CN109992157A - A kind of intelligent door lock touch keyboard sensitivity regulation method and device - Google Patents
A kind of intelligent door lock touch keyboard sensitivity regulation method and device Download PDFInfo
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- CN109992157A CN109992157A CN201910236140.1A CN201910236140A CN109992157A CN 109992157 A CN109992157 A CN 109992157A CN 201910236140 A CN201910236140 A CN 201910236140A CN 109992157 A CN109992157 A CN 109992157A
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- dynamics
- sensitivity
- control operation
- touch control
- touch
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/0414—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means using force sensing means to determine a position
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/0416—Control or interface arrangements specially adapted for digitisers
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C9/00—Individual registration on entry or exit
- G07C9/00174—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
- G07C9/00944—Details of construction or manufacture
Abstract
The application provides a kind of intelligent door lock touch keyboard sensitivity regulation method and device, touch keyboard can be made when opening standby mode, if detecting the first touch control operation, identifies the dynamics of first touch control operation, judge whether the dynamics is greater than default minimum;If, the touch keyboard is then switched into working condition from standby mode, if being based on the first sensitivity technique to the second touch control operation, the second sensitivity is determined according to the dynamics of the dynamics of the first touch control operation and the second touch control operation, is replaced first sensitivity with second sensitivity and is carried out touch control operation identification;If it is not, then maintaining standby mode.The application can adjust touch keyboard sensitivity according to user's touch-control dynamics and touch-control accuracy can be improved, avoid false triggering so that touch keyboard sensitivity be made to can adapt to different touch-control dynamics, to effectively promote user's touch experience.
Description
Technical field
This application involves intelligent door lock technical field more particularly to a kind of intelligent door lock touch keyboard sensitivity regulation methods
And device.
Background technique
Under the following intelligent domestic Internet of Things trend, intelligent door lock will play the part of entrance role, be driven with registering one's residence to open the door for triggering
All kinds of Networking equipment in dynamic consumer family enter servo condition, meet the arrival of owner.Current intelligent door lock generallys use
A variety of unlocking modes such as touch keyboard, fingerprint, password, radio-frequency card and APP, wherein touch keyboard mode is almost all of intelligence
A kind of mode that door lock can all use, using extremely wide in the scenes such as house, hotel, office.
But intelligent door lock is by the way of touch keyboard when being unlocked, since the sensitivity of the touch keyboard of intelligent door lock is
The good fixed value of factory setting, when the touch-control dynamics difference of user, there is exception in the response that can frequently result in intelligent door lock.Example
Such as, adult's touch-control dynamics is usually larger, the touch-control dynamics of child is smaller or user hand in hold article or finger injuries
When, the dynamics of touch-control also can be smaller, when touch-control dynamics is larger, is easy to cause false triggering;When touch-control dynamics is smaller, behaviour will lead to
The problem of work can not identify, cause invalid touch-control.Therefore the sensitivity of existing touch keyboard is because that can not adapt to different touch-controls
Dynamics, it is the case where be easy to causeing false triggering or invalid touch-control, poor so as to cause the touch experience of user.
Summary of the invention
In view of this, the application provides a kind of intelligent door lock touch keyboard sensitivity regulation method and device, to realize touching
The problem of different touch-control dynamics can not be adapted to by touching the sensitivity of keyboard.
Specifically, the application is achieved by the following technical solution:
The application provides a kind of intelligent door lock touch keyboard sensitivity regulation method, which comprises
When opening standby mode, if detecting the first touch control operation, the dynamics of first touch control operation is identified, judge
Whether the dynamics is greater than default minimum;
If so, the touch keyboard is switched to working condition from standby mode, if being based on the first sensitivity technique
To the second touch control operation, the second sensitivity is determined according to the dynamics of the dynamics of the first touch control operation and the second touch control operation, uses institute
It states the second sensitivity and replaces the first sensitivity progress touch control operation identification, first sensitivity is history touch control operation power
Spend corresponding sensitivity level;
If it is not, then maintaining standby mode.
As one embodiment, determine that second is sensitive according to the dynamics of the dynamics of the first touch control operation and the second touch control operation
Degree, comprising:
Calculate the average value of the dynamics of first touch control operation and the dynamics of the second touch control operation;
It determines the default dynamics section where the average value, according to the corresponding relationship in dynamics section and sensitivity, obtains
The corresponding sensitivity in the dynamics section is as second sensitivity.
As one embodiment, touch control operation is carried out with second sensitivity replacement, first sensitivity and identifies it
Afterwards, the method also includes:
Judge whether the history touch control operation in preset time meets preset times;
If so, it is corresponding with sensitivity to adjust the dynamics section according to the dynamics of the history touch control operation of record
Relationship, the record of clear history touch control operation dynamics;
If it is not, then the dynamics of second touch control operation is recorded in history touch control operation dynamics.
As one embodiment, according to the dynamics of the history touch control operation of record adjust the dynamics section with it is sensitive
The corresponding relationship of degree, comprising:
The average value for calculating the dynamics of the history touch control operation obtains new by the average value multiplied by presupposition multiple
Dynamics range;
New dynamics is obtained to new dynamics section is divided according to preset classification quantity based on the new dynamics range
The corresponding relationship in section and sensitivity.
As one embodiment, the method also includes:
Judged and the intelligent door lock of cloud setting by the GPS positioning to the mobile terminal for having connected the intelligent door lock
Whether position approaches, or according to wireless signal strength detection determine whether that someone closes on, if so, by the touch keyboard from
Dormant state switches to standby mode, and the standby mode is that touch panel is not lighted, and touch panel is detected according to predetermined period
Touch control operation.
Based on identical design, the application also provides a kind of intelligent door lock touch keyboard sensitivity adjustment device, the dress
It sets and includes:
Recognition unit when for opening standby mode, if detecting the first touch control operation, identifies the first touch-control behaviour
The dynamics of work, judges whether the dynamics is greater than default minimum;
Switch unit switches the touch keyboard from standby mode if being greater than default minimum for the dynamics
To working condition, if the first sensitivity technique to the second touch control operation is based on, according to the dynamics of the first touch control operation and second
The dynamics of touch control operation determines the second sensitivity, replaces first sensitivity with second sensitivity and carries out touch control operation knowledge
Not, first sensitivity is the corresponding sensitivity level of history touch control operation dynamics;
Maintenance unit maintains standby mode if being not more than default minimum for the dynamics.
As one embodiment, the switch unit, specifically for calculating the dynamics and second of first touch control operation
The average value of the dynamics of touch control operation;The default dynamics section where the average value is determined, according to dynamics section and sensitivity
Corresponding relationship, obtain the corresponding sensitivity in the dynamics section as second sensitivity.
As one embodiment, described device further include:
Adjustment unit, after carrying out touch control operation identification with second sensitivity replacement, first sensitivity,
Judge whether the history touch control operation in preset time meets preset times;If so, being grasped according to the history touch-control of record
The dynamics of work adjusts the corresponding relationship in the dynamics section and sensitivity, the record of clear history touch control operation dynamics;If it is not, then
The dynamics of second touch control operation is recorded in history touch control operation dynamics.
As one embodiment, the adjustment unit, the dynamics specifically for calculating the history touch control operation is averaged
Value, by the average value multiplied by presupposition multiple, obtains new dynamics range;Based on the new dynamics range according to preset point
Number of stages obtains the corresponding relationship in new dynamics section and sensitivity to new dynamics section is divided.
As one embodiment, described device further include:
Detection unit, for judging to set with cloud by the GPS positioning to the mobile terminal for having connected the intelligent door lock
Whether the position of fixed intelligent door lock approaches, or determines whether that someone closes on according to wireless signal strength detection, if so, will
The touch keyboard switches to standby mode from dormant state, and the standby mode is that touch panel is not lighted, and touch panel is pressed
Touch control operation is detected according to predetermined period.
Based on identical design, the application provides a kind of computer readable storage medium, the computer-readable storage medium
Computer program is stored in matter, the computer program realizes that above-mentioned intelligent door lock touch keyboard is sensitive when being executed by processor
Spend the either step of method of adjustment.
Based on identical design, the application provides a kind of intelligent door lock, the intelligent door lock include memory, processor,
Communication interface and communication bus;Wherein, the memory, processor, communication interface are carried out mutual by the communication bus
Between communication;
The memory, for storing computer program;
The processor, for executing the computer program stored on the memory, described in the processor executes
The either step of above-mentioned intelligent door lock touch keyboard sensitivity regulation method is realized when computer program.
It can be seen that the application can make the touch keyboard of intelligent door lock when opening standby mode, if detecting first
Touch control operation then identifies the dynamics of first touch control operation, judges whether the dynamics is greater than default minimum;If so,
The touch keyboard is switched into working condition from standby mode, if corresponding first sensitive based on history touch control operation dynamics
Degree detects the second touch control operation, determines that second is sensitive according to the dynamics of the dynamics of the first touch control operation and the second touch control operation
Degree replaces first sensitivity with second sensitivity and carries out touch control operation identification;If it is not, then maintaining standby mode.Phase
Than in the prior art, the sensitivity of touch keyboard is fixed setting, and the application can be adjusted according to user's touch-control dynamics and be touched
Keyboard sensitivity is touched, so that touch keyboard sensitivity be made to can adapt to different touch-control dynamics, touch-control accuracy can be improved, keep away
Exempt from false triggering, to effectively promote user's touch experience.
Detailed description of the invention
Fig. 1 is at a kind of one of illustrative embodiments of the application intelligent door lock touch keyboard sensitivity regulation method
Manage flow chart;
Fig. 2 is another intelligent door lock touch keyboard sensitivity regulation method in a kind of illustrative embodiments of the application
Process flow diagram;
Fig. 3 is touch-control dynamics and sensitivity relation schematic diagram in a kind of illustrative embodiments of the application;
Fig. 4 is a kind of one of illustrative embodiments of the application intelligent door lock touch keyboard sensitivity regulation method
The building-block of logic of device;
The hardware structure diagram of intelligent door lock in a kind of illustrative embodiments of Fig. 5 the application.
Specific embodiment
Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to
When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment
Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they be only with it is such as appended
The example of the consistent device and method of some aspects be described in detail in claims, the application.
It is only to be not intended to be limiting the application merely for for the purpose of describing particular embodiments in term used in this application.
It is also intended in the application and the "an" of singular used in the attached claims, " described " and "the" including majority
Form, unless the context clearly indicates other meaning.It is also understood that term "and/or" used herein refers to and wraps
It may be combined containing one or more associated any or all of project listed.
It will be appreciated that though various information, but this may be described using term first, second, third, etc. in the application
A little information should not necessarily be limited by these terms.These terms are only used to for same type of information being distinguished from each other out.For example, not departing from
In the case where the application range, the first information can also be referred to as the second information, and similarly, the second information can also be referred to as
One information.Depending on context, word as used in this " if " can be construed to " ... when " or " when ...
When " or " in response to determination ".
Of the existing technology in order to solve the problems, such as, the application provides a kind of intelligent door lock touch keyboard sensitivity adjustment side
Method and device can make the touch keyboard of intelligent door lock when opening standby mode, if detecting the first touch control operation, identify
The dynamics of first touch control operation, judges whether the dynamics is greater than default minimum;If so, by the touch keyboard from
Standby mode switches to working condition, if based on corresponding first sensitivity technique of history touch control operation dynamics to the second touch-control
Operation, determines the second sensitivity according to the dynamics of the dynamics of the first touch control operation and the second touch control operation, sensitive with described second
Degree replaces first sensitivity and carries out touch control operation identification;If it is not, then maintaining standby mode.In compared with the prior art, touching
The sensitivity for touching keyboard is fixed setting, and the application can adjust touch keyboard sensitivity according to user's touch-control dynamics, thus
So that touch keyboard sensitivity is can adapt to different touch-control dynamics, touch-control accuracy can be improved, avoids because keyboard is excessively quick
Or excessively blunt initiation accidentally touch and maloperation, to improve the touch experience of touch keyboard.
Referring to FIG. 1, being a kind of one of illustrative embodiments of the application intelligent door lock touch keyboard sensitivity tune
The process flow diagram of adjusting method, which comprises
When step 101, unlatching standby mode, if detecting the first touch control operation, first touch control operation is identified
Dynamics, judges whether the dynamics is greater than default minimum;
In the present embodiment, the touch keyboard of intelligent door lock can be divided into three states, for example including, dormant state, to
Machine state and working condition, wherein dormant state refers to that the touch panel of touch keyboard at this time extinguishes, at this time touch keyboard not work
Make;If the touch keyboard of dormant state detect someone close to when, from dormant state can be switched to standby mode, the standby shape
State refers to that touch panel is not lighted, but the background program starting of touch panel, can detect touch control operation according to predetermined period.
As one embodiment, touch keyboard can whether someone be close with real-time detection, specific test format, such as
The geographical location of cloud setting intelligent door lock cooperates the GPS positioning for the mobile terminal (such as mobile phone) bound to detect intelligent door simultaneously
It locks at a distance between user mobile phone;Or the distance between people and door lock are detected by range sensor built in door lock;Or it is logical
Cross monitoring door lock at a distance from wireless (WIFI, bluetooth etc.) the signal strength judgement between the two between user mobile phone etc. modes sentence
It cuts off the hands machine and whether door lock approaches, determine whether that someone closes on, if so, the touch keyboard is switched from dormant state
To standby mode.Touch keyboard can enter dormant state if a period of time is without any operation, to save electricity.It is arranged more
A state can make touch panel save power consumption in dormant state and standby mode, can also prolong the service life.
In the present embodiment, when opening standby mode, if scanning touch panel detects the first touch control operation of user,
The dynamics for identifying first touch control operation, judges whether the dynamics is greater than default minimum, if so, determining the first touch-control
Operation is effectively to operate, if not, it is determined that the first touch control operation is false triggering.
If step 102, the dynamics are greater than default minimum, the touch keyboard is switched into work from standby mode
State is grasped if being based on the first sensitivity technique to the second touch control operation according to the dynamics of the first touch control operation and the second touch-control
The dynamics of work determines the second sensitivity, replaces first sensitivity with second sensitivity and carries out touch control operation identification;
In the present embodiment, if the dynamics is greater than default minimum, it is determined that the first touch control operation is effectively operation, because
The touch keyboard can be switched to working condition from standby mode by this, and the working condition refers to that touch panel is lighted, and
And touch control operation is scanned according to normal scan period.In working condition, touch-control response, institute can be carried out based on the first sensitivity
Stating the first sensitivity is the corresponding sensitivity level of history touch control operation dynamics.First sensitivity is history touch control operation power
Corresponding sensitivity level is spent, if currently without history touch control operation dynamics, such as current is to operate for the first time, or empty
It, can be using the sensitivity level of default setting as the first sensitivity when operation for the first time after history touch control operation dynamics;If
There are when history touch control operation dynamics, the sensitivity level that can be determined according to history touch control operation dynamics is sensitive as first
Degree.
As one embodiment, the corresponding relationship of touch-control dynamics section and sensitivity, such as 1 institute of table can be preset
Show:
Dynamics section (unit N) | Sensitivity level |
10-20 | Level-one sensitivity |
21-30 | Second level sensitivity |
31-40 | Three-level sensitivity |
41-50 | Level Four sensitivity |
Table 1
Wherein, sensitivity level is divided into level Four, and when dynamics section is [10,20] N, corresponding sensitivity level is level-one
Sensitivity, when dynamics section is [21,30] N, corresponding sensitivity level is second level sensitivity, and dynamics section is [31,40] N
When, corresponding sensitivity level is three-level sensitivity, and when dynamics section is [41,50] N, corresponding sensitivity level is level Four spirit
Sensitivity, sensitivity divide from high to low, and level-one sensitivity highest, level Four sensitivity is minimum, and dynamics minimum is 10N.By drawing
Divide multiple sensitivity levels, is adapted to different touch-control dynamics, thereby may be ensured that there is correspondence under different touch-control dynamics
Sensitivity carry out touch-control response.
In the present embodiment, if the first sensitivity technique to the second touch control operation is based on, according to the first touch control operation
Dynamics and the dynamics of the second touch control operation determine the second sensitivity, with second sensitivity replace first sensitivity into
The identification of row touch control operation.
It for example, can be first in the membrane keyboard of intelligent door lock when user is opened the door using the touch keyboard of intelligent door lock
It is inputted on disk the first touch control operation (such as dubbing touch keyboard), the dynamics described in the dynamics of the first touch control operation is minimum greater than presetting
When value, the touch keyboard is switched into working condition from standby mode, then user starts key, and touch keyboard starts to use
Preset first sensitivity identifies touch control operation, and using the operating force of user's first time button as the second touch control operation, root
The second sensitivity is determined according to the dynamics of the first touch control operation and the dynamics of the second touch control operation, is then replaced with second sensitivity
It changes first sensitivity and carries out subsequent touch control operation identification, it is assumed that the password of user has 6, then five keys are all after user
It is identified based on the second sensitivity, corresponding six key assignments of six keys that final touch keyboard inputs the user recognized
Compared with preset password, if comparison result is consistent, illustrate that the password of user's input is correct, to open intelligent door lock;
Otherwise, the password bad for illustrating user's input, does not open the door, and can prompt user password mistake, user is asked to re-enter.
Identify that the touch control operation of user will lead to false triggering or mistake using fixed sensitivity compared with the prior art
The case where operation, is more, when the application can open the door every time according to user before twice touch control operation dynamics determine adapt to spirit
Sensitivity avoids so as to improve touch-control accuracy because keyboard is excessively quick or excessively blunt initiation accidentally touches maloperation etc.
Problem.
As one embodiment, after obtaining the dynamics of dynamics and the second touch control operation of the first touch control operation, Ke Yiji
Calculate the average value of the dynamics of first touch control operation and the dynamics of the second touch control operation;It determines default where the average value
Dynamics section obtains the corresponding sensitivity level in the dynamics section according to the corresponding relationship in above-mentioned dynamics section and sensitivity
As second sensitivity.
For example, the dynamics of second of touch control operation is 24N if the dynamics of first time touch control operation is 18N, then touch for the first time
Control the average value of the dynamics of operation and the dynamics of second of touch control operation are as follows: (18+24)/2=21N then according to table 1 should
Average value 21N is located at the second dynamics section, then corresponds to second level sensitivity, therefore using second level sensitivity as the second sensitivity, uses
Second sensitivity carries out the identification and response of subsequent touch control operation instead of the first sensitivity.
It should be noted that since user is after waking up touch panel, when carrying out key-press input password, usual key several times
Dynamics will not differ too big, therefore the application can carry out sensitivity just for the keystroke dynamics for the first time after touch panel are waken up
Adjustment, i.e. the first touch control operation is if the operation for waking up touch panel, then the second touch control operation is then first after waking up touch panel
The operation of secondary key.Initial sensitivity is the first sensitivity, identification and sound for the first touch control operation and the second touch control operation
It answers, subsequent key again, can be identified and be responded according to the second sensitivity adjusted according to the second touch control operation, so as to
Ensure that sensitivity is constantly adjusted according to the change of user's touch-control dynamics, and then promote the accuracy of touch-control response, avoids accidentally touching
Hair.
As one embodiment, touch control operation is carried out with second sensitivity replacement, first sensitivity and identifies it
Afterwards, it can also further judge whether the history touch control operation in preset time meets preset times, history touch control operation refers to
In a period of time (a such as week) every time wake up touch panel first time touch control operation and for the first time key second of touch-control grasp
The record of work;If so, adjusting pair in the dynamics section and sensitivity according to the dynamics of the history touch control operation of record
It should be related to, the record of clear history touch control operation dynamics;Specifically, the flat of the dynamics of the history touch control operation can be calculated
Mean value obtains new dynamics range by the average value multiplied by presupposition multiple;Based on the new dynamics range according to preset
Quantity is classified to new dynamics section is divided, obtains the corresponding relationship in new dynamics section and sensitivity.
For example, the preset times of setting history touch control operation are 10 times, if current second of the touch control operation of user is added to
After in history touch control operation record, just to 10 times, then the dynamics of this available 10 history touch control operations is gone through described in calculating
The average value of the dynamics of history touch control operation obtains new dynamics range by the average value multiplied by presupposition multiple.Assuming that average value
For 30N, presupposition multiple is 2 times, and the new dynamics upper limit is 30 × 2=60N, and dynamics lower limit is 10 × 2=20N, then based on described
The new dynamics range dynamics section new to division according to preset classification quantity, according to corresponding relationship shown in table 1, dynamics area
Between be divided into level Four, lower limit 10N, upper limit 50N, new dynamics range lower limit is 20N, upper limit 60N, then drawing according to table 1
Point method obtains the corresponding relationship in new dynamics section and sensitivity, as shown in table 2:
Dynamics section (unit N) | Sensitivity level |
20-30 | Level-one sensitivity |
31-40 | Second level sensitivity |
41-50 | Three-level sensitivity |
51-60 | Level Four sensitivity |
Table 2
Wherein, sensitivity level is divided into level Four, and when dynamics section is [20,30] N, corresponding sensitivity level is level-one
Sensitivity, when dynamics section is [31,40] N, corresponding sensitivity level is second level sensitivity, and dynamics section is [41,50] N
When, corresponding sensitivity level is three-level sensitivity, and when dynamics section is [51,60] N, corresponding sensitivity level is level Four spirit
Sensitivity, dynamics minimum are 20N.It can be seen that if will lead to its new dynamics section when the history touch-control dynamics of user is larger
It is improved with the range in dynamics section in the corresponding relationship of sensitivity, to allow the division of sensitivity according to user's actual key
The size of dynamics is adjusted, and so as to further adapt to the dynamics of user key-press, promotes the response experience of key.
After the corresponding relationship for adjusting dynamics section and sensitivity according to history touch-control dynamics, it is sensitive that specified level-one can be continued
Degree carries out the identification of subsequent first time touch control operation as the first sensitivity.Then clear history touch control operation records.
If history touch control operation number is less than preset times, the dynamics of second touch control operation can be recorded
In history touch control operation dynamics.
If step 103, the dynamics are not more than default minimum, standby mode is maintained.
In the present embodiment, if the dynamics is not more than default minimum, illustrate current first time touch control operation to miss
Triggering, therefore do not respond, maintain standby mode.
In compared with the prior art, the sensitivity of touch keyboard is fixed setting, and the application can be according to user's touch-control
Dynamics adjusts touch keyboard sensitivity, so that touch keyboard sensitivity be made to can adapt to different touch-control dynamics, and can lead to
The dynamics of overwriting history touch control operation adjusts the range in dynamics section, can further adapt to the habit of the touch-control dynamics of user
It is used, so as to improve touch-control accuracy, false triggering is avoided, to effectively promote user's touch experience.
For the objects, technical solutions and advantages of the application are more clearly understood, below with reference to Fig. 2 and Fig. 3 to the application
Scheme be described in further detail.
Referring to FIG. 2, being another intelligent door lock touch keyboard sensitivity in a kind of illustrative embodiments of the application
Method of adjustment process flow diagram, specific method of adjustment are as follows:
Step 201, touch panel detect whether that someone is close in dormant state;If so, going to step 202;If it is not,
Then maintain dormant state;
The dormant state of touch panel is switched to standby mode by step 202, goes to step 203;
Step 203, detection first time touch control operation, judge the dynamics of first time touch control operation whether be greater than preset it is minimum
Value, if so, going to step 204;If it is not, then maintaining standby mode;
The standby mode switching of touch panel is in working condition by step 204, records the dynamics of first time touch control operation,
Go to step 205;
Step 205 identifies using the first sensitivity and responds second of touch control operation, calculates the power of second of touch control operation
The average value of degree and the dynamics of first time touch control operation, determines the second sensitivity according to the average value, records described second
The dynamics of touch control operation, goes to step 206;
Step 206 judges whether the number of history touch control operation is greater than preset times, if so, going to step 207;If it is not,
Then go to step 208;
Step 207 adjusts to obtain pair in new dynamics section and sensitivity according to the average value of history touch control operation dynamics
It should be related to, clear history touch control operation record, and terminate;
Above-mentioned second of touch control operation is added in history touch control operation record, and terminates by step 208.
For example, the above-mentioned average value according to history touch control operation dynamics adjusts to obtain new dynamics section and sensitivity
Corresponding relationship detailed process, as shown in the user key-press dynamics of Fig. 3 and the relation schematic diagram of sensitivity, when touch keyboard enter
When standby mode, keystroke dynamics 28N is recorded as if if user, keystroke dynamics are 28N (greater than the minimum 10N in table 1) for the first time
S0, into after working condition, user can be depressed multiple times touch keyboard and carry out a wheel operation operation such as Password Input, system setting,
Here by epicycle operate in keystroke dynamics several times be denoted as S1, such as 24N;The average value of S0 and S1Obtaining corresponding sensitivity level according to table 1 is second level sensitivity, by this
The sensitivity that sensitivity is operated as epicycle.This button operation S0 and S1 are added in historical operation record, it is assumed that go through
The preset times of history operation note are 10 times, then are currently unsatisfactory for preset times, wait next round button operation.
Such as in Fig. 3, the dynamics of the second wheel key S2 and S3 is respectively 19N and 21N, then corresponding average value isSo the corresponding sensitivity level of epicycle is level-one sensitivity, by this button operation S2
It is added in historical operation record with S3;The dynamics of third round key S4 and S5 are respectively 29N and 33N, then corresponding average value
ForSo the corresponding sensitivity level of epicycle is three-level sensitivity, by this button operation
S4 and S5 are added in historical operation record;The dynamics of fourth round key S6 and S7 are respectively 49N and 33N, then corresponding average
Value isSo the corresponding sensitivity level of epicycle is level Four sensitivity, this key is grasped
Make S6 and S7 is added in historical operation record;Assuming that wherein have keystroke dynamics be less than minimum, such as S8 dynamics be 2N when, then
Standby mode is kept, sensitivity is constant, and S8 is not added in historical record, if the dynamics point of the 5th wheel key S9 and S10
Not Wei 46N and 58N, then corresponding average value beThe upper limit of dynamics range as shown in table 1
For 50N, therefore the corresponding sensitivity level of epicycle is level Four sensitivity, this button operation S9 and S10 are added to history
In operation note.So far, the number of historical operation record reaches preset times 10 times, then calculates the average value of 10 operations:
The new dynamics section upper limit is 33.6N, is rounded as 34N, then the new dynamics section upper limit is 34 multiplied by presupposition multiple,
If 2 times, then the new dynamics upper limit is 34 × 2=68;Dynamics lower limit is 10 × 2=20, then the range in new dynamics section is
(20,68), then new dynamics section is bisected into four subintervals, the corresponding sensitivity level in each subinterval, according to new
The each dynamics of dynamics range visual user it is larger, therefore can be in the range in dynamics section by the way that sensitivity level will be corresponded to
Adjust, so that alloing the sensitivity of touch keyboard suitably reduces, user it is subsequent using same dynamics touch-control when, can be to avoid
Excessively sensitive caused false triggering problem.
In compared with the prior art, the sensitivity of touch keyboard is fixed setting, and the application can be according to user's touch-control
Dynamics adjusts touch keyboard sensitivity and touching can be improved so that touch keyboard sensitivity be made to can adapt to different touch-control dynamics
Accuracy is controlled, false triggering is avoided, to effectively promote user's touch experience.
Based on identical design, the application also provides a kind of intelligent door lock touch keyboard sensitivity adjustment device, the device
It can also be realized by way of hardware or software and hardware combining by software realization.Taking software implementation as an example, the application
Intelligent door lock touch keyboard sensitivity adjustment device as the device on a logical meaning, be by device where it
CPU is run after reading computer program instructions corresponding in memory.
Referring to FIG. 4, being a kind of one of illustrative embodiments of the application intelligent door lock touch keyboard sensitivity tune
Engagement positions 400, the basic running environment of the device includes CPU, memory and other hardware, from logic level, the dress
Set 400 logical construction as shown in figure 4, including:
Recognition unit 401 when for opening standby mode, if detecting the first touch control operation, identifies first touching
The dynamics for controlling operation, judges whether the dynamics is greater than default minimum;
Switch unit 402 cuts the touch keyboard from standby mode if being greater than default minimum for the dynamics
Working condition is shifted to, if being based on the first sensitivity technique to the second touch control operation, according to the dynamics of the first touch control operation and the
The dynamics of two touch control operations determines the second sensitivity, replaces first sensitivity with second sensitivity and carries out touch control operation
Identification, first sensitivity are the corresponding sensitivity level of history touch control operation dynamics;
Maintenance unit 403 maintains standby mode if being not more than default minimum for the dynamics.
As one embodiment, the switch unit 402, specifically for calculating the dynamics and the of first touch control operation
The average value of the dynamics of two touch control operations;Determine the default dynamics section where the average value, according to dynamics section with it is sensitive
The corresponding relationship of degree obtains the corresponding sensitivity in the dynamics section as second sensitivity.
As one embodiment, described device further include:
Adjustment unit 404 identifies it for carrying out touch control operation with second sensitivity replacement, first sensitivity
Afterwards, judge whether the history touch control operation in preset time meets preset times;If so, according to the history touch-control of record
The dynamics of operation adjusts the corresponding relationship in the dynamics section and sensitivity, the record of clear history touch control operation dynamics;If it is not,
Then the dynamics of second touch control operation is recorded in history touch control operation dynamics.
As one embodiment, the adjustment unit 404, specifically for calculate the history touch control operation dynamics it is flat
Mean value obtains new dynamics range by the average value multiplied by presupposition multiple;Based on the new dynamics range according to preset
Quantity is classified to new dynamics section is divided, obtains the corresponding relationship in new dynamics section and sensitivity.
As one embodiment, described device further include:
Detection unit 405, for passing through the judgement of GPS positioning to the mobile terminal for having connected the intelligent door lock and cloud
Whether the position of the intelligent door lock of setting approaches, or determines whether that someone closes on according to wireless signal strength detection, if so,
The touch keyboard is switched into standby mode from dormant state, the standby mode is that touch panel is not lighted, touch panel
Touch control operation is detected according to predetermined period.
The function of each unit and the realization process of effect are specifically detailed in the above method and correspond to step in above-mentioned apparatus
Realization process, details are not described herein.
For device embodiment, since it corresponds essentially to embodiment of the method, so related place is referring to method reality
Apply the part explanation of example.The apparatus embodiments described above are merely exemplary, wherein described be used as separation unit
The unit of explanation may or may not be physically separated, and component shown as a unit can be or can also be with
It is not physical unit, it can it is in one place, or may be distributed over multiple network units.It can be according to actual
The purpose for needing to select some or all of the modules therein to realize application scheme.Those of ordinary skill in the art are not paying
Out in the case where creative work, it can understand and implement.
Based on identical design, the application also provides a kind of intelligent door lock, as shown in figure 5, the intelligent door lock includes depositing
Reservoir 51, processor 52, communication interface 53 and communication bus 54;Wherein, the memory 51, processor 52, communication interface
53 carry out mutual communication by the communication bus 54;
The memory 51, for storing computer program;
The processor 52, for executing the computer program stored on the memory 51, the processor 52 is held
Any of intelligent door lock touch keyboard sensitivity regulation method provided by the embodiments of the present application is realized when the row computer program
Step.
The application also provides a kind of computer readable storage medium, which is characterized in that the computer readable storage medium
It is inside stored with computer program, the computer program realizes intelligent door lock provided by the embodiments of the present application when being executed by processor
The either step of touch keyboard sensitivity regulation method.
Each embodiment in this specification is all made of relevant mode and describes, same and similar portion between each embodiment
Dividing may refer to each other, and each embodiment focuses on the differences from other embodiments.It is set especially for network
For standby and computer readable storage medium embodiment, since it is substantially similar to the method embodiment, so the comparison of description
Simply, the relevent part can refer to the partial explaination of embodiments of method.
In conclusion the application can make the touch keyboard of intelligent door lock when opening standby mode, if detecting first
Touch control operation then identifies the dynamics of first touch control operation, judges whether the dynamics is greater than default minimum;If so,
The touch keyboard is switched into working condition from standby mode, if corresponding first sensitive based on history touch control operation dynamics
Degree detects the second touch control operation, determines that second is sensitive according to the dynamics of the dynamics of the first touch control operation and the second touch control operation
Degree replaces first sensitivity with second sensitivity and carries out touch control operation identification;If it is not, then maintaining standby mode.Phase
Than in the prior art, the sensitivity of touch keyboard is fixed setting, and the application can be adjusted according to user's touch-control dynamics and be touched
Keyboard sensitivity is touched, so that touch keyboard sensitivity be made to can adapt to different touch-control dynamics, touch-control accuracy can be improved, keep away
Exempt from false triggering, to effectively promote user's touch experience.
The foregoing is merely the preferred embodiments of the application, not to limit the application, all essences in the application
Within mind and principle, any modification, equivalent substitution, improvement and etc. done be should be included within the scope of the application protection.
Claims (10)
1. a kind of intelligent door lock touch keyboard sensitivity regulation method, which is characterized in that the described method includes:
When opening standby mode, if detecting the first touch control operation, the dynamics of first touch control operation is identified, described in judgement
Whether dynamics is greater than default minimum;
If so, the touch keyboard is switched to working condition from standby mode, if based on the first sensitivity technique to the
Two touch control operations determine the second sensitivity according to the dynamics of the dynamics of the first touch control operation and the second touch control operation, with described
Two sensitivity replace first sensitivity and carry out touch control operation identification, wherein first sensitivity is history touch control operation power
Spend corresponding sensitivity level;
If it is not, then maintaining standby mode.
2. the method according to claim 1, wherein according to the dynamics of the first touch control operation and the second touch control operation
Dynamics determine the second sensitivity, comprising:
Calculate the average value of the dynamics of first touch control operation and the dynamics of the second touch control operation;
The default dynamics section where the average value is determined, according to the corresponding relationship in dynamics section and sensitivity, described in acquisition
The corresponding sensitivity in dynamics section is as second sensitivity.
3. according to the method described in claim 2, it is characterized in that, with second sensitivity replace first sensitivity into
After the identification of row touch control operation, the method also includes:
Judge whether the history touch control operation in preset time meets preset times;
If so, being adjusted according to the dynamics of the history touch control operation of record, the dynamics section is corresponding with sensitivity to be closed
System, the record of clear history touch control operation dynamics;
If it is not, then the dynamics of second touch control operation is recorded in history touch control operation dynamics.
4. according to the method described in claim 3, it is characterized in that, being adjusted according to the dynamics of the history touch control operation of record
The corresponding relationship in the dynamics section and sensitivity, comprising:
The average value for calculating the dynamics of the history touch control operation obtains new dynamics by the average value multiplied by presupposition multiple
Range;
New dynamics section is obtained to new dynamics section is divided according to preset classification quantity based on the new dynamics range
With the corresponding relationship of sensitivity.
5. the method according to claim 1, wherein the method also includes:
Pass through the position for the intelligent door lock that the GPS positioning judgement to the mobile terminal for having connected the intelligent door lock is set with cloud
Whether approach, or determine whether that someone closes on according to wireless signal strength detection, if so, by the touch keyboard from suspend mode
State switches to standby mode, and the standby mode is that touch panel is not lighted, and touch panel detects touch-control according to predetermined period
Operation.
6. a kind of intelligent door lock touch keyboard sensitivity adjustment device, which is characterized in that described device includes:
Recognition unit when for opening standby mode, if detecting the first touch control operation, identifies first touch control operation
Dynamics, judges whether the dynamics is greater than default minimum;
The touch keyboard is switched to work from standby mode if being greater than default minimum for the dynamics by switch unit
Make state, if the first sensitivity technique to the second touch control operation is based on, according to the dynamics of the first touch control operation and the second touch-control
The dynamics of operation determines the second sensitivity, replaces first sensitivity with second sensitivity and carries out touch control operation identification,
First sensitivity is the corresponding sensitivity level of history touch control operation dynamics;
Maintenance unit maintains standby mode if being not more than default minimum for the dynamics.
7. device according to claim 6, which is characterized in that
The switch unit, the dynamics of dynamics and the second touch control operation specifically for calculating first touch control operation are averaged
Value;Default dynamics section where determining the average value obtains the power according to the corresponding relationship in dynamics section and sensitivity
The corresponding sensitivity in section is spent as second sensitivity.
8. device according to claim 7, which is characterized in that described device further include:
Adjustment unit, after carrying out touch control operation identification with second sensitivity replacement, first sensitivity, judgement
Whether the history touch control operation in preset time meets preset times;If so, according to the history touch control operation of record
Dynamics adjusts the corresponding relationship in the dynamics section and sensitivity, the record of clear history touch control operation dynamics;If it is not, then by institute
The dynamics for stating the second touch control operation is recorded in history touch control operation dynamics.
9. device according to claim 8, which is characterized in that
The adjustment unit, the average value of the dynamics specifically for calculating the history touch control operation, by the average value multiplied by
Presupposition multiple obtains new dynamics range;Based on the new dynamics range power new to division according to preset classification quantity
Section is spent, the corresponding relationship in new dynamics section and sensitivity is obtained.
10. device according to claim 6, which is characterized in that described device further include:
Detection unit, for passing through the GPS positioning judgement and cloud setting to the mobile terminal for having connected the intelligent door lock
Whether the position of intelligent door lock approaches, or determines whether that someone closes on according to wireless signal strength detection, if so, will be described
Touch keyboard switches to standby mode from dormant state, and the standby mode is that touch panel is not lighted, and touch panel is according to pre-
If cycle detection touch control operation.
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Address after: 266061 Songling Road, Laoshan District, Qingdao, Shandong Province, No. 399 Patentee after: Qingdao Hisense Smart Life Technology Co.,Ltd. Address before: 266061 Songling Road, Laoshan District, Qingdao, Shandong Province, No. 399 Patentee before: QINGDAO HISENSE SMART HOME SYSTEMS Co.,Ltd. |