CN105278714B - Electronic equipment and touch control operation recognition methods - Google Patents
Electronic equipment and touch control operation recognition methods Download PDFInfo
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- CN105278714B CN105278714B CN201410342464.0A CN201410342464A CN105278714B CN 105278714 B CN105278714 B CN 105278714B CN 201410342464 A CN201410342464 A CN 201410342464A CN 105278714 B CN105278714 B CN 105278714B
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Abstract
A kind of electronic equipment, the electronic equipment are used for:The touch control operation that detecting user carries out on Touch Screen obtains the touch area of the touch control operation;When the touch area and multiple touch-control projects have intersection, the intersecting area of each touch-control project and the touch area is obtained;The midpoint of each touch-control project is calculated respectively to the maximum range D at the edge of corresponding intersecting areaiWith minimum range di;According to maximum range DiWith minimum range diThe relative distance Δ d of each intersecting area is calculated respectivelyi;Compare each Δ di/DiValue, obtain maximum Δ dm/Dm;And the triggering maximum Δ dm/DmCorresponding touch-control project.The present invention also provides a kind of touch control operation recognition methods.The present invention can effectively identify the target touch-control project of user's touch control operation, and the more difficult touch-control project chosen is made easily to be selected.
Description
Technical field
The present invention relates to touch technology, more particularly, to a kind of electronic equipment and on the Touch Screen of the electronic equipment
Touch control operation recognition methods.
Background technology
At present the electronic equipments such as mobile phone, tablet computer have been substantially all Touch Screen, and user in Touch Screen to show
Input area is operated for main input interface.However, the input area in Touch Screen includes many touch-control projects sometimes,
Cause the area very little of each touch-control project, and dense arrangement, the finger of user is not easy correctly to touch desired selection
Touch-control project(That is target touch-control project).Some electronic equipments are with the maximum pressure point of finger contact Touch Screen or connect at first
Touch-control project where contact is as target touch-control project, and still, everyone finger is not of uniform size, maximum pressure point or at first
Contact point also not necessarily falls in the range of target touch-control project, it is therefore possible to which target touch-control project can not be accurately judged to,
It can cause identification mistake.
The content of the invention
In view of the foregoing, it is necessary to a kind of electronic equipment be provided, can effectively identify user's touching in the electronic equipment
The target touch-control project of the touch control operation on screen is controlled, the more difficult touch-control project chosen is made easily to be selected.
In view of the foregoing, it there is a need to and a kind of touch control operation recognition methods be provided, can effectively identify that user's touch-control is grasped
The target touch-control project of work makes the more difficult touch-control project chosen easily be selected.
The electronic equipment includes:Detecting module for detecting the touch control operation that user carries out on Touch Screen, obtains
The touch area that the touch control operation is touched;Judgment module, for judge the touch area whether with multiple touch-control projects
There is intersection;Acquisition module, for when there is intersection in the touch area with multiple touch-control projects, obtaining the multiple touch-control item
Each touch-control project and the intersecting area of the touch area in mesh;Computing module, for calculating each touch-control respectively
The midpoint of project is to the maximum range D at the edge of corresponding intersecting areaiWith minimum range di;The computing module is additionally operable to basis
Maximum range DiWith minimum range diThe relative distance Δ d of each intersecting area is calculated respectivelyi;Comparison module, for relatively more each
Δdi/DiValue, obtain maximum Δ dm/Dm;And trigger module, for triggering the maximum Δ dm/DmCorresponding touch-control
Project.
The touch control operation recognition methods includes step:The touch control operation that detecting user carries out on Touch Screen obtains
The touch area that the touch control operation is touched;Judge whether the touch area with multiple touch-control projects has intersection;When described
When touch area and multiple touch-control projects have intersection, obtain each touch-control project in the multiple touch-control project with it is described
The intersecting area of touch area;The midpoint of each touch-control project is calculated respectively to the maximum range at the edge of corresponding intersecting area
DiWith minimum range di;According to maximum range DiWith minimum range diThe relative distance Δ d of each intersecting area is calculated respectivelyi;Than
More each Δ di/DiValue, obtain maximum Δ dm/Dm;And the triggering maximum Δ dm/DmCorresponding touch-control project.
Compared to the prior art, the electronic equipment and touch control operation recognition methods can be according to described each opposite
The ratio of distance and maximum range judges the target touch-control project of user's touch control operation so that because the reasons such as dense arrangement
And the more difficult touch-control project chosen can also be easy to be selected, and algorithm is simple, it is easy to accomplish.
Description of the drawings
Fig. 1 is the functional block diagram of electronic equipment preferred embodiment of the present invention.
Fig. 2 is the intersecting area schematic diagram of each touch-control project and touch area in the present invention.
Fig. 3-4 is the schematic diagram of maximum range in the present invention, minimum range and relative distance.
Fig. 5 is the flow chart of touch control operation recognition methods preferred embodiment of the present invention.
Main element symbol description
Electronic equipment | 2 |
Touch control operation identifying system | 10 |
Memory | 20 |
Processor | 30 |
Sensor | 40 |
Touch Screen | 50 |
Detecting module | 100 |
Judgment module | 200 |
Acquisition module | 300 |
Computing module | 400 |
Comparison module | 500 |
Trigger module | 600 |
Following specific embodiment will be further illustrated the present invention with reference to above-mentioned attached drawing.
Specific embodiment
As shown in fig.1, it is the functional block diagram of electronic equipment preferred embodiment of the present invention.Electronic equipment 2 includes touching
Control operation recognition system 10, memory 20, processor 30, sensor 40 and Touch Screen 50.In the present embodiment, electronic equipment
2 be mobile phone, tablet computer, MP4 etc..Sensor 40 obtains this and touches for detecting touch control operation of the user on Touch Screen 50
Control the touch area of operation.Touch control operation identifying system 10 is used for the touch area detected according to sensor 40, from touch screen
Judge that the touch control operation of user wants the touch-control project of selection in the multiple touch-control projects shown in curtain 50(Target touch-control item
Mesh), to trigger the target touch-control project.
In the present embodiment, touch control operation identifying system 10 includes detecting module 100, judgment module 200, acquisition module
300th, computing module 400, comparison module 500 and trigger module 600.The module is configured to by one or more processors
(The present embodiment is a processor 30)It performs, to complete the present invention.The so-called module of the present invention is to complete a specific function
Computer program code segments.Memory 20 is used to store the data such as the program code of touch control operation identifying system 10.
The detecting module 100 is used to that sensor 40 to be controlled to detect the touch control operation that user carries out on Touch Screen 50,
Obtain the touch area that the touch control operation is touched.
The judgment module 200 is for judging whether the touch area with multiple touch-control projects has intersection.Refering to Fig. 2 institutes
Show, touch area and four touch-control project W1、W2、W3And W4There is intersection.
The trigger module 600 is used for when only there is intersection in the touch area with a touch-control project, this is had intersection
Touch-control project be determined as the target touch-control project of the touch control operation, and trigger the target touch-control project.
The acquisition module 300 is used to, when there is intersection in the touch area with multiple touch-control projects, obtain described more
Each touch-control project and the intersecting area O of the touch area in a touch-control projecti.Wherein i=1 ~ n, n are the multiple
The number of touch-control project.As shown in fig.2, touch-control project W1Intersecting area with touch area is O1, touch-control project W2With touch-control
The intersecting area in region is O2, touch-control project W3Intersecting area with touch area is O3, touch-control project W4With the phase of touch area
Friendship region is O4。
The computing module 400 is used to calculate the midpoint P of each touch-control project respectivelyiTo corresponding intersecting area OiSide
The maximum range D of edgeiWith minimum range di(Refering to shown in Fig. 3 and Fig. 4).
The judgment module 200 is additionally operable to judge the midpoint P of each touch-control projectiWhether corresponding intersecting area is included in
OiIn.As shown in fig.3, touch-control project W4Midpoint P4It is not included in intersecting area O4In.As shown in fig.4, touch-control project W4
Midpoint P4Included in intersecting area O4In.
The computing module 400 is additionally operable to according to the maximum range DiWith minimum range diEach intersection is calculated respectively
Domain OiRelative distance Δ di.Wherein, as midpoint PiIncluded in intersecting area OiWhen middle, relative distance Δ di=Di+di;As midpoint Pi
It is not included in intersecting area OiWhen middle, relative distance Δ di=Di-di.For example, the Δ d in Fig. 34=D4-d4, and the Δ d in Fig. 44=
D4+d4。
The comparison module 500 is used to compare each Δ di/DiValue, obtain maximum Δ dm/Dm。
The trigger module 600 is additionally operable to maximum Δ dm/DmCorresponding touch-control project WmIt is determined as the touch control operation
Target touch-control project, and trigger the target touch-control project.In other embodiments, comparison module 500 can also be relatively more each
Di/ΔdiValue, obtain minimum value Dm/Δdm, trigger module 600 is by minimum value Dm/ΔdmCorresponding touch-control project WmIt determines
For the target touch-control project of the touch control operation, and trigger the target touch-control project.
As shown in fig.5, it is the flow chart of touch control operation recognition methods preferred embodiment of the present invention.The touch control operation is known
Other method can perform module 100 ~ 600 shown in FIG. 1 to realize by the processor 30.
Step S10, detecting module 100 control sensor 40 to detect the touch control operation that user carries out on Touch Screen 50,
Obtain the touch area that the touch control operation is touched.
Step S12, judgment module 200 judge whether the touch area with multiple touch-control projects has intersection.If described touch
Only there is intersection in control region with a touch-control project, then performs step S14.If there is friendship in the touch area with multiple touch-control projects
Collection, then perform step S16-S26.
The touch-control project for having intersection is determined as the target touch-control item of the touch control operation by step S14, trigger module 600
Mesh, and trigger the target touch-control project.
Step S16, acquisition module 300 obtain each touch-control project and the Touch Zone in the multiple touch-control project
The intersecting area O in domaini.Wherein i=1 ~ n, n are the number of the multiple touch-control project.
Step S18, computing module 400 calculate the midpoint P of each touch-control project respectivelyiTo corresponding intersecting area OiSide
The maximum range D of edgeiWith minimum range di。
Step S20, judgment module 200 judge the midpoint P of each touch-control projectiWhether corresponding intersecting area O is included ini
In.
Step S22, computing module 400 is according to the maximum range DiWith minimum range diEach intersecting area is calculated respectively
OiRelative distance Δ di.Wherein, as midpoint PiIncluded in intersecting area OiWhen middle, relative distance Δ di=Di+di;As midpoint PiNo
Included in intersecting area OiWhen middle, relative distance Δ di=Di-di。
Step S24, comparison module 500 compare each Δ di/DiValue, obtain maximum Δ dm/Dm。
Step S26, trigger module 600 is by maximum Δ dm/DmCorresponding touch-control project WmIt is determined as the touch control operation
Target touch-control project, and trigger the target touch-control project.In other embodiments, comparison module 500 can also compare each Di/
ΔdiValue, obtain minimum value Dm/Δdm, trigger module 600 is by minimum value Dm/ΔdmCorresponding touch-control project WmIt is determined as this
The target touch-control project of touch control operation, and trigger the target touch-control project.
The above embodiments are merely illustrative of the technical solutions of the present invention and it is unrestricted, although with reference to preferred embodiment to this hair
It is bright to be described in detail, it will be understood by those of ordinary skill in the art that, it can modify to technical scheme
Or equivalent substitution, without departing from the spirit and scope of technical solution of the present invention.
Claims (4)
1. a kind of touch control operation recognition methods, applied in the electronic equipment including Touch Screen, the Touch Screen is shown
Several touch-control projects, which is characterized in that the method comprising the steps of:
The touch control operation that detecting user carries out on the Touch Screen, obtains the touch area that the touch control operation is touched;
Judge whether the touch area with multiple touch-control projects has intersection;
When only there is intersection in the touch area with a touch-control project, triggering this has the touch-control project of intersection;
When the touch area and multiple touch-control projects have intersection, each touch-control in the multiple touch-control project is obtained
Project and the intersecting area of the touch area;
The midpoint of each touch-control project is calculated respectively to the maximum range D at the edge of corresponding intersecting areaiWith minimum range di,
Wherein, i=1~n, n are the number of the multiple touch-control project;
According to maximum range DiWith minimum range diThe relative distance Δ d of each intersecting area is calculated respectivelyi;
Compare each Δ di/DiValue, obtain maximum Δ dm/Dm, wherein, m=1~n;And the triggering maximum Δ dm/Dm
Corresponding touch-control project.
2. touch control operation recognition methods as described in claim 1, which is characterized in that described according to maximum range DiMost narrow spacing
Calculate the relative distance Δ d of each intersecting area respectively from diiThe step of further include:
Judge whether the midpoint of each touch-control project is included in corresponding intersecting area;
When the midpoint of the touch-control project is included in corresponding intersecting area, the relative distance Δ d of the intersecting area is calculatedi
=Di+di;And
When the midpoint of the touch-control project is not included in corresponding intersecting area, the relative distance Δ of the intersecting area is calculated
di=Di-di。
3. a kind of electronic equipment, the electronic equipment includes Touch Screen, and the Touch Screen shows several touch-control projects,
It is characterized in that, the electronic equipment further includes:
Detecting module for detecting the touch control operation that user carries out on the Touch Screen, obtains the touch control operation and touches
The touch area touched;
Judgment module, for judging whether the touch area has intersection with multiple touch-control projects;
Acquisition module, for when only there is intersection in the touch area with a touch-control project, triggering this to have the touch-control item of intersection
Mesh;
When the touch area and multiple touch-control projects have intersection, each touch-control in the multiple touch-control project is obtained
Project and the intersecting area of the touch area;
Computing module, for calculating the midpoint of each touch-control project respectively to the maximum range D at the edge of corresponding intersecting areai
With minimum range di, wherein, i=1~n, n are the number of the multiple touch-control project;
The computing module is additionally operable to according to maximum range DiWith minimum range diThe relative distance of each intersecting area is calculated respectively
Δdi;
Comparison module, for comparing each Δ di/DiValue, obtain maximum Δ dm/Dm, wherein, m=1~n;And
Trigger module, for triggering the maximum Δ dm/DmCorresponding touch-control project.
4. electronic equipment as claimed in claim 3, it is characterised in that:
The judgment module is additionally operable to judge whether the midpoint of each touch-control project is included in corresponding intersecting area;
The computing module is additionally operable to, when the midpoint of the touch-control project is included in corresponding intersecting area, calculate described intersecting
The relative distance Δ d in regioni=Di+di;And
When the midpoint of the touch-control project is not included in corresponding intersecting area, the relative distance Δ of the intersecting area is calculated
di=Di-di。
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CN201410342464.0A CN105278714B (en) | 2014-07-18 | 2014-07-18 | Electronic equipment and touch control operation recognition methods |
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CN105278714B true CN105278714B (en) | 2018-06-01 |
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CN112925455A (en) * | 2021-01-21 | 2021-06-08 | 维沃软件技术有限公司 | Touch operation execution method and device |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103140826A (en) * | 2010-09-22 | 2013-06-05 | Nec卡西欧移动通信株式会社 | Information terminal device and touch panel display method |
CN103135930A (en) * | 2013-02-05 | 2013-06-05 | 深圳市金立通信设备有限公司 | Touch screen control method and device |
CN103294232A (en) * | 2012-02-22 | 2013-09-11 | 华为终端有限公司 | Touch operation processing method and terminal |
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Publication number | Priority date | Publication date | Assignee | Title |
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TW201235884A (en) * | 2011-02-25 | 2012-09-01 | Asustek Comp Inc | Electronic apparatus with touch screen and associated displaying control method |
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103140826A (en) * | 2010-09-22 | 2013-06-05 | Nec卡西欧移动通信株式会社 | Information terminal device and touch panel display method |
CN103294232A (en) * | 2012-02-22 | 2013-09-11 | 华为终端有限公司 | Touch operation processing method and terminal |
CN103135930A (en) * | 2013-02-05 | 2013-06-05 | 深圳市金立通信设备有限公司 | Touch screen control method and device |
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Effective date of registration: 20180224 Address after: 201613 Shanghai city south of Songjiang Export Processing Zone Road No. 1925 Applicant after: Ambit Microsystems (Shanghai) Co., Ltd. Address before: 201613 Shanghai City, Songjiang District Songjiang Export Processing Zone South Road No. 1925 Applicant before: Ambit Microsystems (Shanghai) Co., Ltd. Applicant before: Hon Hai Precision Industry Co., Ltd. |
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