CN102902408A - Method for controlling touch screen of electronic equipment and electronic equipment - Google Patents

Method for controlling touch screen of electronic equipment and electronic equipment Download PDF

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Publication number
CN102902408A
CN102902408A CN2012103455989A CN201210345598A CN102902408A CN 102902408 A CN102902408 A CN 102902408A CN 2012103455989 A CN2012103455989 A CN 2012103455989A CN 201210345598 A CN201210345598 A CN 201210345598A CN 102902408 A CN102902408 A CN 102902408A
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touch
basic virtual
virtual region
electronic equipment
screen
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CN2012103455989A
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CN102902408B (en
Inventor
王志彬
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Shenzhen Tinno Wireless Technology Co Ltd
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Shenzhen Tinno Wireless Technology Co Ltd
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Abstract

The invention discloses a method for controlling a touch screen of electronic equipment and the electronic equipment for achieving the method. The method includes determination of a touch area, when the touch screen accepts the touch operation, the electronic equipment determining all basic virtual areas passed by a touch track according to the tough track of the touch operation on the touch screen, wherein the basic virtual areas are formed through division of the electronic equipment on the touch screen; statistics of the touch time, the electronic equipment performing accumulated statistics the touch time corresponding to each basic virtual area; and adjustment of the position of an operation area, the electronic equipment adjusting the position of at least one operation area on the touch screen according to statistics results. According to the method and the electronic equipment, touch times of operation areas on the touch screen can be counted to adjust positions of the operation areas, the touch times of the areas on the touch screen are enabled to be even to the greatest extent, damage to the whole touch screen due to too many touch times in some areas can be prevented, and the service life of the touch screen can be prolonged.

Description

A kind of method and a kind of electronic equipment of controlling the work of electronic equipment touch-screen
Technical field
The application relates to electronic device field, relates in particular to a kind of method and a kind of electronic equipment of controlling the work of electronic equipment touch-screen.
Background technology
Along with socioeconomic development, touch-screen is widely used various electronic products, such as mobile phone, computer and panel computer etc., and the user just can finish various operations by touching touch-screen.
Yet contacting between user and the touch-screen all is physical contact, after using certain hour, touch-screen can damage because of the friction that physical contact produces unavoidably, the operating area that particularly usage frequency is very high on those touch-screens or the position at action button place, easier because of the touch number of times that bears too many and damaged, so that whole touch-screen even electronic equipment all can not be worked, therefore shorten the serviceable life of touch-screen and electronic equipment, concerning individual and society, all can cause the wasting of resources.
Touch-screen for electronic equipment holds flimsy problem, and present solution mainly is to improve the material of touch-screen, for example increases the hardness of material, fastness to rubbing etc.
Summary of the invention
The technical problem underlying that the application will solve is, a kind of method and a kind of electronic equipment of controlling the work of electronic equipment touch-screen is provided, and can reduce the damage to touch-screen, prolongs the service time of touch-screen.
The application provides a kind of method of controlling the work of electronic equipment touch-screen on the one hand, may further comprise the steps:
Touch area determining step: when touch-screen is accepted touch operation, electronic equipment is according to the touch track of touch operation on touch-screen, determine all basic virtual regions of touch track process, basic virtual region is divided and is formed touch-screen in advance by electronic equipment;
Touch the number of times statistic procedure: touch number of times corresponding to electronic equipment each basic virtual region of cumulative statistics;
Operating area position set-up procedure: electronic equipment is adjusted the position of at least one operating area on the touch-screen according to statistics.
Among a kind of embodiment, operating area comprises palace lattice menu, the action button in the application program and/or operation input frame.
Among a kind of embodiment, in the set-up procedure of operating area position, electronic equipment is according to statistics, and the concrete mode that the position of operating area is adjusted is:
Receive the touch number of times query statement of input;
Present statistics by user interface;
Instruction is adjusted in the operating area position that receives input, and adjusts instruction according to the operating area position, and the position of operating area is adjusted to frequently zone of non-touch from touching frequent zone.
Among a kind of embodiment, touch in the number of times statistic procedure, behind touch number of times corresponding to each basic virtual region of the cumulative statistics of electronic equipment, also calculate touch number of times estimated value corresponding at least one operating area on the touch-screen that is formed by a plurality of basic virtual regions;
In the set-up procedure of operating area position, whether the electronic equipment at first regional corresponding touch number of times estimated value of decision operation is then the position with operating area to be adjusted to frequently zone of non-touch from touching frequent zone greater than pre-set threshold value.
Among a kind of embodiment, whether touch number of times estimated value corresponding to decision operation zone greater than the concrete mode of pre-set threshold value is: utilize and establish software in the electronic equipment and regularly judge.
Among a kind of embodiment, the computing method that touch the number of times estimated value are: the touch number of times addition that all basic virtual regions that described operating area is occupied are corresponding, and divided by the number of all basic virtual regions that occupy.
Among a kind of embodiment, touch in the number of times statistic procedure, after electronic equipment adds up and adds up touch number of times corresponding to each basic virtual region, also according to touching number of times, add up touch number of times grade corresponding to each basic virtual region, touch the identical basic virtual region of number of times grade and form the section at touch-screen;
The concrete mode that the position of operating area is adjusted to the frequent zone of non-touch from touching frequent zone is: operating area is moved to and touches the low section of number of times grade from touching the high section of number of times grade on touch-screen.
Among a kind of embodiment, in the determining step of touch area, determine that the concrete grammar of all basic virtual regions of touch track process is:
Laterally basic virtual region determining step: getting the upper left point of touch-screen is that initial point is set up coordinate system, if the horizontal ordinate of the left side bearing of a certain basic virtual region is less than the horizontal ordinate of the maximum horizontal ordinate of touch track and the right side bearing minimum horizontal ordinate greater than touch track, then this basic virtual region is the laterally basic virtual region of touch track process;
Vertically basic virtual region determining step: getting the upper left point of touch-screen is that initial point is set up coordinate system, if the ordinate of the upper sideline of a certain basic virtual region is less than the ordinate of the maximum ordinate of touch track and the lower sideline minimum ordinate greater than touch track, then this basic virtual region is the vertically basic virtual region of touch track process;
The basic virtual region determining step of touch track process: select the laterally basic virtual region of touch track process and the basic virtual region that vertically basic virtual region overlaps, as the basic virtual region of touch track process.
The application provides a kind of electronic equipment of realizing controlling electronic equipment touch-screen method of work on the other hand, comprising:
Touch area determining unit: be used for when touch-screen is accepted touch operation, according to the touch track of touch operation on touch-screen, determine all basic virtual regions of touch track process, basic virtual region is divided and is formed touch-screen in advance by electronic equipment.
Touch the number of times statistic unit: be used for touch number of times corresponding to cumulative each basic virtual region of statistics.
Operating area position adjustment unit: be used for according to statistics, the position of at least one operating area on the touch-screen is adjusted.
Among a kind of embodiment, the touch area determining unit also comprises:
Laterally basic virtual region determination module: being used for getting the upper left point of touch-screen is that initial point is set up coordinate system, if the horizontal ordinate of the left side bearing of a certain basic virtual region is less than the horizontal ordinate of the maximum horizontal ordinate of touch track and the right side bearing minimum horizontal ordinate greater than touch track, then getting this basic virtual region is the laterally basic virtual region of touch track process.
Vertically basic virtual region determination module: being used for getting the upper left point of touch-screen is that initial point is set up coordinate system, if the ordinate of the upper sideline of a certain basic virtual region is less than the ordinate of the maximum ordinate of touch track and the lower sideline minimum ordinate greater than touch track, then getting this basic virtual region is the vertically basic virtual region of touch track process.
The basic virtual region determination module of touch track process: be used for selecting the laterally basic virtual region of touch track process and the basic virtual region that vertically basic virtual region overlaps, as the basic virtual region of touch track process.
Among a kind of embodiment, the operating area position adjustment unit comprises:
The first command reception module: the touch number of times query statement that is used for receiving input.
Present module: be used for presenting statistics by user interface.
The second command reception module: instruction is adjusted in the operating area position that be used for to receive input, and the position of operating area is adjusted to frequently zone of non-touch from touching frequent zone.
Among a kind of embodiment, touch the number of times statistic unit and also comprise touch number of times estimated value computing module: be used for behind touch number of times corresponding to cumulative each basic virtual region of statistics, also calculating touch number of times estimated value corresponding to operating area that is formed by a plurality of basic virtual regions.
The operating area position adjustment unit also comprises judge module: being used for whether judging touch number of times estimated value corresponding to described operating area greater than pre-set threshold value, is then the position of operating area to be adjusted to frequently zone of non-touch from touching frequent zone.
The application's beneficial effect is: the method for the control electronic equipment touch-screen work that the application provides and the touch that electronic equipment can count each operating area on the touch-screen time logarithmic data, and according to touching operating area that time logarithmic data adjusts each application program corresponding position on touch-screen, make the touch number of times that each zone is subject on the touch-screen even as far as possible, prevent that number of times is too much to be caused whole touch screen from being damaged, the service time of prolongation touch-screen because touching in some zone.
Description of drawings
Fig. 1 is the method flow diagram of the control electronic equipment touch-screen work of a kind of embodiment of the application;
Fig. 2 is that resolution is the basic virtual area partition synoptic diagram of handset touch panel of 240*400;
Fig. 3 is that resolution is the handset touch panel operating position demonstration synoptic diagram of 240*400;
Fig. 4 is that method flow diagram is determined in the virtual fundamental region of user's touch track process of a kind of embodiment of the application;
Fig. 5 is the electronic devices structure block diagram of a kind of embodiment of the application.
Embodiment
By reference to the accompanying drawings the present invention is described in further detail below by embodiment.Among the embodiment, the method for control electronic equipment touch-screen work is applied on the electronic equipment with touch-screen among the application, and these electronic equipments can be mobile phone, panel computer etc.Electronic equipment can count the touch number of times of each basic virtual region on the touch-screen in the use procedure, then can be based on these data, adjust the position of each operating area on touch-screen by automatic or manual mode, make the touch number of times that each zone is subject on the touch-screen even as far as possible, prevent that number of times is too much to be caused whole touch screen from being damaged, the service time of prolongation touch-screen because touching in some zone.
Embodiment one:
Please refer to Fig. 1, in the present embodiment, the method for control electronic equipment touch-screen work may further comprise the steps:
S100: touch area determining step: when touch-screen is accepted touch operation, electronic equipment is according to the touch track of touch operation on touch-screen, determine all basic virtual regions of touch track process, basic virtual region is divided and is formed touch-screen in advance by electronic equipment.
Basic virtual region is the resolution according to the electronic equipment touch-screen, divides take pixel as unit, and generally, each basic virtual region all is rectangle, and equal and opposite in direction.In specific embodiment, please refer to Fig. 2, the handset touch panel take resolution as 240*400 is example, and touch-screen is divided into horizontal 24, vertical 40, amount to 480 basic virtual regions, each basic virtual region is a square, the pixel of the length of side is 10.Now establish these 480 basic virtual region names and be respectively A1-1, A1-2, A1-3.........A24-40, wherein, first represents the horizontal sequence valve of this basic virtual region the numeral of A back, vertical sequence valve of this virtual fundamental region of second expression of the numeral of A back, be the better principle of setting forth the application, the a plurality of basic virtual region from 1 to 480 of dividing out is numbered numeral 1,2 wherein, 3,26,27,28.... is until 478,479, the numbering of 480 expression corresponding regions, the blank region representation of not filling in numeral omits, and also has some zones not draw in the middle of them.
When the user touches touch-screen; touch-screen is accepted the touch operation of user on touch-screen; this touch operation may be one click; also may be once to slide; can form touch track at touch-screen in a word; and this touch track can be passed through a plurality of basic virtual regions, and the touch track data of the coordinate form that electronic equipment forms at touch-screen according to this touch track are determined all basic virtual regions of this touch track process.
S101: touch the number of times statistic procedure: touch number of times corresponding to electronic equipment each basic virtual region of cumulative statistics.
Determine all basic virtual regions of touch track process when electronic equipment after, electronic equipment will be to touch number of times corresponding to these the basic virtual regions statistics that adds up, every touch once, counting adds one, for example for the basic virtual region of called after A1-3, when all basic virtual regions of certain touch track process comprised this basic virtual region, it touched cumulative frequency and adds one.In addition, some the time, in the operating area that the user wishes to add up, often the area of an operating area occupies a plurality of basic virtual regions, can be the action button in palace lattice menu or a certain application program or operate input frame etc. such as operating area, the operation input frame can be the handwriting input frame.When touch number of times corresponding to the operating area that formed by a plurality of basic virtual regions of statistics, the touch number of times addition that all basic virtual regions that this operating area can be occupied are corresponding, the number of all basic virtual regions that occupy divided by this operating area, just can obtain touch number of times estimated value corresponding to this operating area by this mode of averaging, this value also can reflect the frequency that this operating area is touched well.
Counting statistics by a period of time, electronic equipment just can count touch number of times corresponding to all basic virtual regions of touch track process on the touch-screen, the touch number of times estimated value that the operating area that is perhaps formed by a plurality of basic virtual regions is corresponding, these statisticss are stored in the electronic equipment and the number of times that is touched along with touch-screen dynamically increases, thereby it is frequently regional to form the touch that is comprised of the relatively high basic virtual region of touch number of times at touch-screen, and frequently distinguish by touching the non-touch that the relatively high basic virtual region of number of times forms, specifically how distinguish and to adopt flexibly various ways touching frequent zone and the frequent zone of non-touch, for example set the boundary value that touches number of times, the touch number of times belongs to the frequent zone of touch greater than the basic virtual region of this boundary value, the touch number of times belongs to frequently zone of non-touch less than the basic virtual region of this boundary value, certainly also can adopt other differentiation mode.Among a kind of embodiment, after electronic equipment adds up and adds up touch number of times corresponding to each basic virtual region, also according to touching number of times, add up touch number of times grade corresponding to each basic virtual region, touch the identical basic virtual region of number of times grade and form the section at touch-screen, for example touch number of times and be zero to 10,000 times, be defined as grade A; Touch number of times and be 10,000 to 100,000 times, be defined as grade B; Touch number of times and be 100,000 to 1,000,000 times, be defined as grade C, also can set section that the basic virtual region of grade C forms and form and touch frequent zone, the section that the basic virtual region of grade B and grade A forms forms frequently zone of non-touch.
S102: operating area position set-up procedure: electronic equipment is adjusted the position of at least one operating area on the touch-screen according to statistics.
Electronic equipment counts touch number of times corresponding to all basic virtual regions of touch track process on the touch-screen, after touch number of times estimated value corresponding to the operating area that is perhaps formed by a plurality of basic virtual regions, can according to statistics, the position of at least one operating area manually be adjusted or automatically adjust.
Wherein, a kind of concrete steps of manually adjusting are: electronic equipment receives the touch number of times query statement of input by the menu on the touch-screen or mobile phone key; Statistics by MMI user interface rendering step S101, this statistics can have various ways, for example can demonstrate at each basic virtual region the touch number of times of its correspondence, perhaps also can show a basic touch number of times grade corresponding to virtual region by modes such as numeral, letter, character, colors; At last, electronic equipment is adjusted instruction by the operating area position that touch-screen receives input again, and adjusts instruction according to the operating area position position of operating area is adjusted to frequently zone of non-touch from touching frequent zone.
In specific embodiment, please refer to Fig. 3, drawn grid represents above-mentioned basic virtual region among the figure, the black part also has above-mentioned basic virtual region in the screen, is sake of clarity, is labeled with the subregion of letter in the middle of only choosing.Present embodiment shows that by kinds of characters touch number of times grade corresponding to each basic virtual region also can be called the frequency grade, for example, character A, B, the C in each drawn grid represents the frequency grade that this zone is used, wherein, touch number of times and be zero to 10,000 times, be defined as grade A; Touch number of times and be 10,000 to 100,000 times, be defined as grade B; Touch number of times and be 100,000 to 1,000,000 times, be defined as grade C; The definition of this grade is in advance by the user knew.When the user wishes to check each regional operating position of touch-screen, just can activate query screen operating position menu 31, carry out menu option inquiry operating position 32, electronic equipment will pass through character A with the operating position of touch-screen, B, C is shown on the screen, thereby allow the user clearly know the operating position that each is regional, the section usage frequency that the basic virtual region that screen upper left side grade A is identical forms is lower, the section usage frequency that the screen below identical basic virtual region of grade B forms takes second place, and the section usage frequency that the basic virtual region that the upper right grade C of screen is identical forms is the highest.The user just can adopt manual mode to adjust instruction to electronic equipment input operation regional location, for example directly drag a certain operating area at screen, its position is moved in the section that the basic virtual region of grade A or grade B forms from the highest grade C zone of usage frequency.Such as in the lattice menu of palace, the user can move to the icon of position in grade C zone in the section that the basic virtual region of grade A or grade B forms.
In addition, electronic equipment can according to statistics, be adjusted the position of at least one operating area on the touch-screen automatically.Particularly, can establish an application software in electronic equipment makes the zone on itself and the touch-screen do suitable coupling, in this software predetermined threshold value is set, when this application software judges that touch number of times estimated value corresponding to certain operating area reaches predetermined threshold value, electronic equipment just can be adjusted to frequently zone of non-touch from touching frequent zone with the position of this operating area, for example predetermined threshold value can be 100,000 times, 1,000,000 inferior, this application software can be judged at any time, certainly also can regularly judge according to the predetermined cycle.When the position of a certain operating area is adjusted to the frequent zone of non-touch from touching frequent zone, for example the icon of position in the section that the basic virtual region of grade C forms can be moved in the section that the basic virtual region of grade A or grade B forms, certainly, electronic equipment also can be set operating area in the section that the basic virtual region that grade is the highest forms and directly moves in the section that elementary basic virtual region forms.
Just can make the touch number of times that regional is subject on the electronic equipment touch-screen as far as possible even by said method, prevent that number of times is too much to be caused whole touch screen from being damaged, the service time of prolongation touch-screen because touching in some zone.
Embodiment two:
Please refer to Fig. 4 and Fig. 2, in the present embodiment, the touch area determining step specifically comprises following substep:
S400: laterally basic virtual region determining step: getting the upper left point of touch-screen is initial point, is to the right the horizontal ordinate direction, is the ordinate direction downwards, sets up coordinate system; Get maximum horizontal ordinate and the minimum horizontal ordinate of touch track, from left to right get the horizontal ordinate that first row is the sideline, the basic virtual region left and right sides of the 24th row to last row.
S401: the horizontal ordinate in sideline, the basic virtual region left and right sides and maximum horizontal ordinate and the minimum horizontal ordinate of touch track are compared, if the horizontal ordinate of the left side bearing of a certain basic virtual region is less than the horizontal ordinate of the maximum horizontal ordinate of touch track and the right side bearing minimum horizontal ordinate greater than touch track, then getting this basic virtual region is the laterally basic virtual region of touch track process.
S402: vertically basic virtual region determining step: getting the upper left point of touch-screen is initial point, it is to the right the horizontal ordinate direction, be the ordinate direction downwards, set up coordinate system, get maximum ordinate and the minimum ordinate of touch track, get from top to bottom the ordinate of lower sideline on the basic virtual region that the first row is the 40th row to last column.
S403: the ordinate of lower sideline on the basic virtual region and maximum ordinate and the minimum ordinate of touch track are compared, if the ordinate of the upper sideline of a certain basic virtual region is less than the ordinate of the maximum ordinate of touch track and the lower sideline minimum ordinate greater than touch track, then getting this basic virtual region is the vertically basic virtual region of touch track process.
S404: the basic virtual region determining step of touch track process: the basic virtual region of selecting to satisfy the horizontal basic virtual region of step S401 and satisfying the vertically basic virtual region coincidence of step S403, as the basic virtual region of touch track process, i.e. all virtual fundamental regions 22 of 21 processes of touch track in the present embodiment.
Embodiment three:
Different from embodiment two is, present embodiment is after at first execution in step S402-S403 obtains the vertically basic virtual region of touch track process, execution in step S400-S401 obtains the laterally basic virtual region of touch track process again, and last execution in step S404 obtains the virtual fundamental region of touch track process.
Embodiment four:
As described in Figure 5, the step of the method for above-described embodiment can come the instruction related hardware to finish by program, by with the coupling of hardware, this example forms a kind of electronic equipment with touch-screen, and this electronic equipment has the touch time logarithmic data of each operating area on the statistics touch-screen and adjusts the function of each operating area position.This electronic equipment can be mobile phone, computer and the panel computer etc. with touch-screen.This electronic equipment comprises:
Touch area determining unit 50: be used for when touch-screen is accepted touch operation, according to the touch track of touch operation on touch-screen, determine all basic virtual regions of touch track process, basic virtual region is divided and is formed touch-screen in advance by electronic equipment.
Touch number of times statistic unit 51: be used for touch number of times corresponding to cumulative each basic virtual region of statistics.This unit mainly comprises master control, counter, storer etc., and counter is used for touching the cumulative of number of times under the control of master control, and storer is used for touch number of times corresponding to each basic virtual region of storage under the control of master control.
Operating area position adjustment unit 52: be used for according to statistics, the position of at least one operating area on the touch-screen is adjusted.
Among a kind of embodiment, touch area determining unit 50 also comprises:
Laterally basic virtual region determination module 501: being used for getting the upper left point of touch-screen is that initial point is set up coordinate system, if the horizontal ordinate of the left side bearing of a certain basic virtual region is less than the horizontal ordinate of the maximum horizontal ordinate of touch track and the right side bearing minimum horizontal ordinate greater than touch track, then getting this basic virtual region is the laterally basic virtual region of touch track process.
Vertically basic virtual region determination module 502: being used for getting the upper left point of touch-screen is that initial point is set up coordinate system, if the ordinate of the upper sideline of a certain basic virtual region is less than the ordinate of the maximum ordinate of touch track and the lower sideline minimum ordinate greater than touch track, then getting this basic virtual region is the vertically basic virtual region of touch track process.
The basic virtual region determination module 503 of touch track process: be used for selecting the laterally basic virtual region of touch track process and the basic virtual region that vertically basic virtual region overlaps, as the basic virtual region of touch track process.
Among a kind of embodiment, touch number of times statistic unit 51 and also comprise:
Touch number of times estimated value computing module 511: be used for behind touch number of times corresponding to cumulative each basic virtual region of statistics, also calculating touch number of times estimated value corresponding to operating area that is formed by a plurality of basic virtual regions;
In a kind of mode of adjusting manually the operating area on the touch-screen, operating area position adjustment unit 52 also comprises:
The first command reception module 521: the touch number of times query statement that is used for receiving input.
Present module 522: be used under the control of master control, extracting statistics in the storer from touch number of times statistic unit 51, and by user interface statistics being presented to the user.
The second command reception module 523: instruction is adjusted in the operating area position that be used for to receive input, and adjusts instruction according to the operating area position, and the position of operating area is adjusted to frequently zone of non-touch from touching frequent zone.
The another kind of adjustment manually in the mode of the operating area on the touch-screen, the operating area position adjustment unit also comprises:
Judge module: whether being used for touch number of times estimated value corresponding to decision operation zone greater than pre-set threshold value, is then the position of operating area to be adjusted to frequently zone of non-touch from touching frequent zone.
Above content is the further description of the present invention being done in conjunction with concrete embodiment, can not assert that implementation of the present invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace.

Claims (10)

1. a method of controlling the work of electronic equipment touch-screen is characterized in that, may further comprise the steps:
Touch area determining step: when touch-screen is accepted touch operation, electronic equipment is according to the touch track of described touch operation on described touch-screen, determine all basic virtual regions of described touch track process, described basic virtual region is divided and is formed described touch-screen in advance by described electronic equipment;
Touch the number of times statistic procedure: touch number of times corresponding to electronic equipment each described basic virtual region of cumulative statistics;
Operating area position set-up procedure: electronic equipment is adjusted the position of at least one operating area on the described touch-screen according to statistics.
2. the method for claim 1 is characterized in that, in the set-up procedure of described operating area position, electronic equipment is according to statistics, and the concrete mode that the position of described operating area is adjusted is:
Receive the touch number of times query statement of input;
Present described statistics by user interface;
Instruction is adjusted in the operating area position that receives input, and adjusts instruction according to described operating area position, and the position of described operating area is adjusted to frequently zone of non-touch from touching frequent zone.
3. the method for claim 1, it is characterized in that, in the described touch number of times statistic procedure, behind touch number of times corresponding to each described basic virtual region of the cumulative statistics of electronic equipment, also calculate touch number of times estimated value corresponding at least one operating area on the described touch-screen that is formed by a plurality of described basic virtual regions;
In the set-up procedure of described operating area position, whether electronic equipment at first judges touch number of times estimated value corresponding to described operating area greater than pre-set threshold value, is then the position with described operating area to be adjusted to frequently zone of non-touch from touching frequent zone.
4. method as claimed in claim 3 is characterized in that, the computing method of described touch number of times estimated value are: the touch number of times addition that all basic virtual regions that described operating area is occupied are corresponding, and divided by the number of all basic virtual regions that occupy.
5. such as each described method among the claim 2-4, it is characterized in that, in the described touch number of times statistic procedure, after electronic equipment adds up and adds up touch number of times corresponding to each described basic virtual region, also according to described touch number of times, add up touch number of times grade corresponding to each described basic virtual region, the identical basic virtual region of described touch number of times grade forms the section at described touch-screen;
The concrete mode that the position of described operating area is adjusted to the frequent zone of non-touch from touching frequent zone is: described operating area is moved to and touches the low section of number of times grade from touching the high section of number of times grade on described touch-screen.
6. method as described in claim 1 is characterized in that, in the determining step of described touch area, determines that the concrete grammar of all basic virtual regions of described touch track process is:
Laterally basic virtual region determining step: getting the upper left point of described touch-screen is that initial point is set up coordinate system, if the horizontal ordinate of the left side bearing of a certain basic virtual region is less than the horizontal ordinate of the maximum horizontal ordinate of described touch track and the right side bearing minimum horizontal ordinate greater than described touch track, then this basic virtual region is the laterally basic virtual region of described touch track process;
Vertically basic virtual region determining step: getting the upper left point of described touch-screen is that initial point is set up coordinate system, if the ordinate of the upper sideline of a certain basic virtual region is less than the ordinate of the maximum ordinate of described touch track and the lower sideline minimum ordinate greater than described touch track, then this basic virtual region is the vertically basic virtual region of described touch track process;
The basic virtual region determining step of touch track process: select the laterally basic virtual region of described touch track process and the basic virtual region that vertically basic virtual region overlaps, as the basic virtual region of described touch track process.
7. an electronic equipment of realizing controlling electronic equipment touch-screen method of work is characterized in that, comprising:
Touch area determining unit: be used for when touch-screen is accepted touch operation, according to the touch track of described touch operation on described touch-screen, determine all basic virtual regions of described touch track process, described basic virtual region is divided and is formed described touch-screen in advance by described electronic equipment;
Touch the number of times statistic unit: be used for touch number of times corresponding to cumulative each described basic virtual region of statistics;
Operating area position adjustment unit: be used for according to statistics, the position of at least one operating area on the described touch-screen is adjusted.
8. electronic equipment as claimed in claim 7 is characterized in that, described touch area determining unit also comprises:
Laterally basic virtual region determination module: being used for getting the upper left point of described touch-screen is that initial point is set up coordinate system, if the horizontal ordinate of the left side bearing of a certain basic virtual region is less than the horizontal ordinate of the maximum horizontal ordinate of described touch track and the right side bearing minimum horizontal ordinate greater than described touch track, then getting this basic virtual region is the laterally basic virtual region of described touch track process;
Vertically basic virtual region determination module: being used for getting the upper left point of described touch-screen is that initial point is set up coordinate system, if the ordinate of the upper sideline of a certain basic virtual region is less than the ordinate of the maximum ordinate of described touch track and the lower sideline minimum ordinate greater than described touch track, then getting this basic virtual region is the vertically basic virtual region of described touch track process;
The basic virtual region determination module of touch track process: be used for selecting the laterally basic virtual region of described touch track process and the basic virtual region that vertically basic virtual region overlaps, as the basic virtual region of described touch track process.
9. electronic equipment as claimed in claim 7 is characterized in that, described operating area position adjustment unit comprises:
The first command reception module: the touch number of times query statement that is used for receiving input;
Present module: be used for presenting described statistics by user interface;
The second command reception module: instruction is adjusted in the operating area position that be used for to receive input, and adjusts instruction according to described operating area position, and the position of described operating area is adjusted to frequently zone of non-touch from touching frequent zone.
10. such as each described electronic equipment in the claim 7 to 9, it is characterized in that, described touch number of times statistic unit also comprises touch number of times estimated value computing module: be used for also calculating touch number of times estimated value corresponding to operating area that is formed by a plurality of described basic virtual regions behind touch number of times corresponding to cumulative each described basic virtual region of statistics;
Described operating area position adjustment unit also comprises judge module: being used for whether judging touch number of times estimated value corresponding to described operating area greater than pre-set threshold value, is then the position of described operating area to be adjusted to frequently zone of non-touch from touching frequent zone.
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