrated into the mobile terminal.
- the mobile terminal can be a smart phone, a PAD (tablet), a handheld game machine, or the like.
- FIG. 4 is a structural block diagram of a mobile terminal according to an embodiment of the present application. As shown in FIG. 4, the mobile terminal includes a memory 410 and a processor 420.
- the memory 410 stores a computer program, a whitelist, a history adjustment information database, and the like.
- the central processor 420 reads and executes the computer program stored in the memory 410.
- the processor 420 when executing the computer program, implements the steps of: acquiring an intensity value of ambient light, determining whether to trigger a preset brightness adjustment event according to the intensity value; and acquiring the brightness adjustment event when acquiring the brightness adjustment event a target history adjustment record matching the intensity values; calculating a target brightness value according to the target history adjustment record; and adjusting a screen brightness according to the target brightness value.
- FIG. 5 is a structural block diagram of a smart phone according to an embodiment of the present application.
- the smart phone may include: a memory 501, a central processing unit (CPU) 502 (also referred to as a processor, hereinafter referred to as a CPU), a peripheral interface 503, and an RF (Radio Frequency) circuit.
- CPU central processing unit
- RF Radio Frequency
- 505 audio circuit 506, speaker 511, display 512, power management chip 508, input/output (I/O) subsystem 509, other input/control devices 510, and external port 504, through one or more communication buses or Signal line 507 is in communication.
- the smartphone 500 shown in FIG. 5 is merely an example of a mobile terminal, and the smartphone 500 may have more or fewer components than those shown in the figure, two or more components may be combined, or Has a different component configuration.
- the various components shown in the figures can be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
- the following describes the smart phone provided with the screen brightness adjusting device provided by the embodiment.
- the memory 501 can be accessed by a CPU 502, a peripheral interface 503, etc., which can include a high speed random access memory, and can also include non-volatile memory, such as one or more magnetic disk storage devices, flash memory devices, or other Lossless solid state storage device.
- the computer program is stored in the memory 511, and a white list and a history adjustment information database and the like can also be stored.
- Peripheral interface 503 can connect the input and output peripherals of the device to CPU 502 and memory 501.
- the I/O subsystem 509 can connect input and output peripherals on the device, such as screen 512 and other input/control devices 510, to peripheral interface 503.
- the I/O subsystem 509 can include a display controller 5091 and one or more input controllers 5092 for controlling other input/control devices 510.
- one or more input controllers 5092 receive electrical signals from other input/control devices 510 or transmit electrical signals to other input/control devices 510, and other input/control devices 510 may include physical buttons (press buttons, rocker buttons, etc.) ), dial, slide switch, joystick or click on the wheel.
- the input controller 5092 can be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.
- Screen 512 is an input interface and an output interface between the user terminal and the user, and displays the visual output to the user.
- the visual output may include graphics, text, icons, video, and the like.
- Display controller 5051 in I/O subsystem 509 receives an electrical signal from screen 512 or an electrical signal to screen 512.
- Screen 512 detects contact on the screen
- display controller 5091 converts the detected contact into interaction with a user interface object displayed on screen 512, i.e., enables human-computer interaction, and the user interface object displayed on screen 512 can be run
- the device may also include a light mouse, which is a touch sensitive surface that does not display a visual output, or an extension of a touch sensitive surface formed by the screen.
- the RF circuit 505 establishes communication between the mobile phone and the wireless network (ie, the network side) to implement data reception and transmission between the mobile phone and the wireless network. For example, sending and receiving short messages, emails, and the like.
- the RF circuit 505 receives and transmits an RF signal, also referred to as an electromagnetic signal, and the RF circuit 505 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and conducts the electromagnetic signal with the communication network and other devices. Communication.
- the RF circuit 505 may include circuitry to perform these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC (COder-DECoder, Codec) Chipset, Subscriber Identity Module (SIM), etc.
- an antenna system an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC (COder-DECoder, Codec) Chipset, Subscriber Identity Module (SIM), etc.
- CODEC COder-DECoder, Codec
- SIM Subscriber Identity Module
- the audio circuit 506 receives audio data from the peripheral interface 503, converts the audio data into an electrical signal, and transmits the electrical signal to the speaker 511.
- the speaker 511 restores the voice signal received by the mobile phone from the wireless network through the RF circuit 505 to sound and plays the sound to the user.
- the power management chip 508 provides power and power management for the hardware connected to the CPU 502, the I/O subsystem, and the peripheral interface.
- the mobile terminal provided by the embodiment of the present invention can automatically adjust the screen brightness according to the historical adjustment habit of the user, and the adjustment result is more in line with the actual experience requirement of the user.
- the above technical solution solves the problem that the adjustment result of the screen brightness adjustment scheme in the related art is inconsistent with the user's expectation of brightness, resulting in multiple adjustments, and improves the intelligence of the mobile terminal in adjusting the brightness of the screen.
- the screen brightness adjusting device, the storage medium and the mobile terminal provided in the above embodiments may perform the screen brightness adjusting method provided by any embodiment of the present application, and have corresponding function modules for performing the method.
- the method for adjusting the brightness of the screen provided by any embodiment of the present application.
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Abstract
本申请实施例公开了一种屏幕亮度的调节方法、装置、存储介质及移动终端。该方法包括:获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件;在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录;根据所述目标历史调节记录计算目标亮度值;以及根据所述目标亮度值对屏幕亮度进行调节。
Description
本申请要求在2017年12月20日提交中国专利局、申请号为201711382137.8的中国专利申请的优先权,该申请的全部内容通过引用结合在本申请中。
本申请实施例涉及移动终端技术,例如涉及一种屏幕亮度的调节方法、装置、存储介质及移动终端。
目前,移动终端被越来越多的应用于生活当中,用户长时间的盯着移动终端屏幕看,若屏幕亮度不合适,则会刺激用户的眼睛。为解决该问题,当前移动终端可以实现根据外部环境光强度来自动调节屏幕的亮度,但是,相关技术中提供的屏幕亮度调节方案存在缺陷,无法满足移动终端用户对屏幕亮度的实际要求,用户往往会在自动调节的基础上再进行手动调节以达到预期的亮度效果,使屏幕亮度调节的智能程度受限。
发明内容
本申请实施例提供一种屏幕亮度的调节方法、装置、存储介质及移动终端,可以提高移动终端的智能度。
第一方面,本申请实施例提供了一种屏幕亮度的调节方法,包括:获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件;在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录;根据所述目标历史调节记录计算目标亮度值;以及根据所述目标亮度值对屏幕亮度进行调节。
第二方面,本申请实施例还提供了一种屏幕亮度的调节装置,该装置包括:强度获取模块,设置为获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件;记录获取模块,设置为在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录;亮度计算模块,设置为根据所述目标历史调节记录计算目标亮度值;以及亮度调节模块,设置为根据所述目标亮度值对屏幕亮度进行调节。
第三方面,本申请实施例还提供了一种计算机可读存储介质,其上存储有计算机程序,该程序被处理器执行时实现如上述第一方面所述的屏幕亮度的调节方法。
第四方面,本申请实施例还提供了一种移动终端,包括存储器,处理器及存储在存储器上并可在处理器运行的计算机程序,所述处理器执行所述计算机程序时实现如上述第一方面所述的屏幕亮度的调节方法。
本申请实施例提供一种屏幕亮度的调节方案,通过获取环境光的强度值,根据该强度值判断是否触发预设的亮度调节事件;并在触发该亮度调节事件时,获取与该强度值匹配的目标历史调节记录,根据该目标历史调节记录计算目标亮度值;根据该目标亮度值对屏幕亮度进行调节,实现根据用户的历史调节习惯有针对性地对屏幕亮度进行自动调节,调节结果更符合用户的实际体验要求。采用上述技术方案,解决了相关技术中因屏幕亮度调节方案的调节结果与用户对亮度的心里预期不相符导致多次调节的问题,提升了移动终端在屏幕亮度调节方面的智能度。
图1是本申请实施例提供的一种屏幕亮度的调节方法的流程图。
图2是本申请实施例提供的另一种屏幕亮度的调节方法的流程图。
图3是本申请实施例提供的一种屏幕亮度的调节装置的结构示意图。
图4是本申请实施例提供的一种移动终端的结构框图。
图5是本申请实施例提供的一种智能手机的结构框图。
下面结合附图和实施例对本申请作说明。可以理解的是,此处所描述的实施例仅仅用于解释本申请,而非对本申请的限定。另外还需要说明的是,为了便于描述,附图中仅示出了与本申请相关的部分而非全部结构。
在讨论示例性实施例之前应当提到的是,一些示例性实施例被描述成作为流程图描绘的处理或方法。虽然流程图将多个步骤描述成顺序的处理,但是其中的许多步骤可以被并行地、并发地或者同时实施。此外,多个步骤的顺序可以被重新安排。当其操作完成时所述处理可以被终止,但是还可以具有未包括 在附图中的附加步骤。所述处理可以对应于方法、函数、规程、子例程、子程序等等。
目前,相关技术中的屏幕亮度的自动调节方案大都是通过对当前环境光数值进行简单判断来进行一致性调节的。但是,在用户实际使用移动终端的过程中,即使在相同的环境光的强度下,不同用户真正想要的屏幕亮度也存在差异,例如,在相同的环境光的强度下,有些用户可能倾向于使屏幕亮度暗一些,而有些用户可能倾向于将屏幕亮度调亮一些。因此,仅基于环境光的调节方案存在一定局限性,不能满足用户对屏幕亮度的个性化需求,用户往往会在自动调节的基础上再进行手动调节以达到预期的亮度效果,使屏幕亮度调节的智能程度受限。为了解决上述技术问题,本申请实施例提供一种屏幕亮度的调节方案,可以解决相关技术中屏幕亮度的调节方案。
图1为本申请实施例提供的一种屏幕亮度的调节方法的流程图,该方法可以由屏幕亮度的调节装置来执行,其中,该装置可由软件和/或硬件实现,一般可集成在移动终端中。如图1所示,该方法包括步骤110-步骤140。
在步骤110中,获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件。
本申请实施例中的环境光的强度值为表征环境光强弱的数值。该数值可以通过内置于移动终端的设定传感器采集。该设定传感器包括但不限于环境光传感器。在通过环境光传感器采集移动终端周围的环境光的强度值时,按照设定的采样间隔获取环境光传感器输出的数值,并将该数值作为环境光的强度值。其中,设定的采样间隔可以是系统默认的,或者可以由用户根据实际需要自行设置,假设采样间隔设置为每15min由环境光传感器读取一次数值,那么,本次由环境光传感器读取的数值作为是当前采样时刻对应的第一数值,以当前采样时刻为原点,向前追溯15min的时刻为上一次采样时刻,上一次采样时刻由环境光传感器读取的数值作为上一采样时刻对应的第二数值等等。强度值的获取方式有很多种,并不限于上述列举的通过环境光传感器获取,还可以通过摄像头拍摄一幅外界环境的图像,分析该图像得到环境光的强度值等等。
示例性的,根据当前采样时刻对应的第一数值与上一采样时刻对应的第二数值判断移动终端内预设的亮度调节事件是否被触发。判断预设的亮度调节事件是否被触发的方式可以是:将当前采样时刻由环境光传感器输出的第一数值 作为当前采样时刻的第一强度值。将从设定存储空间内读取上一采样时刻对应的第二数值作为第二强度值,计算该第一强度值与第二强度值的偏差量;在该偏差量超过设定阈值时,确定亮度调节事件被触发。设定阈值可以是系统默认,还可以是由用户根据实际需要进行设置,该设定阈值设置为判断是否触发执行屏幕亮度调节事件。
在步骤120中,在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录。
亮度调节事件是预先设置的触发移动终端执行屏幕亮度调节操作的事件,包括但不限于环境光的强度值超过设定阈值。
移动终端在每次检测到用户针对屏幕亮度的调节操作时,获取当时的环境光的强度值,亮度调节操作前后的亮度值,并将所获取的上述环境光的强度值,亮度调节操作前后的亮度值作为一条历史调节记录存储于历史调节信息数据库中。可选的,在该历史调节信息数据库中还可以存储亮度调节操作的历史执行时间,该历史执行时间可以作为确定历史调节记录的权重的依据,其中,历史执行时间可以是每次执行屏幕亮度调节操作的系统时间。即该历史调节信息数据库中关联存储环境光的强度值、亮度调节操作前后的历史亮度值及屏幕亮度调节操作的历史执行时间。上述执行时间可以选择开始执行屏幕亮度调节操作的时间,或者选择屏幕亮度调节操作执行完成的时间,或者选择屏幕亮度调节操作的开始时间与结束时间的中间时间。
预先将环境光传感器的检测上限及检测下限构成的数值区间均分为N等份,形成N个子数值区间,其中,N≥2。为每个子数值区间赋予一个环境光编号。可选的,将上述环境光编号与环境光的强度值区间关联存储于预设的白名单内。可选的,在该历史调节信息数据库中插入一列,用于记录环境光编号。例如,顺序获取历史调节信息数据库中的强度值,根据该强度值查询该预设的白名单,确定对应的环境光编号,并根据新插入的一列与该强度值所在的行确定插入位置,将该环境光编号添加入该插入位置。
该环境光编号可以用来标识该子数值区间内包含的任意一个强度值。如果已知当前环境光的强度值,可以根据当前环境光的强度值查询预设的白名单,确定该强度值对应的环境光编号,从而,将该强度值转换为环境光编号。根据该环境光编号查询历史调节信息数据库,得到与该环境光编号对应的目标历史 调节记录。目标历史调节记录是与当前环境光的强度值对应的关于屏幕亮度调节情况的历史调节记录,包括亮度调节操作后的亮度值,且该亮度调节操作后的亮度值与强度值关联存储。目标历史调节记录还可以包括每个亮度调节操作的执行时间等。
该目标历史记录可以包括与该环境光编号对应的多个亮度调节操作后的亮度值。从而可以以某一环境光的强度值为基点,获取该基点附近的强度值(即与该基点的强度值差值是设定数值阈值的若干个强度值),对包括基点在内的多个强度值对应的历史亮度值进行综合运算,以确定用户的屏幕亮度调节习惯。
在步骤130中,根据所述目标历史调节记录计算目标亮度值。
基于目标历史调节记录确定目标亮度值的方式有很多种,包括计算目标历史调节记录包含的亮度调节操作后的亮度值的平均值的方式。例如,假设I
T-1、I
T-2、I
T-3、......、I
T-N表示与当前环境光编号关联的目标历史调节记录包含的历史亮度值,其中,I
T-1表示当前环境光编号关联的最近一条目标历史调节记录包含的历史亮度值,I
T-N表示与该最近一条目标历史调节记录相隔N条记录的目标历史调节记录包含的历史亮度值。根据上述历史亮度值,采用如下公式(1)计算目标亮度值I。
基于目标历史调节记录确定目标亮度值的方式还可以是加权运算。可以根据目标历史调节记录中的亮度调节操作的历史执行时间,确定历史亮度值的权重。可以通过历史调节信息数据库获取目标历史调节记录中与亮度调节操作后的历史亮度值对应的历史执行时间。对该历史执行时间进行排序,并根据排序结果分别为目标历史调节记录包含的历史亮度值赋予预设的加权系数。例如,假设I
T-1、I
T-2、I
T-3、......、I
T-N表示与当前环境光编号关联的目标历史调节记录包含的历史亮度值,其中,I
T-1表示当前环境光编号关联的最近一条目标历史调节记录包含的历史亮度值,I
T-N表示与该最近一条目标历史调节记录相隔N条记录的目标历史调节记录包含的历史亮度值。那么,为I
T-1赋予预设的加权系数α
1,为I
T-1赋予预设的加权系数α
2,...,为I
T-N赋予预设的加权系数α
N。上述加权系数可以相等,也可以不等。在某些实施例中,为历史亮度值赋予的加权系数不相等,可以为当前环境光编号关联的最近一条目标历史调节记录包含的历史亮度值I
T-1赋予α
1至α
N中最大的加权系数,并为当前环境光编号关联的最远 一条目标历史调节记录包含的历史亮度值I
T-N赋予α
1至α
N中最小的加权系数。其中,目标历史调节记录与环境光编号关联程度的远近由亮度调节操作的历史执行时间确定,例如,与当前亮度调节事件的触发时间相比较,历史执行时间与当前亮度调节事件的触发时间的时间间隔越大,则说明历史执行时间与当前环境光编号的关联程度越远,则与该历史执行时间对应的目标历史调节记录与当前环境光编号的关联程度也就越远;如果历史执行时间与当前亮度调节事件的触发时间的时间间隔越小,则说明该历史执行时间与当前环境光编号的关联程度越近,则与该历史执行时间对应的目标历史调节记录与当前环境光编号的关联程度就越近。根据该历史亮度值及对应的加权系数计算亮度加权平均值,并将所述亮度加权平均值作为目标亮度值。可以采用如下公式(2)计算目标亮度值I。
在某类环境光下的调节记录数量超过设定条数后,如果检测到预设的亮度调节事件被触发,则可以任选上述公式(1)或者公式(2)计算目标亮度值。该设定条数可以是系统默认的,或者由用户确定的,该设定条数至少为一条。在历史调节信息数据库中仅存储有某类环境光下的一条调节记录时,若检测到预设的亮度调节事件被触发,则将该条调节记录作为目标历史调节记录,将该目标历史调节记录包含的亮度调节操作后的亮度值作为目标亮度。
上述平均值方式及加权运算方式仅是对基于目标历史调节记录计算目标亮度值的示例,并不是限定。
在步骤140中,根据所述目标亮度值对屏幕亮度进行调节。
在本申请实施例中,根据目标亮度值对屏幕亮度进行调节可以是采用该目标亮度值替换上述屏幕的当前亮度值。但是,此处调节方式比较生硬,对于目标亮度值与当前亮度值相差较大的情况,直接替换会导致用户体验不佳。可选的,可以在目标亮度值与当前亮度值之间设置预设数量的中间值,以避免屏幕亮度骤然跳变使人眼感觉不适的情况发生。例如,计算该目标亮度值与该当前亮度值的差值;在该差值超过设定调节间隔值时,根据与该目标亮度值的亮度偏差将该差值分成至少两个数值区间;根据所述数值区间对屏幕亮度进行平滑调节。可选的,上述至少两个数值区间可以是均分当前亮度值与目标亮度值的差值对应的间隔区间的结果。还可以根据实际需要采用较小的数值变化量调整 远离目标亮度值的当前亮度,在靠近目标亮度值时可以增加数值变化量。例如,目标亮度值是500,当前亮度值是400,则可以确定目标亮度值与当前亮度值的差值是100,可以均分该差值成为4份,以每隔设定时间区间将屏幕亮度值增加25的方式逐步调整当前亮度值,以达到目标亮度值。可选的,还可以根据实际需要设置变化的调节策略,如在当前亮度值达到460之前,以每隔设定时间区间将屏幕亮度增加10的方式进行调整,在当前亮度达到460后,以每隔设定时间区间将屏幕亮度增加20的方式进行调整。
本实施例的技术方案,通过获取环境光的强度值,根据该强度值判断是否触发预设的亮度调节事件;并在触发该亮度调节事件时,获取与该强度值匹配的目标历史调节记录,根据该目标历史调节记录计算目标亮度值;根据该目标亮度值对屏幕亮度进行调节,实现根据用户的历史调节习惯有针对性地对屏幕亮度进行自动调节,调节结果更符合用户的实际体验要求。采用上述技术方案,解决了相关技术中因屏幕亮度调节方案的调节结果与用户对亮度的心里预期不相符导致多次调节的问题,提升了移动终端在屏幕亮度调节方面的智能度。
图2是本申请实施例提供的另一种屏幕亮度的调节方法的流程图。如图2所示,该方法包括步骤201-步骤214。
在步骤201中,按照设定的采样间隔获取环境光传感器输出的数值,将该数值作为环境光的强度值。
在步骤202中,计算当前采样时刻对应的第一数值与上一采样时刻对应的第二数值的偏差量。
在步骤203中,判断所述偏差量是否大于或等于设定阈值,若偏差量大于或等于设定阈值,则执行步骤204,若偏差量小于设定阈值,返回执行步骤201。
在本申请实施例中,计算当前采样时刻对应的第一数值与上一采样时刻对应的第二数值的偏差量;在该偏差量大于或等于设定阈值时,执行步骤204;在该偏差值小于设定阈值时,执行步骤201。其中,设定阈值可以是系统默认,也可以由用户设置。如果相邻的两个采样时刻对应的数值的偏差量大于或等于设定阈值,则说明环境光变化较大,需要进行屏幕亮度调节。如果该偏差量小于设定阈值,则说明环境变化不大,可以暂时不进行屏幕亮度调节操作,返回执行步骤201,以监控环境光的变化。
可选的,还可以获取当前的系统时间,确定当前的系统时间与上一次屏幕 亮度调节操作的时间的时间间隔,在该时间间隔超过设定时间阈值时,也可以触发亮度调节事件。在每次完成屏幕亮度调节操作时,启动计时器开始计时,以记录当前时间与上一次屏幕亮度调节操作的时间的时间间隔。上述时间阈值可以是系统默认,或用户根据实际需要自行设置的,用于触发亮度调节事件。例如,设定时间间隔可以是1小时,获取计时器的读数,判断该时间间隔是否超过1小时。在计时器达到预设时间阈值时,控制计时器清零,以待完成屏幕亮度调节操作后,重新计时。
在步骤204中,确定触发预设的亮度调节事件。
在步骤205中,根据所述强度值查询预设的白名单,确定所述强度值对应的环境光编号。
其中,白名单中关联存储环境光的强度值区间与预设编号的对应关系。
在步骤206中,根据所述环境光编号查询历史调节信息数据库,得到与所述环境光编号对应的目标历史调节记录。
其中,历史调节信息数据库关联存储环境光的历史强度值、亮度调节操作前的第一历史亮度值、亮度调节操作后的第二历史亮度值及亮度调节操作的历史执行时间。
在步骤207中,对该目标历史调节记录包含的历史执行时间进行排序,并根据排序结果分别为所述目标历史调节记录包含的第二历史亮度值赋予预设的加权系数。
在步骤208中,根据所述第二历史亮度值及对应的加权系数计算亮度加权平均值,并将所述亮度加权平均值作为目标亮度值。
在步骤209中,获取屏幕的当前亮度值。
在步骤210中,计算所述目标亮度值与所述当前亮度值的差值。
在步骤211中,判断所述差值是否大于或等于设定调节间隔值,若差值大于或等于设定调节间隔值,则执行步骤212和步骤214;若差值小于设定调节间隔值,执行步骤213和步骤214。
上述设定调节间隔值可以根据大量用户群体的屏幕亮度历史调节记录进行分析确定。例如,在执行完由当前亮度调节至目标亮度值的操作后,用户又手动调节了屏幕亮度,则认为本次屏幕亮度调节操作中,当前亮度值与目标亮度值的亮度偏差较大,根据该规律,对屏幕亮度历史调节记录进行分析,确定设 定调节间隔值。
在步骤212中,根据与所述目标亮度值的偏差将所述差值分成至少两个数值区间,根据所述数值区间对屏幕亮度进行平滑调节。
上述至少两个数值区间的划分依据可以是均分该差值对应的数值间隔。此外,划分依据还可以是在屏幕亮度调整过程中,根据实时获取的屏幕亮度值与目标亮度值的偏差将该差值对应的数值间隔划分为至少两个数值区间。例如,在屏幕亮度调整过程中,实时获取屏幕亮度(下文将该亮度称为实时屏幕亮度),在实时屏幕亮度距离目标亮度值较远时,划分的第一数值区间较小,即采用较小的数值区间进行平滑调整,在实时屏幕亮度距离目标亮度值较近时,划分的第二数值区间较大,即采用较大的数值区间进行亮度调节。举例说明,目标亮度值为500,当前屏幕亮度为400,设置一阈值为460,在调整过程中,实时屏幕亮度小于该阈值460时,则判定实时屏幕亮度距离目标亮度值较远,则采用第一数值区间(如数值区间为10)对屏幕亮度进行调整。调整6次后,实时屏幕亮度460等于该阈值,则判定实时屏幕亮度距离目标亮度值较近,则采用第二数值区间(如数值区间为20)对屏幕亮度进行调整,调整2次后,屏幕亮度达到目标亮度值。
需要说明的是,本步骤执行完成后,执行步骤214。
在步骤213中,采用所述目标亮度值替换当前亮度值。
由于目标亮度值与当前亮度值的差值并不大(差值小于设定调节间隔值),可以采用直接替换的方式调节屏幕亮度,本步骤执行完成后执行步骤214。
在步骤214中,获取与所述目标亮度值对应的目标图像亮度值,并根据所述目标图像亮度值调节当前显示内容的亮度。
在某些场景下,影响用户看屏幕的感受的因素不仅是屏幕亮度,屏幕中所显示内容也会影响用户的观看体验。考虑到这一点,采集设定数量的用户群体针对屏幕亮度及屏幕中显示的图像亮度的历史设置操作,采用数据分析手段对上述历史设置操作进行分析,得到与屏幕亮度匹配的显示图像的亮度,并预先配置于移动终端内。例如,可以采用白名单的形式存储上述屏幕亮度与图像亮度的对应关系。
本申请实施例中,在获取目标亮度值之后,根据目标亮度值查询上述白名单,确定对应的图像亮度值,根据该图像亮度值调节当前显示内容的亮度。
在当前图像亮度值与目标图像亮度值的偏差较大时,可以根据与目标图像亮度值的偏差将差值区间(当前图像亮度值与目标图像亮度值的差值的取值范围)分成至少两个子区间,根据该子区间对图像亮度进行平滑调节,实现显示内容的图像亮度调节过程与屏幕亮度平滑过度相适应。
步骤214并非本申请实施例的必要步骤,即步骤214可执行也可不执行。同时,步骤214的执行顺序并不限于本申请实施例所记载的情况,步骤214在确定目标亮度值之后执行即可。
本实施例的技术方案,通过获取与目标亮度值对应的目标图像亮度值,并根据该目标图像亮度值调节当前显示内容的亮度,实现在调节屏幕亮度之外,还调节显示内容的亮度,更好的符合用户感受,有效地避免多次调节屏幕亮度,提高移动终端的执行效率。
在根据目标亮度值调节屏幕亮度后,可以将当前的环境光的强度值、屏幕调节操作之前的亮度值、目标亮度值、以及完成亮度调节操作的执行时间存入历史调节信息数据库。
图3是本申请实施例提供的一种屏幕亮度的调节装置的结构示意图。该装置可以通过软件和/或硬件实现,可被集成于移动终端内,用于执行本申请实施例提供的屏幕亮度的调节方法。如图3所示,该装置包括强度获取模块310,记录获取模块320,亮度计算模块330和亮度调节模块340。
强度获取模块310设置为获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件。
记录获取模块320设置为在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录。
亮度计算模块330设置为根据所述目标历史调节记录计算目标亮度值。
亮度调节模块340设置为根据所述目标亮度值对屏幕亮度进行调节。
本实施例的技术方案提供一种屏幕亮度的调节装置,实现根据用户的历史调节习惯有针对性地对屏幕亮度进行自动调节,调节结果更符合用户的实际体验要求。采用上述技术方案,解决了相关技术中因屏幕亮度调节方案的调节结果与用户对亮度的心里预期不相符导致多次调节的问题,提升了移动终端在屏幕亮度调节方面的智能度。
可选的,强度获取模块310设置为按照设定的采样间隔获取环境光传感器 输出的数值作为环境光的强度值;计算当前采样时刻对应的第一数值与上一采样时刻对应的第二数值的偏差量;以及在所述偏差量超过设定阈值时,确定触发预设的亮度调节事件。
可选的,记录获取模块320设置为根据所述强度值查询预设的白名单,确定所述强度值对应的环境光编号,其中,所述白名单中关联存储环境光的强度值区间与预设编号的对应关系;以及根据所述环境光编号查询历史调节信息数据库,得到与所述环境光编号对应的目标历史调节记录,其中,历史调节信息数据库关联存储环境光的历史强度值、亮度调节操作后的历史亮度值及亮度调节操作的历史执行时间。
可选的,亮度计算模块330还可以设置为:计算所述目标历史调节记录中包含的亮度调节操作后的多个亮度值的平均值;以及将计算得到的平均值作为所述目标亮度值。
可选的,该装置还可以包括:系数确定模块。
在记录获取模块得到与所述环境光编号对应的目标历史调节记录之后,该系数确定模块设置为对所述历史执行时间进行排序,并根据排序结果分别为所述历史亮度值赋予预设的加权系数。
可选的,该系数确定模块可以设置为:按照与当前环境光编号的关联程度对历史执行时间进行排序;以及按照与当前环境光编号的关联程度由近到远的顺序,依次为与历史执行时间对应的目标历史调节记录中包含的历史亮度值赋予不同的加权系数,其中,与当前环境光的关联程度越近,所述加权系数越大。
可选的,亮度计算模块330设置为根据所述历史亮度值及对应的加权系数计算亮度加权平均值,并将所述亮度加权平均值作为目标亮度值。
可选的,亮度调节模块340设置为获取屏幕的当前亮度值;计算所述目标亮度值与所述当前亮度值的差值;在所述差值超过设定调节间隔值时,根据实时屏幕亮度与所述目标亮度值的偏差将所述差值分成至少两个数值区间;以及根据所述数值区间对屏幕亮度进行平滑调节。
可选的,该装置还可以包括:内容亮度调节模块。
内容亮度调节模块设置为获取与所述目标亮度值对应的目标图像亮度值,并根据所述目标图像亮度值调节当前显示内容的亮度。
本申请实施例还提供一种包含计算机可执行指令的存储介质,所述计算机可执行指令在由计算机处理器执行时用于执行一种屏幕亮度的调节方法,该方法包括:获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件;在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录;根据所述目标历史调节记录计算目标亮度值;以及根据所述目标亮度值对屏幕亮度进行调节。
存储介质——任何的各种类型的存储器设备或存储设备。术语“存储介质”旨在包括:安装介质,例如CD-ROM、软盘或磁带装置;计算机系统存储器或随机存取存储器,诸如DRAM、DDR RAM、SRAM、EDO RAM,兰巴斯(Rambus)RAM等;非易失性存储器,诸如闪存、磁介质(例如硬盘或光存储);寄存器或其它相似类型的存储器元件等。存储介质可以还包括其它类型的存储器或其组合。另外,存储介质可以位于程序在其中被执行的第一计算机系统中,或者可以位于不同的第二计算机系统中,第二计算机系统通过网络(诸如因特网)连接到第一计算机系统。第二计算机系统可以提供程序指令给第一计算机用于执行。术语“存储介质”可以包括驻留在不同位置中(例如在通过网络连接的不同计算机系统中)的两个或更多存储介质。存储介质可以存储可由一个或多个处理器执行的程序指令(例如具体实现为计算机程序)。
本申请实施例所提供的一种包含计算机可执行指令的存储介质,其计算机可执行指令不限于如上所述的屏幕亮度的调节操作,还可以执行本申请任意实施例所提供的屏幕亮度的调节方法中的相关操作。
本申请实施例提供了一种移动终端,该移动终端内具有操作系统,该移动终端中可集成本申请实施例提供的屏幕亮度的调节装置。其中,移动终端可以为智能手机、PAD(平板电脑)、掌上游戏机等。图4是本申请实施例提供的一种移动终端的结构框图。如图4所示,该移动终端包括存储器410及处理器420。所述存储器410存储计算机程序、白名单及历史调节信息数据库等。所述中央处理器420读取并执行所述存储器410中存储的计算机程序。所述处理器420在执行所述计算机程序时实现以下步骤:获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件;在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录;根据所述目标历史调节记录计算目标亮度值;以及根据所述目标亮度值对屏幕亮度进行调节。
上述示例中列举的存储器及处理器均为移动终端的部分元器件,所述移动终端还可以包括其它元器件。以智能手机为例,说明上述移动终端可能的结构。图5是本申请实施例提供的一种智能手机的结构框图。如图5所示,该智能手机可以包括:存储器501、中央处理器(Central Processing Unit,CPU)502(又称处理器,以下简称CPU)、外设接口503、RF(Radio Frequency,射频)电路505、音频电路506、扬声器511、显示器512、电源管理芯片508、输入/输出(I/O)子系统509、其他输入/控制设备510以及外部端口504,这些部件通过一个或多个通信总线或信号线507来通信。
图5所示的智能手机500仅仅是移动终端的一个范例,并且智能手机500可以具有比图中所示出的更多的或者更少的部件,可以组合两个或更多的部件,或者可以具有不同的部件配置。图中所示出的各种部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件、或硬件和软件的组合中实现。
下面就本实施例提供的集成有屏幕亮度的调节装置的智能手机进行相关描述。
存储器501可以被CPU 502、外设接口503等访问,所述存储器501可以包括高速随机存取存储器,还可以包括非易失性存储器,例如一个或多个磁盘存储器件、闪存器件、或其他易失性固态存储器件。在存储器511中存储计算机程序,还可以存储白名单及历史调节信息数据库等。
外设接口503可以将设备的输入和输出外设连接到CPU 502和存储器501。
I/O子系统509可以将设备上的输入输出外设,例如屏幕512和其他输入/控制设备510,连接到外设接口503。I/O子系统509可以包括显示控制器5091和用于控制其他输入/控制设备510的一个或多个输入控制器5092。其中,一个或多个输入控制器5092从其他输入/控制设备510接收电信号或者向其他输入/控制设备510发送电信号,其他输入/控制设备510可以包括物理按钮(按压按钮、摇臂按钮等)、拨号盘、滑动开关、操纵杆或者点击滚轮。输入控制器5092可以与以下任一个连接:键盘、红外端口、USB接口以及诸如鼠标的指示设备。
屏幕512是用户终端与用户之间的输入接口和输出接口,将可视输出显示给用户,可视输出可以包括图形、文本、图标、视频等。
I/O子系统509中的显示控制器5051从屏幕512接收电信号或者向屏幕512发送电信号。屏幕512检测屏幕上的接触,显示控制器5091将检测到的接触转 换为与显示在屏幕512上的用户界面对象的交互,即实现人机交互,显示在屏幕512上的用户界面对象可以是运行游戏的图标、联网到相应网络的图标等。值得说明的是,设备还可以包括光鼠,光鼠是不显示可视输出的触摸敏感表面,或者是由屏幕形成的触摸敏感表面的延伸。
RF电路505建立手机与无线网络(即网络侧)的通信,实现手机与无线网络的数据接收和发送。例如收发短信息、电子邮件等。例如,RF电路505接收并发送RF信号,RF信号也称为电磁信号,RF电路505将电信号转换为电磁信号或将电磁信号转换为电信号,并且通过该电磁信号与通信网络以及其他设备进行通信。RF电路505可以包括执行这些功能的电路,其包括但不限于天线系统、RF收发机、一个或多个放大器、调谐器、一个或多个振荡器、数字信号处理器、CODEC(COder-DECoder,编译码器)芯片组、用户标识模块(Subscriber Identity Module,SIM)等等。
音频电路506从外设接口503接收音频数据,将该音频数据转换为电信号,并且将该电信号发送给扬声器511。
扬声器511将手机通过RF电路505从无线网络接收的语音信号,还原为声音并向用户播放该声音。
电源管理芯片508为CPU 502、I/O子系统及外设接口所连接的硬件进行供电及电源管理。
本申请实施例提供的移动终端,可以实现根据用户的历史调节习惯有针对性地对屏幕亮度进行自动调节,调节结果更符合用户的实际体验要求。采用上述技术方案,解决了相关技术中因屏幕亮度调节方案的调节结果与用户对亮度的心里预期不相符导致多次调节的问题,提升了移动终端在屏幕亮度调节方面的智能度。
上述实施例中提供的屏幕亮度的调节装置、存储介质及移动终端可执行本申请任意实施例所提供的屏幕亮度的调节方法,具备执行该方法相应的功能模块。未在上述实施例中详尽描述的技术细节,可参见本申请任意实施例所提供的屏幕亮度的调节方法。
Claims (20)
- 一种屏幕亮度的调节方法,包括:获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件;在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录;根据所述目标历史调节记录计算目标亮度值;以及根据所述目标亮度值对屏幕亮度进行调节。
- 根据权利要求1所述的方法,其中,获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件,包括:按照设定的采样间隔获取环境光传感器输出的数值,将所述数值作为环境光的强度值;计算当前采样时刻获取的环境光传感器输出的第一数值与上一采样时刻获取的环境光传感器输出的第二数值的偏差量;以及在所述偏差量大于或等于设定阈值时,触发预设的亮度调节事件。
- 根据权利要求1所述的方法,其中,获取与所述强度值匹配的目标历史调节记录,包括:根据所述强度值查询预设的白名单,确定所述强度值对应的环境光编号,其中,所述白名单中关联存储环境光的强度值区间与环境光编号的对应关系;以及根据所述环境光编号查询历史调节信息数据库,得到与所述环境光编号对应的目标历史调节记录,其中,所述历史调节信息数据库关联存储环境光编号与目标历史记录的对应关系,所述目标历史记录包括环境光的历史强度值、亮度调节后的历史亮度值及亮度调节的历史执行时间。
- 根据权利要求3所述的方法,其中,所述根据所述目标历史调节记录计算目标亮度值包括:计算所述目标历史调节记录中包含的亮度调节操作后的多个亮度值的平均值;以及将计算得到的平均值作为所述目标亮度值。
- 根据权利要求3所述的方法,在得到与所述环境光编号对应的目标历史调节记录之后,还包括:对所述历史执行时间进行排序,并根据排序结果分别为所述目标历史调节记录包含的历史亮度值赋予预设的加权系数。
- 根据权利要求5所述的方法,其中,对所述历史执行时间进行排序,根 据排序结果分别为所述目标历史调节记录包含的历史亮度值赋予预设的加权系数包括:按照与当前环境光编号的关联程度对历史执行时间进行排序;以及按照与当前环境光编号的关联程度由近到远的顺序,依次为与历史执行时间对应的目标历史调节记录中包含的历史亮度值赋予不同的加权系数,其中,与当前环境光的关联程度越近,所述加权系数越大。
- 根据权利要求6所述的方法,其中,根据所述目标历史调节记录计算目标亮度值,包括:根据所述历史亮度值及对应的加权系数计算亮度加权平均值,并将所述亮度加权平均值作为目标亮度值。
- 根据权利要求1至7中任一项所述的方法,其中,根据所述目标亮度值对屏幕亮度进行调节,包括:获取屏幕的当前亮度值;计算所述目标亮度值与所述当前亮度值的差值;在所述差值大于或等于设定调节间隔值时,根据屏幕亮度调节过程中获取的实时屏幕亮度与所述目标亮度值的偏差将所述差值分成至少两个数值区间;以及根据所述数值区间对屏幕亮度对屏幕亮度进行平滑调节。
- 根据权利要求8所述的方法,还包括:获取与所述目标亮度值对应的目标图像亮度值,并根据所述目标图像亮度值调节当前显示内容的亮度。
- 一种屏幕亮度的调节装置,包括:强度获取模块,设置为获取环境光的强度值,根据所述强度值判断是否触发预设的亮度调节事件;记录获取模块,设置为在触发所述亮度调节事件时,获取与所述强度值匹配的目标历史调节记录;亮度计算模块,设置为根据所述目标历史调节记录计算目标亮度值;以及亮度调节模块,设置为根据所述目标亮度值对屏幕亮度进行调节。
- 根据权利要求10所述的装置,其中,所述强度获取模块设置为:按照设定的采样时间间隔获取环境光传感器输出的数值,将所述数值作为环境光的强度值;计算当前采样时刻获取的环境光传感器输出的第一数值与上一采样时刻获取的环境光传感器输出的第二数值的偏差量;以及在所述偏差量大于或等于设定阈值时,触发预设的亮度调节事件。
- 根据权利要求10所述的装置,其中,记录获取模块设置为:根据所述强度值查询预设的白名单,确定所述强度值对应的环境光编号,其中,所述白名单中关联存储环境光的强度值区间与环境光编号的对应关系;以及根据所述环境光编号查询历史调节信息数据库,得到与所述环境光编号对应的目标历史调节记录,其中,所述历史调节信息数据库关联存储环境光编号与目标历史记录的对应关系,所述目标历史记录包括环境光的历史强度值、亮度调节后的历史亮度值及亮度调节的历史执行时间。
- 根据权利要求12所述的装置,所述亮度计算模块设置为:计算所述目标历史调节记录中包含的亮度调节操作后的多个亮度值的平均值;以及将计算得到的平均值作为所述目标亮度值。
- 根据权利要求12所述的装置,记录获取模块在得到与所述环境光编号对应的目标历史调节记录之后,还包括:系数确定模块,设置为对所述历史执行时间进行排序,并根据排序结果分别为所述目标历史调节记录包含的历史亮度值赋予预设的加权系数。
- 根据权利要求14所述的装置,其中,系数确定模块设置为:按照与当前环境光编号的关联程度对历史执行时间进行排序;以及按照与当前环境光编号的关联程度由近到远的顺序,依次为与历史执行时间对应的目标历史调节记录中包含的历史亮度值赋予不同的加权系数,其中,与当前环境光的关联程度越近,所述加权系数越大。
- 根据权利要求15所述的装置,其中,亮度计算模块设置为:根据所述历史亮度值及对应的加权系数计算亮度加权平均值,并将所述亮度加权平均值作为目标亮度值。
- 根据权利要求10至16中任一项所述的装置,其中,亮度调节模块设置为:获取屏幕的当前亮度值;计算所述目标亮度值与所述当前亮度值的差值;在所述差值大于或等于设定调节间隔值时,根据屏幕亮度调节过程中获取的实时屏幕亮度与所述目标亮度值的偏差将所述差值分成至少两个数值区间;以及根据所述数值区间对屏幕亮度对屏幕亮度进行平滑调节。
- 根据权利要求17所述的装置,还包括:内容亮度调节模块,设置为获取与所述目标亮度值对应的目标图像亮度值,并根据所述目标图像亮度值调节当前显示内容的亮度。
- 一种计算机可读存储介质,其上存储有计算机程序,该程序被处理器执行时实现如权利要求1至9中任一项所述的屏幕亮度的调节方法。
- 一种移动终端,包括存储器,处理器及存储在存储器上并可在处理器运行的计算机程序,所述处理器执行所述计算机程序时实现如权利要求1至9中任一项所述的屏幕亮度的调节方法。
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