CN104915125B - Control method, control system and the mobile device of mobile device - Google Patents
Control method, control system and the mobile device of mobile device Download PDFInfo
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Abstract
The present invention provides a kind of control method of mobile device, control system and mobile device, including:Triggering command is obtained, and triggers the trigger point of vibration module according to the triggering command;The vibrational waveform in vibration packet is read according to the trigger point being triggered, the vibrational waveform includes:In the combination of one or more of Oscillation Amplitude, vibration frequency or vibration time laterally and longitudinally within the unit interval;Built-in motor is transferred according to the vibrational waveform so that the built-in motor is vibrated according to the vibrational waveform.The present invention enriches the form of the vibration of mobile device and the triggering scene of vibration by reading a variety of vibrational waveforms in vibration packet to call built-in motor to be vibrated according to the vibrational waveform of shake-up.
Description
Technical field
The invention belongs to a kind of field of human-computer interaction more particularly to control method of mobile device, control system and movements
Equipment.
Background technology
Vibrational feedback is a kind of very common man-machine interaction mode in mobile device.Common vibrational feedback is for example, come
Electric prompting, quarter-bell, software upgrading or information push of instant message applications etc..This vibrational feedback is mobile terminal operation system
What system or third party application were realized by calling the vibrating motor of mobile terminal itself.
Although vibrational feedback, using very extensively, also has some limitations, for classification in mobile terminal interaction:
1, it is system vibration with regard to the vibration that in terms of form, existing mobile terminal is supported, the intensity of system vibration is generally come
3 ranks can be divided by saying, i.e., it is high, neutralize it is low;
2, with regard in terms of scene, vibration is generally applied to call reminding, keyboard sense of touch and the third of mobile terminal system
The scenes such as the prompting message of square application program and push.
In the research and practice process to the prior art, it was found by the inventors of the present invention that the shape of existing vibration arrangement
Formula and scene are more single, and not only application more limits, but also flexibility is relatively low.
Invention content
In view of this, the purpose of the present invention is to provide a kind of control method of mobile device, control system and movements to set
It is standby, form in the prior art can be solved and scene is single, flexibility is relatively low technical problem.
In order to solve the above technical problems, an embodiment of the present invention provides a kind of control methods of mobile device, including:
Triggering command is obtained, and triggers the trigger point of vibration module according to the triggering command;
The vibrational waveform in vibration packet is read according to the trigger point being triggered, the vibrational waveform includes:In the unit interval
The combination of one or more of inherent Oscillation Amplitude, vibration frequency or vibration time laterally and longitudinally;And
Built-in motor is transferred according to the vibrational waveform so that the built-in motor is shaken according to the vibrational waveform
It is dynamic.
In order to solve the above technical problems, the embodiment of the present invention provides a kind of control system of mobile device again, including:
Vibration module, for obtaining triggering command, and according to the trigger point of triggering command triggering vibration module;
Read module, for reading the vibrational waveform in vibration packet, the vibrational waveform packet according to the trigger point being triggered
It includes:In the group of one or more of Oscillation Amplitude, vibration frequency or vibration time laterally and longitudinally within the unit interval
It closes;And
Calling module, for transferring built-in motor according to the vibrational waveform so that the built-in motor is shaken according to described
Dynamic waveform is vibrated.
In order to solve the above technical problems, the embodiment of the present invention additionally provides a kind of mobile device, including:Above-mentioned movement is set
Standby control system.
Compared with the existing technology, the control method of mobile device of the invention, control system and mobile device pass through reading
A variety of vibrational waveforms in vibration packet, and built-in motor is called to be vibrated with the vibrational waveform according to the shake-up, it enriches
The form of the vibration of mobile device and the triggering scene of vibration improve the flexibility of its realization.
Description of the drawings
Fig. 1 is the application ring of the control method of mobile device provided in an embodiment of the present invention, control system and mobile device
Border schematic diagram;
Fig. 2 is the flow diagram of the control method for the mobile device that the embodiment of the present invention one provides;
Fig. 3 is the refinement flow diagram of the control method of mobile device provided by Embodiment 2 of the present invention;
Fig. 4 is the idiographic flow schematic diagram of the control method for the mobile device that the embodiment of the present invention three provides;
Fig. 5 is the exemplary plot of dynamic expression in the embodiment of the present invention three;
Fig. 6 is the module diagram of the control system for the mobile device that the embodiment of the present invention four provides;
Fig. 7 is the module diagram for the mobile device that the embodiment of the present invention five provides.
Specific implementation mode
Please refer to the schema in attached drawing, wherein identical component symbol represents identical component, the principle of the present invention be with
Implement to illustrate in a computing environment appropriate.The following description is the specific implementation based on the exemplified present invention
Example is not construed as the limitation present invention other specific embodiments not detailed herein.
The principle of the invention illustrates that be not represented as a kind of limitation, those skilled in the art can with above-mentioned word
It solves plurality of step as described below and operation also may be implemented in hardware.The principle of the present invention uses many other wide usages
Or specific purpose operation, communication environment or configuration are operated.
Referring to Fig. 1, the application of the control method, control system and mobile device for the mobile device provided in the present invention
Environment schematic.The application environment, including vibration packet server 10, mobile device 20 and communication network 30.
Wherein, packet server 10 is vibrated, for providing all types of vibration packets.Wherein, various types of vibration packets, including
But it is not limited to:System vibration packet, sense of touch vibration packet, information push vibration packet and dynamic expression vibration packet.
Each vibration includes multiple vibrational waveforms.The vibrational waveform, including but not limited to:Within the unit interval
The combination of one or more of Oscillation Amplitude, oscillation intensity, vibration frequency or vibration time laterally and longitudinally.
Wherein it is possible to understand, the unit interval, 1 second, 1 minute unit interval are not only included, further includes presetting
Unit interval, such as default 3 minutes as the unit interval once vibrated.Therefore it should not will be used as to the present invention " unit interval "
Limitation.
The vibrational waveform, it can be understood as to quasi-ization vibrated in reality.For example, vibrational waveform, mould that simulation is kissed
The vibration wave that vibrational waveform that quasi- mouselet struggles in the hand or simulation gold coin pound vibrational waveform in hand, simulate boiling water
Shape etc..
It can be understood that:The mobile device 20, including but not limited to:Smart mobile phone 01 or personal digital assistant
The equal laptop devices such as hand-held devices or laptop 03 of (Personal Digital Assistant, PDA) 02.
The mobile device 20 is used to execute the control method of the present invention or the control system of the application present invention.The movement
Vibration packet is downloaded from vibration packet server 10 and installed to equipment 20, and reads a variety of vibrations in vibration packet by vibration module
Waveform, then by SDK (Software Development Kit, Software Development Kit) interface call built-in motor with according to
The vibrational waveform of the shake-up is vibrated, and in the form of this enriches the vibration of mobile device and the triggering scene of vibration, is carried
The high flexibility that it is realized.
Communication network 30, including wireless network and cable network.Wherein wireless network, including wireless wide area network, wireless office
One or more combinations in domain net, wireless MAN and private wireless network.
This case can be applied to the calling to built-in motor in mobile device based on SDK interfaces.Following embodiment is please referred to, it is real
The control method that example one, two, three all lays particular emphasis on mobile device is applied, example IV lays particular emphasis on the control system of mobile device, and real
It applies example five and lays particular emphasis on mobile device.It can be understood that:Although each embodiment stresses difference, its design philosophy is consistent
's.And the part not being described in detail in certain embodiments, the detailed description of specification full text is may refer to, is repeated no more.
Embodiment one
Referring to Fig. 2, showing the basic procedure schematic diagram of the control method of mobile device.
The hand-held devices such as the mobile device, including but not limited to smart mobile phone or personal digital assistant and notebook
The laptop devices such as computer, are not enumerated one by one herein.
Specifically, the control method of the mobile device, including:
In step s 201, triggering command is obtained, and triggers the trigger point of vibration module according to the triggering command.
It is understood that the trigger point includes but not limited to:Deliberate action, dynamic expression or audio.
Specifically, the deliberate action, including but not limited to:To the operational motion of system, such as touches keyboard, touches
Display screen;Dynamic expression, including but not limited to:Include the application journey of dynamic image by instant message applications, calendar, short message etc.
The dynamic expression for presenting or sending in sequence.Audio, including but not limited to:It is arranged in system prompt sound, quarter-bell, application program or sends out
The sound sent.
In step S202, the vibrational waveform in vibration packet is read according to the trigger point being triggered.
Wherein, the vibrational waveform, including but not limited to:Within the unit interval laterally and longitudinally Oscillation Amplitude, shake
The combination of one or more of fatigue resistance, vibration frequency or vibration time.Wherein, it is not only in original system only by shaking
Fatigue resistance it is strong, in, weak three-level vibrated, also add abundanter vibration mode, provide more personalized, diversification,
The selection of quasi- materialization.
The vibrational waveform, it can be understood as to quasi-ization vibrated in reality.For example, vibrational waveform, mould that simulation is kissed
The vibration wave that vibrational waveform that quasi- mouselet struggles in the hand or simulation gold coin pound vibrational waveform in hand, simulate boiling water
Shape etc..
In step S203, built-in motor is transferred according to the vibrational waveform so that the built-in motor is shaken according to described
Dynamic waveform is vibrated.
Specifically, the step of transfer built-in motor, including:
(1) vibrational waveform is transferred to SDK interfaces.
Wherein, the SDK interfaces, for establishing being associated between built-in motor and vibrational waveform.For example, using Yi Meisen
The SDK interfaces of offer are realized, the SDK interfaces of other companies also can be used.
(2) built-in motor is transferred by the SDK interfaces, so that the built-in motor is shaken according to the vibrational waveform
It is dynamic.
The control method of the mobile device of the present invention reads a variety of vibrational waveforms in vibration packet by vibration module, and
It calls built-in motor to be vibrated with the vibrational waveform according to the shake-up by SDK interfaces, enriches the vibration of mobile device
Form and vibration triggering scene.
Embodiment two
Referring to Fig. 3, showing the refinement flow diagram of the control method of mobile device.
It is understood that in order to protrude the difference of the step of being refined in Fig. 3 and basic step in Fig. 2, in figure 3 substantially
Step is still started with S20, and refinement step is started with S30.
Specifically, the control method of the mobile device, including:
In step S301, vibration APMB package is obtained, the vibration APMB package includes multiple vibrational waveforms.
Wherein, the vibrational waveform, including but not limited to:Within the unit interval laterally and longitudinally Oscillation Amplitude, shake
The combination of one or more of fatigue resistance, vibration frequency or vibration time.Wherein, it is not only in original system only by shaking
Fatigue resistance it is strong, in, weak three-level vibrated, also add abundanter vibration mode, provide more personalized, diversification,
The selection of quasi- materialization.
The acquisition, including but not limited to:The vibration APMB package is configured when system initialization or is downloaded from server
And obtain the vibration APMB package.
In step s 302, the vibration APMB package is imported in application program, to generate the vibration module.
It is understood that by taking instant communication software as an example, after wherein having imported vibration APMB package, you can generate vibration
Module.
In step S303, by multiple vibrational waveforms in the vibration APMB package and multiple triggerings in the vibration module
Point is bound.
It is understood that the trigger point includes but not limited to:Deliberate action, dynamic expression or audio.
Specifically, the deliberate action, including but not limited to:To the operational motion of system, such as touches keyboard, touches
Display screen;Dynamic expression, including but not limited to:Include the application journey of dynamic image by instant message applications, calendar, short message etc.
The dynamic expression for presenting or sending in sequence.Audio, including but not limited to:It is arranged in system prompt sound, quarter-bell, application program or sends out
The sound sent.
In step s 201, triggering command is obtained, and triggers the trigger point of vibration module according to the triggering command.
In step S202, the vibrational waveform in vibration packet is read according to the trigger point being triggered.
Specifically, according to the trigger point is triggered to read the vibrational waveform bound in the trigger point being triggered.
In step s 304, the vibrational waveform is transferred to SDK interfaces.
In step S305, the built-in motor is transferred by the SDK interfaces, so that the built-in motor is according to described
Vibrational waveform is vibrated.
The control method of the mobile device of the present invention reads a variety of vibrational waveforms in vibration packet by vibration module, and
It calls built-in motor to be vibrated with the vibrational waveform according to the shake-up by SDK interfaces, enriches the vibration of mobile device
Form and vibration triggering scene.
Embodiment three
Referring to Fig. 4, showing the idiographic flow schematic diagram of the control method of mobile device.
It is understood that in order to protrude the difference of basic step in step specific in Fig. 4 and Fig. 2, basic step is still
Started with S20, specific steps are started with S40.
Specifically, the control method of the mobile device, including:
In step s 201, triggering command is obtained, and triggers the trigger point of vibration module according to the triggering command.
It is understood that the trigger point, including but not limited to:Deliberate action, dynamic expression or audio.
Specifically, the deliberate action, including but not limited to:To the operational motion of system, such as touches keyboard, touches
Display screen;Dynamic expression, including but not limited to:Include the application journey of dynamic image by instant message applications, calendar, short message etc.
The dynamic expression for presenting or sending in sequence.Audio, including but not limited to:It is arranged in system prompt sound, quarter-bell, application program or sends out
The sound sent.
In step S401, judge whether the type of trigger point is dynamic expression.
If it is understood that dynamic expression, is not necessarily vibrated while transmission or triggering, but showing
It is vibrated when a certain key frame, therefore, the judgement and screening to dynamic expression are devised, to be handled differently, is more bonded with providing
The vibrational waveform of dynamic expression.
Wherein, if dynamic expression, S402 is thened follow the steps;If not dynamic expression, thens follow the steps S202.It is described not
It is the scene of dynamic expression, including but not limited to:
(1) mobile device is rocked, such as:Function is shaken in the instant communication softwares such as wechat;
(2) enter payment interface, when the data such as payment completion, reception red packet change, the audio of generation, such as gold coin
The sound etc. fallen;Or
(3) audio of information push, such as calendar reminding, the information of timely communication software, news push or quarter-bell.
In step S402, the key frame of dynamic expression is obtained.
In step S403, judge whether the key frame corresponds to the starting point of vibrational waveform.
By taking figure shown in fig. 5 as an example, the action of the wherein personage includes:The right hand claps desk and left hand lifts and refers to forward.
It is understood that the key frame of performance " bat " and " lift " is the starting point of corresponding vibrational waveform.That is, the personage claps desk or lift
When finger, vibration can be caused.
Wherein, if the starting point of corresponding vibrational waveform, thens follow the steps S202;If not corresponding to starting point, return to step S402
It carries out obtaining the dynamic expression.
In step S202, when determining that the key frame corresponds to the starting point of vibrational waveform, according to the trigger point being triggered
Read the vibrational waveform in vibration packet.
Specifically, the personage claps desk under X, the X vibration that intensity is 0.2 can be caused;The personage lifts hand
It gives directions Y times, the Y vibration that intensity is 0.1 can be caused.
It should be noted that above-mentioned 0.2 and 0.1 is that the accessible most intensity of built-in motor is set as 1, and by intensity
It is divided into several grades, such as 10 grades, from 0.1~1.It in other embodiments, also can be by other means to oscillation intensity
It is classified and is defined.
Wherein, the vibrational waveform, including but not limited to:Within the unit interval laterally and longitudinally Oscillation Amplitude, shake
The combination of one or more of fatigue resistance, vibration frequency or vibration time.Wherein, it is not only in original system only by shaking
Fatigue resistance it is strong, in, weak three-level vibrated, also add abundanter vibration mode, provide more personalized, diversification,
The selection of quasi- materialization.
In step 404, the vibrational waveform is transferred to SDK interfaces.
In step S405, built-in motor is transferred by the SDK interfaces, so that the built-in motor is according to the vibration
Waveform is vibrated.
By taking Android editions wechats as an example, in the project file of wechat, it is only necessary to (such as jar packets lattice simply are wrapped in vibration
Formula) it imports, and dependence of the project file to vibration packet is added, the interface of the control vibration provided in SDK can be provided.
It accesses after SDK, it is also necessary to it is to be noted that needing to add the vibration file that format is hapt for each corresponding expression, pass through it
Motor can be allowed to go to complete to vibrate according to certain waveform.By taking expression plays scene as an example, Android editions wechats are literary by the vibration
Contact is bound and established to part and corresponding expression file, when corresponding expression plays first frame, calls the interface of vibration SDK,
It is passed to the vibration file of expression binding, starts to vibrate.User can be when having found that expression starts to play, and mobile phone is also combined with
Expression carries out rhythmical vibration, substantially increases the enjoyment that user receives and dispatches expression.
The control method of the mobile device of the present invention reads a variety of vibrational waveforms in vibration packet by vibration module, and
It calls built-in motor to be vibrated with the vibrational waveform according to the shake-up by SDK interfaces, enriches the vibration of mobile device
Form and vibration triggering scene.
Example IV
Referring to Fig. 6, showing the module diagram of the control system of mobile device.
The hand-held devices such as the mobile device, including but not limited to smart mobile phone or personal digital assistant and notebook
The laptop devices such as computer, are not enumerated one by one herein.Wherein, in the mobile device, further include built-in motor and SDK interfaces, use
In the control system for supporting the mobile device.
Specifically, the control system 200 of the mobile device, including:Acquisition module 21, import modul 22, binding mould
Block 23, vibration module 24, expression module 25, read module 26 and calling module 27.
Acquisition module 21, for obtaining vibration APMB package, the vibration APMB package includes multiple vibrational waveforms.
Wherein, the vibrational waveform, including but not limited to:Within the unit interval laterally and longitudinally Oscillation Amplitude, shake
The combination of one or more of fatigue resistance, vibration frequency or vibration time.Wherein, it is not only in original system only by shaking
Fatigue resistance it is strong, in, weak three-level vibrated, also add abundanter vibration mode, provide more personalized, diversification,
The selection of quasi- materialization.
The vibrational waveform, it can be understood as to quasi-ization vibrated in reality.For example, vibrational waveform, mould that simulation is kissed
The vibration wave that vibrational waveform that quasi- mouselet struggles in the hand or simulation gold coin pound vibrational waveform in hand, simulate boiling water
Shape etc..
Import modul 22 is connected to the acquisition module 21, for the vibration APMB package to be imported in application program, with
Generate the vibration module 24.
Binding module 23 is connected to the import modul 22 and vibration module 24, and being used for will be in the vibration APMB package
Multiple vibrational waveforms are bound with multiple trigger points in the vibration module, and the trigger point includes:Deliberate action, dynamic table
Feelings or audio.
Vibration module 24, for obtaining triggering command, the vibration module includes trigger point.
Expression module 25, for filtering the situation that the trigger point is dynamic expression.Specifically, the expression module 25
Including:Judging submodule 251, key frame submodule 252 and starting submodule 253.
Specifically, judging submodule 251, for judging whether the type of trigger point is dynamic expression.Key frame submodule
Block 252, the key frame for obtaining dynamic expression.Submodule 253 is originated, for judging whether the key frame corresponds to vibration wave
The starting point of shape.
Read module 26, for reading the vibrational waveform in vibration packet according to the trigger point being triggered.
Specifically, read module 26, according to the trigger point is triggered, to read shaking bound in the trigger point being triggered
Dynamic waveform.
Calling module 27, for transferring built-in motor according to the vibrational waveform so that the built-in motor is according to described
Vibrational waveform is vibrated.
Specifically, the calling module 27, including:It transmits submodule 271 and transfers submodule 272.Wherein, son is transmitted
Module 271 is connected to the read module 26 and SDK interfaces, for the vibrational waveform to be transferred to SDK interfaces.Transfer son
Module 272 is connected to SDK interfaces and built-in motor, for receiving the vibrational waveform, and transfers built-in motor, so that described
Built-in motor is vibrated according to the vibrational waveform.
Wherein, when expression module 25 judges trigger point for dynamic expression, only when current key frame corresponds to vibrational waveform
When starting point, the calling module 27 just transfers built-in motor, so that the built-in motor is vibrated according to the vibrational waveform.
The control system of the mobile device of the present invention reads a variety of vibrational waveforms in vibration packet by vibration module, and
It calls built-in motor to be vibrated with the vibrational waveform according to the shake-up by SDK interfaces, enriches the vibration of mobile device
Form and vibration triggering scene.
Embodiment five
Referring to Fig. 7, showing the module diagram of mobile device.
The hand-held devices such as the mobile device 20, including but not limited to smart mobile phone or personal digital assistant and notes
The laptop devices such as this computer, are not enumerated one by one herein.
Wherein, in the mobile device, including:Built-in motor 100, control system 200 and SDK interfaces 300.
Control system 200, for providing vibrational waveform, specific executive mode or module are as shown in above-described embodiment, so
Place repeats no more.
SDK interfaces 300 are connected to control system 200, for obtaining vibrational waveform from the control system 200, and adjust
It is vibrated according to the vibrational waveform with the built-in motor.
Built-in motor 100, the vibration for driving mobile device by the rotation of itself.
That is, SDK interfaces 300 and built-in motor 100 are used to support the control system 200 of the mobile device.
The control system of the mobile device of the present invention reads a variety of vibrational waveforms in vibration packet by vibration module, and
It calls built-in motor to be vibrated with the vibrational waveform according to the shake-up by SDK interfaces, enriches the vibration of mobile device
Form and vibration triggering scene.
The mobile device of the present invention reads a variety of vibrational waveforms in vibration packet by vibration module, and passes through SDK interfaces
It calls built-in motor to be vibrated with the vibrational waveform according to the shake-up, enriches form and the vibration of the vibration of mobile device
Triggering scene..
Control method, control system and mobile set of mobile device provided in an embodiment of the present invention belong to same design,
Specific implementation process refers to specification full text, and details are not described herein again.
In conclusion although the present invention is disclosed above with preferred embodiment, above preferred embodiment is not to limit
The system present invention, those skilled in the art can make various changes and profit without departing from the spirit and scope of the present invention
Decorations, therefore protection scope of the present invention is subject to the range that claim defines.
Claims (7)
1. a kind of control method of mobile device, which is characterized in that including:
Configuration vibration APMB package when system initialization, or vibration APMB package is downloaded and obtained from server, the vibration packet
File includes multiple vibrational waveforms;
The vibration APMB package is imported in application program, after importing the vibration APMB package, generates vibration module;
Multiple vibrational waveforms in the vibration APMB package are bound with multiple trigger points in the vibration module, it is described to touch
Sending out point includes:Deliberate action, dynamic expression or audio;
Triggering command is obtained, and triggers the trigger point of vibration module according to the triggering command;
It is described to read the vibrational waveform bound in the trigger point for vibrating and being triggered in APMB package according to the trigger point being triggered
Vibrational waveform includes:Within the unit interval Oscillation Amplitude laterally and longitudinally, one in vibration frequency or vibration time or
Multiple combinations;And
Built-in motor is transferred according to the vibrational waveform so that the built-in motor is vibrated according to the vibrational waveform.
2. control method as described in claim 1, which is characterized in that it is described that built-in motor is transferred according to the vibrational waveform,
So that the built-in motor is vibrated according to the vibrational waveform, specifically include:
The vibrational waveform is transferred to SDK (Software Development Kit) interface;And
The built-in motor is transferred by the SDK interfaces, so that the built-in motor is vibrated according to the vibrational waveform.
3. control method as claimed in claim 1 or 2, which is characterized in that the trigger point for triggering vibration module includes later:
Judge whether the type of trigger point is dynamic expression;
When the trigger point is dynamic expression, built-in motor is transferred according to the vibrational waveform so that the built-in motor is pressed
It is vibrated, is specifically included according to the vibrational waveform:Obtain the key frame of dynamic expression;Judge whether the key frame corresponds to shake
The starting point of dynamic waveform;And when determining that the key frame corresponds to the starting point of vibrational waveform, according in vibrational waveform transfer
Set motor so that the built-in motor is vibrated according to the vibrational waveform.
4. a kind of control system of mobile device, which is characterized in that including:
Acquisition module for the configuration vibration APMB package in system initialization, or is downloaded from server and obtains vibration packet
File, the vibration APMB package includes multiple vibrational waveforms;
Import modul, for importing the vibration APMB package in application program, after importing the vibration APMB package, generation is shaken
Dynamic model block;
Binding module, for clicking through multiple vibrational waveforms in the vibration APMB package with multiple triggerings in the vibration module
Row binding, the trigger point includes:Deliberate action, dynamic expression or audio;
The vibration module, for obtaining triggering command, and according to the trigger point of triggering command triggering vibration module;
Read module, for according to the trigger point that is triggered to read shaking bound in the trigger point being triggered in vibration APMB package
Dynamic waveform, the vibrational waveform include:Within the unit interval laterally and longitudinally Oscillation Amplitude, vibration frequency or vibration when
One or more of long combination;And
Calling module, for transferring built-in motor according to the vibrational waveform so that the built-in motor is according to the vibration wave
Shape is vibrated.
5. control system as claimed in claim 4, which is characterized in that the calling module includes:
Submodule is transmitted, for the vibrational waveform to be transferred to SDK interfaces;And
Submodule is transferred, for transferring the built-in motor by the SDK interfaces, so that the built-in motor is shaken according to described
Dynamic waveform is vibrated.
6. control system as described in claim 4, which is characterized in that
Further include expression module, the expression module includes:
Judging submodule, for judging whether the type of trigger point is dynamic expression;
Key frame submodule, the key frame for obtaining dynamic expression;And
Submodule is originated, for judging whether the key frame corresponds to the starting point of vibrational waveform;
Wherein, the calling module, is specifically used for:When determining that the key frame corresponds to the starting point of vibrational waveform, according to described
Vibrational waveform transfers built-in motor so that the built-in motor is vibrated according to the vibrational waveform.
7. a kind of mobile device, which is characterized in that include the control of the mobile device as described in any one of claim 4 to 6
System.
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CN105827505A (en) * | 2016-03-10 | 2016-08-03 | 广东欧珀移动通信有限公司 | Notification method and apparatus for instant messaging, and mobile terminal |
CN105812567A (en) * | 2016-03-29 | 2016-07-27 | 努比亚技术有限公司 | Mobile terminal control method and device |
WO2021120215A1 (en) * | 2019-12-20 | 2021-06-24 | 瑞声声学科技(深圳)有限公司 | Motor tactile sensation signal generation method and motor tactile sensation signal generation interface |
CN111552377B (en) * | 2020-03-30 | 2024-05-17 | 瑞声科技(新加坡)有限公司 | Method, device, equipment and storage medium for generating vibration signal |
CN111694436B (en) * | 2020-06-18 | 2022-09-02 | 瑞声科技(新加坡)有限公司 | Method and equipment for realizing haptic effect and computer-readable storage medium |
CN112121411A (en) * | 2020-09-18 | 2020-12-25 | 腾讯科技(深圳)有限公司 | Vibration control method, device, electronic equipment and computer readable storage medium |
CN115933941A (en) * | 2022-11-23 | 2023-04-07 | 瑞声开泰声学科技(上海)有限公司 | Motor control method, terminal device and computer storage medium |
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CN101616214A (en) * | 2008-06-27 | 2009-12-30 | Lg电子株式会社 | Provide the sense of touch effect at mobile communication terminal |
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CN1914583A (en) * | 2004-02-03 | 2007-02-14 | 诺基亚公司 | Method and device for implementing vibration output commands in mobile terminal devices |
CN101616214A (en) * | 2008-06-27 | 2009-12-30 | Lg电子株式会社 | Provide the sense of touch effect at mobile communication terminal |
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