Summary of the invention
The technical problem to be solved in the present invention provides a kind of control method of touch-screen and device, mobile terminal device, so that the user can in time confirm the operation of oneself, improves user's experience, avoids maloperation.
For solving the problems of the technologies described above, the invention provides a kind of control method of touch-screen, comprising:
Detect the user to the action input of touch-screen;
Described action input is identified as Action Events;
Also comprise:
Based on described Action Events, drive described touch-screen and show the vision display effect corresponding with described Action Events.
Alternatively, described vision display effect is the water level fluctuation effect.
Alternatively, described Action Events comprises: press, upspring, click, double-click or slide.
Alternatively, has different fluctuation parameters from the corresponding water level fluctuation effect of each Action Events.
Alternatively, the fluctuation parameters of described water level fluctuation effect comprises: wavelength, amplitude, vibration frequency, fluctuation range of scatter and one or more in the fluctuation duration.
Alternatively, described fluctuation parameters is that the user is adjustable.
Alternatively, the control method of described touch-screen also comprises: based on described Action Events, the functional processing module that driving is associated with described touch-screen is processed described Action Events and/or is responded.
The present invention also provides a kind of control device of touch-screen, comprising:
Detection module is suitable for detecting the user to the action input of touch-screen;
Identification module is suitable for described action input is identified as Action Events;
Also comprise:
The visual effect driver module is suitable for based on described Action Events, drives described touch-screen and shows the vision display effect corresponding with described Action Events.
Alternatively, described vision display effect is the water level fluctuation effect.
Alternatively, described Action Events comprises and presses, upsprings, clicks, double-clicks or slide.
Alternatively, has different fluctuation parameters from the corresponding water level fluctuation effect of each Action Events.
Alternatively, the fluctuation parameters of described water level fluctuation effect comprises: wavelength, amplitude, vibration frequency, fluctuation range of scatter and one or more in the fluctuation duration.
Alternatively, described visual effect driver module comprises the adjusting submodule, is suitable for receiving the user to the modification of described fluctuation parameters.
Alternatively, the control device of described touch-screen also comprises: with the functional processing module that described touch-screen is associated, be suitable for receiving described Action Events and it is processed and/or responds.
The present invention also provides a kind of mobile terminal device, comprises the control device of touch-screen and above-mentioned each described touch-screen.
Alternatively, described mobile terminal device is mobile unit.
Alternatively, described mobile terminal device also comprises the functional processing module that is associated with described touch-screen, is suitable for receiving described Action Events and it is processed and/or responds.
Compared with prior art, the present invention has the following advantages:
In the control method of the touch-screen in the embodiment of the invention and the device, after the action input with the user is identified as Action Events, drive touch-screen based on this Action Events and show the vision display effect corresponding with this Action Events, thereby so that the user can be in time, confirm intuitively oneself operation by vision, strengthened human-computer interaction, be conducive to avoid maloperation, improve user's experience.
Further, the vision display effect of the embodiment of the invention adopts the water level fluctuation effect, and the fluctuation parameters such as the wavelength of water level fluctuation effect, amplitude, vibration frequency, fluctuation range of scatter and fluctuation duration are that the user is adjustable, so that the user can arrange according to the hobby of oneself, be conducive to the user and confirm in time the operation of oneself.
Embodiment
The touch-screen of prior art only is that the action that detects the user is inputted and processed and responds, and the operation that can't identify to user feedback in real time may cause user's maloperation.
The present embodiment is after the action input with the user is identified as Action Events, drive touch-screen based on this Action Events and show the vision display effect corresponding with this Action Events, the Action Events of namely having identified to user feedback in real time, thereby so that the user can be in time, confirm intuitively oneself operation by vision, strengthened human-computer interaction, be conducive to avoid maloperation, improve user's experience.
Further, the vision display effect of the present embodiment adopts the water level fluctuation effect, and the fluctuation parameters such as the wavelength of water level fluctuation effect, amplitude, vibration frequency, fluctuation range of scatter and fluctuation duration are that the user is adjustable, so that the user can arrange according to the hobby of oneself, be conducive to the user and confirm in time the operation of oneself.
The invention will be further described below in conjunction with specific embodiments and the drawings, but should not limit protection scope of the present invention with this.
Fig. 1 shows the schematic flow sheet of control method of the touch-screen of the present embodiment, comprising:
Step S11 detects user's action input;
Step S12 is identified as Action Events with described action input;
Step S13 based on described Action Events, drives described touch-screen and shows the vision display effect corresponding with described Action Events.
In step S11 and S12, detect user's action input by the change that well known to a person skilled in the art the electric signal such as electric capacity, resistance, and should move to input and be identified as Action Events, as press, upspring, click, double-click or slip etc.
In step S13, based on the Action Events of identifying, drive touch-screen and show corresponding vision display effect, so that the Action Events that the user can real-time confirmation have identified.The display effect of vision described in the present embodiment is specially the water level fluctuation effect, can pass through the surface level simulation algorithm, be about to whole touch-screen and be modeled as the water surface, be operation to the water surface with the user to the operation simulation of touch-screen, and the demonstration of corresponding vision display effect by touch-screen fed back to the user.In specific embodiment, when the user was shielded with the finger point touching, this operation was identified as " clicking " Action Events, and was touching screen display water surface ripple in real time, and the finger that is similar to the user has been clicked a surface level.By the demonstration of vision display effect, the user can confirm in real time that the operation of oneself is identified, thereby has strengthened human-computer interaction, has avoided maloperation.
According to the difference of the Action Events of identifying, corresponding water level fluctuation effect has different fluctuation parameters, such as wavelength, amplitude, vibration frequency, fluctuation range of scatter and one or more in the fluctuation duration.For example, the frequency of the water level fluctuation effect of " double-click " Action Events is higher, and the frequency of the water level fluctuation effect of " clicking " Action Events is lower.
As a preferred embodiment, the fluctuation parameters of described water level fluctuation effect is that the user is adjustable, and the user can regulate each parameter according to the hobby of oneself.
When driving the corresponding vision display effect of touch-screen demonstration, based on the Action Events of identifying, the functional processing module that driving is associated with described touch-screen is processed this Action Events and/or is responded.In one embodiment, when the icon of user click picture, on the one hand, drive touch-screen and show water level fluctuation effect centered by this icon; On the other hand, read picture file corresponding to this icon with the functional processing module (such as processor etc.) that this touch-screen is associated, and it is shown as current desktop background.If this picture file is larger, then it reads and time of showing can be relatively long, but because the user has seen the vision display effect that is specially the water level fluctuation effect of real-time demonstration, therefore can bear with, and the operation that can not take for oneself has problem and remove repeatedly to click the icon of picture, has avoided functional processing module repeatedly to read resource and waste of time that picture file causes.
Fig. 2 shows the structured flowchart of control device 21 of the touch-screen 20 of the present embodiment, and as shown in Figure 2, control device 21 comprises: detection module 211 is suitable for detecting the user to the action input of touch-screen 20; Identification module 212 is suitable for described action input is identified as Action Events; Visual effect driver module 213 is suitable for based on described Action Events, drives described touch-screen 20 and shows the vision display effect corresponding with described Action Events.
Described detection module 211 and identification module 212 can adopt and well known to a person skilled in the art, come by the change of the electric signal such as electric capacity, resistance the module of detection and Identification user action input.Identification module 212 will move input and be identified as Action Events, as press, upsprings, clicks, double-clicks or slip etc.
Described visual effect driver module 213 is based on the Action Events of identifying, and drives touch-screen 20 and shows the vision display effect corresponding with this Action Events, so that the Action Events that the user can real-time confirmation have identified.The display effect of vision described in the present embodiment is specially the water level fluctuation effect, and content sees also the description of the control method embodiment of aforementioned touch-screen more specifically.
According to the difference of the Action Events of identifying, corresponding water level fluctuation effect has different fluctuation parameters, such as wavelength, amplitude, vibration frequency, fluctuation range of scatter and one or more in the fluctuation duration.Fig. 3 shows the mapping relations of Action Events different in the present embodiment and corresponding fluctuation parameters, and for example, the wavelength of " clicking " is 4, and amplitude is 2, and vibration frequency is 2, and the fluctuation range of scatter is 2, and the fluctuation duration is 2; And the wavelength of " double-click " is 2, and amplitude is 4, and vibration frequency is 4, and the fluctuation range of scatter is 4, and the fluctuation duration is 4.Concrete, visual effect driver module 213 can be retrieved according to the Action Events of identifying the fluctuation parameters of corresponding vision display effect, and by the surface level simulation algorithm fluctuation parameters that retrieves is carried out analogue simulation, and analog result is exported.
Thus, the user can confirm whether the Action Events of having identified meets the original idea of oneself according to concrete water level fluctuation effect shown on the touch-screen 20, thereby has strengthened human-computer interaction, has improved user's experience.
Fig. 4 shows the appearance effect figure of vision display effect corresponding to " slip " Action Events, in conjunction with Fig. 2 and Fig. 4, when the user uses finger or felt pen to click touch-screen 20, it is " slip " that detection module 211 and identification module 212 are inputted detection and Identification with the user to the action of touch-screen 20, then visual effect driver module 213 drives the water level fluctuation effect centered by the point that touch-screens 20 show to click, and vibration frequency is less.
Fig. 5 shows the appearance effect figure of vision display effect corresponding to " double-click " Action Events, in conjunction with Fig. 2 and Fig. 5, when the user double-clicks touch-screen 20 with finger or felt pen, it is " double-click " that detection module 211 and identification module 212 are inputted detection and Identification with the user to the action of touch-screen 20, then visual effect driver module 213 drives the water level fluctuation effect centered by the point that touch-screens 20 show to double-click, and vibration frequency is larger.
Fig. 6 shows the appearance effect figure of vision display effect corresponding to " slip " Action Events, in conjunction with Fig. 2 and Fig. 6, when the user with the finger or felt pen when touch-screen 20 drags, it is " slip " that detection module 211 and identification module 212 are inputted detection and Identification with the user to the action of touch-screen 20, and then visual effect driver module 213 drives touch-screens 20 demonstrations drag track along the user ripples cut.
As a preferred embodiment, described visual effect driver module 213 also comprises regulates the submodule (not shown), be suitable for receiving the user to the modification of described fluctuation parameters, such as the frequency of vision display effect corresponding to " clicking ", amplitude etc. are regulated.Concrete, described adjusting submodule can comprise rotary switch, the rotary switch of 1-10 shelves for example, and the user can be rotated to revise corresponding fluctuation parameters to rotary switch.
In addition, the control device of the touch-screen 20 of the present embodiment also comprises the functional processing module 214 that is associated with described touch-screen, is suitable for receiving Action Events that described identification module 212 produces and it is processed and/or responds.In one embodiment, when the icon of certain picture on the user click touch-screen 20, on the one hand, visual effect driver module 213 drives touch-screens and shows water level fluctuation effect centered by this icon; On the other hand, functional processing module 214 reads picture file corresponding to this icon, and it is shown as current desktop background.Similar with previous embodiment, if this picture file is larger, then it reads and time of showing can be relatively long, but because the user has seen the vision display effect that is specially the water level fluctuation effect of real-time demonstration, therefore can bear with, and the operation that can not take for oneself has problem and remove repeatedly to click the icon of picture, has avoided functional processing module repeatedly to read resource and waste of time that picture file causes.
In specific embodiment, the control device of the touch-screen of the present embodiment can be realized based on the embedded system of software, hardware or software and hardware combining.
The present embodiment also provides a kind of mobile terminal device, comprise touch-screen 20 and control device 21 thereof among Fig. 2 and in the associated description, described control device 21 comprises detection module 211, identification module 212, visual effect driver module 213 and functional processing module 214.Described mobile terminal device is mobile unit in the present embodiment, in other embodiments other mobile terminal devices such as all right mobile phone, panel computer.
In addition, in other embodiments, described vision display effect can also be other display effects that are used for the Action Events identified to user feedback, such as the difference according to the user action input, shows hot spots of different sizes etc.
Need to prove, " functional processing module that is associated with touch-screen " mentioned herein refers to this functional processing module and touch-screen is used in conjunction with, and by the connected mode such as wired, wireless direct or indirect be connected to touch-screen, for example, in a mobile terminal device, the processor that is used in conjunction with touch-screen, audio/video encoding/decoding module etc." the vision display effect corresponding with described Action Events " mentioned herein refers between this vision display effect and the Action Events has mapping relations, for example mapping relations one to one.
Although the present invention with preferred embodiment openly as above; but it is not to limit the present invention; any those skilled in the art without departing from the spirit and scope of the present invention; can make possible change and modification, so protection scope of the present invention should be as the criterion with the scope that claim of the present invention was defined.