CN108604082A

CN108604082A - A kind of smartwatch and vibration control method

Info

Publication number: CN108604082A
Application number: CN201680080803.XA
Authority: CN
Inventors: 孙铎; 冷爱民; 王志勇; 侯学智
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2016-04-14
Filing date: 2016-04-14
Publication date: 2018-09-28
Also published as: WO2017177409A1

Abstract

A kind of smartwatch (20), including touch screen (201), display screen (202), processor (203), several film actuators (207), memory (205) and bus, touch screen (201), display screen (202), processor (203), film actuator (207) and memory (205) are connected with each other by bus and are communicated, according to the operational order that memory (205) stores, processor (203) can execute following methods：Obtain prompting message, the vibration information of each film actuator (207) is determined according to prompting message and default mapping relations, corresponding control instruction is generated respectively according to the vibration information of each film actuator (207), and control film actuator (207) is vibrated according to control instruction.The invention also discloses a kind of vibration control methods being applied to above-mentioned smartwatch (20), user can be reminded to obtain a variety of prompting messages with the combination of vibrations of film actuator (207).

Description

A kind of smartwatch and vibration control method

Technical field

The present invention relates to electronic technology field more particularly to a kind of smartwatch and vibration control method.

Background technique

With the development of electronic technology, wearable electronic (such as smartwatch, Intelligent bracelet etc.) becomes a kind of trend.Smartwatch also has wireless communication, information processing capability, can be realized the multiple functions such as prompting, navigation, monitoring, human-computer interaction in addition to indicating the time.Touch feedback is a kind of mode of human-computer interaction, is referred in human-computer interaction process, and smartwatch responds the input of operator, by power/touch feedback to the process of operator.In smartwatch, touch feedback relies primarily on rotation motor vibration or linear motor vibration to realize.Since the vibrating effect of rotation motor is single, and linear motor can be realized in conjunction with driving algorithm than more rich vibrating effect, in addition the response speed of linear motor is faster than rotation motor very much, therefore increasingly becomes the trend that smartwatch realizes touch feedback using linear motor.

Inventor has found during realizing the object of the invention, the volume of linear motor is larger, and the inner space very little of smartwatch, in addition to the necessary component such as circuit board, battery, if being just difficult to accommodate other function component, therefore the function that smartwatch may be implemented will be very limited using the linear motor for occupying larger space, therefore it is unfavorable for smartwatch to develop to more intelligent direction, while reduces the efficiency that smartwatch carries out information processing.

Summary of the invention

This application provides a kind of smartwatch and vibration control method with several film actuators can remind user to obtain a variety of prompting messages with the combination of vibrations of film actuator.

The application first aspect provides a kind of smartwatch, the smartwatch includes touch screen, display screen, processor, several film actuators, memory and bus, touch screen, display screen, processor, film actuator and memory are connected with each other by bus and are communicated, according to the operational order that memory stores, processor can execute following methods: obtain prompting message；The vibration information of each film actuator is determined according to prompting message and default mapping relations；Corresponding control instruction is generated respectively according to the vibration information of each film actuator, wherein mapping relations include the corresponding relationship of prompting message and vibration information；Control film actuator It is vibrated according to control instruction.With such embodiment, smartwatch can replace linear motor to realize prompting function by film actuator.When the quantity of film actuator is multiple, for different prompting messages, smartwatch can remind user by different vibration informations respectively.

With reference to first aspect, in the first implementation of first aspect, vibration information includes the mark and at least one following information of film actuator: vibration order, vibration frequency, amplitude or vibration time.

With reference to first aspect, in second of implementation of first aspect, prompting message is communication information.

Second of implementation with reference to first aspect, in the third implementation of first aspect, several film actuators include the first film actuator, the second film actuator and third film actuator；When communication information is short message, processor is specifically used for determining that the amplitude of the first film actuator is the first amplitude according to short message, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of the second film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the first film actuator is before the vibration order of the second film actuator；When communication information is incoming message, processor is specifically used for determining that the amplitude of the first film actuator is the first amplitude according to incoming message, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of third film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the second film actuator is before the vibration order of third film actuator；When communication information is that wechat notifies, processor is specifically used for notifying that the amplitude for determining the second film actuator is the first amplitude according to wechat, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of third film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the second film actuator is before the vibration order of third film actuator.With such embodiment, smartwatch can be directed to various communication informations, remind user respectively with corresponding mode of vibration.

With reference to first aspect, in the 4th kind of implementation of first aspect, prompting message is that user inputs information.

The 4th kind of implementation with reference to first aspect, in the 5th kind of implementation of first aspect, several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；When it is volume increment key information that user, which inputs information, processor is specifically used for determining that the amplitude of the first film actuator is the second amplitude according to volume increment key information, vibration frequency is second frequency, vibration time is the second duration, and determine that the amplitude of the second film actuator is the second amplitude, vibration frequency is second frequency, and vibration time is the second duration, the vibration order and the second film of the first film actuator The vibration order of actuator is identical；When it is that volume reduces key information that user, which inputs information, processor is specifically used for determining that the amplitude of third film actuator is the second amplitude according to volume reduction key information, vibration frequency is second frequency, vibration time is the second duration, and determine that the amplitude of the 4th film actuator is the second amplitude, vibration frequency is second frequency, and vibration time is the second duration, and the vibration order of third film actuator is identical as the vibration order of the 4th film actuator.With such embodiment, smartwatch can input information for various users, remind user respectively with corresponding mode of vibration.

With reference to first aspect, in the 6th kind of implementation of first aspect, prompting message is device status information.

The 6th kind of implementation with reference to first aspect, in the 7th kind of implementation of first aspect, several film actuators include the first film actuator, the second film actuator and third film actuator；When device status information is not enough power supply information, processor is specifically used for determining that the amplitude of the first film actuator is third amplitude according to not enough power supply information, and vibration frequency is third frequency, and vibration time is third duration；When device status information is low memory information, processor is specifically used for determining that the amplitude of the second film actuator is third amplitude according to internal insufficient information, and vibration frequency is third frequency, and vibration time is third duration；When device status information is Insufficient disk space information, processor is specifically used for determining that the amplitude of third film actuator is third amplitude according to Insufficient disk space information, and vibration frequency is third frequency, and vibration time is third duration.With such embodiment, smartwatch can be directed to various device status informations, remind user respectively with corresponding mode of vibration.

With reference to first aspect, in the 8th kind of implementation of first aspect, prompting message is environmental state information.

The 8th kind of implementation with reference to first aspect, in the 9th kind of implementation of first aspect, several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；When environmental state information information too fast for heart rate, processor is specifically used for determining that the amplitude of the first film actuator is the 4th amplitude according to the too fast information of heart rate, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the second film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of third film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the 4th film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, the first film actuator, second film actuator, the vibration order of third film actuator and the 4th film actuator is after arriving first；Work as environment When status information is air pressure too low information, processor is specifically used for determining that the amplitude of the second film actuator and third film actuator is the 4th amplitude according to the too low information of air pressure, vibration frequency is the 4th frequency, vibration time is the 4th duration, and the vibration order of the second film actuator is before the vibration order of third film actuator；When device status information is to information, processor is specifically used for determining the amplitude of the first film actuator for the 4th amplitude according to point information, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the second film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of third film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, the first film actuator, the vibration order of second film actuator and third film actuator is after arriving first, wherein, refer to that current time is identical as predetermined time to information.With such embodiment, smartwatch can be directed to various environmental state informations, remind user respectively with corresponding mode of vibration.

The 8th kind of implementation with reference to first aspect, in the tenth kind of implementation of first aspect, several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；Processor is specifically used for obtaining current geographic position and travelling route, travelling route include n intersection, wherein n is not less than 2；If the shortest distance of current geographic position and the i-th intersection is less than pre-determined distance, target direction is determined and using target direction as environmental state information, target direction is direction of the i+1 intersection relative to the i-th intersection, and i is less than n.

The tenth kind of implementation with reference to first aspect, in a kind of the tenth implementation of first aspect, when target direction is east direction, processor is specifically used for determining that the amplitude of the first film actuator is the 5th amplitude according to east direction, vibration frequency is the 5th frequency, and vibration time is the 5th duration；When target direction is southern direction, processor is specifically used for determining that the amplitude of the second film actuator is the 5th amplitude according to southern direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；When target direction is west direction, processor is specifically used for determining that the amplitude of third film actuator is the 5th amplitude according to west direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；When target direction is north direction, processor is specifically used for determining that the amplitude of the 4th film actuator is the 5th amplitude according to north direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration.With such embodiment, smartwatch can be directed to different directions of advance, remind user respectively with corresponding mode of vibration.

A kind of implementation of any of the above with reference to first aspect, in the 12nd kind of implementation of first aspect, film actuator includes vibration component and driving part, and vibration component and driving part are electrically connected, Vibration component is arranged on the wrist strap of smartwatch, and driving part is arranged in inside the table body of smartwatch or wrist strap.The inner space of smartwatch has been saved, the miniaturized design of smartwatch is conducive to the film actuator outside wrist-watch instead of internal linear motor with such embodiment.

The 12nd kind of implementation with reference to first aspect is additionally provided with LED lamp on the corresponding wrist strap surface of each vibration component in the 13rd kind of implementation of first aspect.With such embodiment, when receiving prompting message, smartwatch can not only vibrate, and can also shine, to enhance prompting effect.

Second aspect provides a kind of vibration control method, and this method can be applied in the smartwatch of first aspect offer.

Smartwatch provided by the present application has multiple film actuators, can provide more vibration informations with combination of vibrations, and by the default mapping relations of prompting message and vibration information, user can use tactilely-perceptible vibration, to learn corresponding prompting message.

Detailed description of the invention

Fig. 1 is a schematic diagram of the application scenarios of smartwatch；

Fig. 2 is a structural schematic diagram of smartwatch in the embodiment of the present invention；

Fig. 3 is another structural schematic diagram of smartwatch in the embodiment of the present invention；

Fig. 4 is another structural schematic diagram of smartwatch in the embodiment of the present invention；

Fig. 5 is a flow diagram of vibration control method in the embodiment of the present invention；

Fig. 6 is another flow diagram of vibration control method in the embodiment of the present invention；

Fig. 7 is another flow diagram of vibration control method in the embodiment of the present invention；

Fig. 8 is another flow diagram of vibration control method in the embodiment of the present invention；

Fig. 9 is another flow diagram of vibration control method in the embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, technical solution in the embodiment of the present invention carry out it is clear, describe in detail, it is clear that the described embodiment is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those skilled in the art's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

As shown in Figure 1, the smartwatch 20 can lead to the present embodiments relate to a kind of smartwatch 20 Wireless mode and network side base station 10 are crossed, or is carried out wireless communication with a mobile phone 30.For example, the smartwatch can be by itself radio circuit and antenna, link 40 transmits wireless signals to base station 10 by wireless communication, and request base station 10 carries out wireless network traffic and handles 20 specific business need of smartwatch；In another example, smartwatch 20 can be matched by the bluetooth of itself with mobile phone 30, data communication is carried out by bluetooth communications link 50 with mobile phone after successful match, data communication can certainly be carried out by other communications and mobile phone, such as Radio Frequency Identification Technology, the short distance wireless communication technology etc..In addition, the smartwatch 20 can also detect the variation of external environment by the various sensors of itself.

As shown in Figure 2, the smartwatch 20 can specifically include table body and wrist strap interconnected, wherein table body includes front housing (Fig. 2 is not shown), touch panel 201 (also known as touch screen), display screen 202, bottom case (Fig. 2 is not shown), and processor 203, micro-control unit (Micro Control Unit, abbreviation MCU) 204, memory 205, microphone (Microphone, abbreviation MIC) 206, film actuator 207, bluetooth (Bluetooth, abbreviation BT) 208, , baroceptor 209, heart rate detection sensor 210, gravity accelerometer 211, power supply 212, power-supply management system 213 etc., although being not shown, smartwatch can also include antenna, it is wireless to protect Very (Wireless-Fidelity, abbreviation WiFi) module, the short distance wireless communication technology (Near Field Communication, abbreviation NFC) module, global positioning system (Global Positioning System, abbreviation GPS) module, loudspeaker, accelerometer, gyroscope etc..

Each functional unit of smartwatch 20 is introduced separately below:

Touch screen 201, also referred to as touch panel, the touch operation (for example user uses the operations of any suitable object or attachment on touch panel or near touch panel such as finger, stylus) of wrist-watch user on it is collected, and according to the attachment device of preset formula driving response.Optionally, touch panel 201 may include both touch detecting apparatus and touch controller.Wherein, the touch orientation of touch detecting apparatus detection user, and touch operation bring signal is detected, transmit a signal to touch controller；Touch controller receives touch information from touch detecting apparatus, and is converted into contact coordinate, then gives processor 203, and can receive the order of the transmission of processor 203 and be executed.Furthermore, it is possible to realize touch panel using multiple types such as resistance-type, condenser type, infrared ray and surface acoustic waves.Other than touch screen 201, smartwatch can also include other input equipments, other input equipments can include but is not limited to function key (such as volume control button, switch key etc.).

Display screen 202 can be used for showing information input by user or be supplied to the information of user and the various menus of wrist-watch.Optionally, can using liquid crystal display (Liquid Crystal Display, abbreviation LCD), The forms such as Organic Light Emitting Diode (Organic Light-Emitting Diode, abbreviation OLED) configure display screen 202.Further, touch panel 201 can cover display screen 202, after touch panel 201 detects touch operation on it or nearby, processor 203 is sent to determine the type of touch event, is followed by subsequent processing device 203 according to the type of touch event and corresponding visual output is provided on display screen 202.Although touch panel 201 and display screen 202 are to output and input function as two independent components come realize wrist-watch, in some embodiments it is possible to touch panel 201 and display screen 202 is integrated and that realizes wrist-watch output and input function in Fig. 2.

Processor 203 controls display screen, touch screen, supports processing microphone 206, one or more film actuators 207, bluetooth 208 etc. for carrying out system call.For example, processor 203 can be the APQ8026 chip of Qualcomm.

Microphone 206, also referred to as microphone.The voice signal of collection can be converted to electric signal by microphone 204, be converted to audio data after being received by voicefrequency circuit；Audio data can also be converted to electric signal by voicefrequency circuit, be transferred to loudspeaker, be converted to voice signal output by loudspeaker.

Actuator, which refers to, is controlled, directly or indirectly mechanical structure by signals such as electricity, light, is allowed to deform, move or prevent the mechanism of deformation.Film actuator is a kind of actuator being made based on inverse piezoelectric effect.Specifically, film actuator 207 includes vibration component 2071 and driving part 2072, vibration component 2071, driving part 2072 are electrically connected with the power supply, as shown in Figure 3 or Figure 4.

Wherein, driving part 2072 includes driving circuit, for receiving the control instruction of processor 203, according to control instruction output drive signal to vibration component 2071.Driving part 2072 can be the DRV8662 of Texas Instruments, which is powered using 3.3V, can export the voltage signal of highest 200V.It should be noted that driving part 2072 can be set inside table body or on wrist strap.The vdd terminal of the positive electrode connection power supply of driving part, the negative electrode of driving part connect the end GND.

Vibration component 2071 is the film made of piezoelectric material, and film is electrical connected with driving part 2072, and when the polarization direction of piezoelectric material applies electric field, piezoelectric material generates mechanically deform in a certain direction, forms displacement.When extra electric field removes, above-mentioned mechanically deform or stress also disappear therewith.Wherein, piezoelectric material can be piezoelectric ceramics, quartz crystal, high polymer piezoelectric material etc..Driving part 2072 can export different size of electric signal, and when driving voltage increases, the vibration frequency of vibration component increases, amplitude becomes larger；When driving voltage reduces, the vibration frequency of vibration component is reduced, amplitude becomes smaller.

It should be noted that vibration component 2071 is arranged on the wrist strap of wrist-watch.In one embodiment, Several grooves that can accommodate vibration component 2071 and electronic circuit are equipped with inside the wrist strap of smartwatch, wrist strap can use unitary design, vibration component 2071 is sealed in groove.In another embodiment, the surface in wrist strap towards skin side also can be set in vibration component 2071, it can use glue bonding, one pedestal can also be set on wrist strap surface, to accommodate and fix vibration component, vibration component can also be arranged on wrist strap using other modes, it is not limited here.

Bluetooth 208: smartwatch and can be connected network by above-mentioned electronic equipment, connect with server, handle the functions such as speech recognition by bluetooth with other electronic equipment (such as mobile phone, tablet computer) interactive information.

Micro-control unit 204: for controlling sensor, operation is carried out to sensing data, the functions such as communicates with processor 203；

Sensor can be baroceptor 209, heart rate detection sensor 210, gravity accelerometer 211, optical sensor, motion sensor or other sensors.Specifically, optical sensor may include ambient light sensor and proximity sensor.The other sensors such as the gyroscope, barometer, hygrometer, thermometer, the infrared sensor that can also configure as wrist-watch, details are not described herein.

Memory 205 is stored in the software program and data of memory by operation, executes the various function application and data processing of wrist-watch for storing software program and data, processor 203.Memory 205 mainly includes storing program area and storage data area, wherein storing program area can application program (such as sound-playing function, image player function etc.) needed for storage program area, at least one function；Storage data area can store according to the data (such as audio data, phone directory etc.) for using wrist-watch to be created.In addition, memory may include high-speed random access memory, it can also include nonvolatile storage, such as disk memory, flush memory device or other volatile solid-state parts.

Wrist-watch further includes the power supply 212 (such as battery) powered to all parts, preferably, power supply 212 can be logically contiguous by power-supply management system 213 and processor 203, to realize the functions such as management charging, electric discharge and power managed by power-supply management system 213.

The table diameter of existing smartwatch is generally 35mm~50mm, and thickness is generally 8mm~15mm, and wherein linear motor size is about 15mm × 8mm × 5mm.It can be seen that being difficult to place other function module again, such as camera and various sensors etc., therefore limit the function that smartwatch is capable of providing inside smartwatch in addition to circuit board, battery, single linear motor.

In view of the above problems, wrist-watch provided by the present application is replaced linearly using one or more film actuators Motor realizes vibrating function.More mode of vibrations can be provided using multiple film actuators, to indicate more information.Film actuator setting is conducive to wrist-watch and further reduces volume upper.In situation identical with existing wrist-watch size, wrist-watch provided by the present application can accommodate more multifunctional module.

According to the operational order that memory stores, processor 203 can execute following methods: obtain prompting message；The vibration information that each film actuator is determined according to prompting message generates corresponding control instruction according to the vibration information of each film actuator respectively；Control film actuator 205 is vibrated according to control instruction.Wherein, vibration information includes the mark and at least one following information of film actuator: vibration order, vibration frequency, amplitude or vibration time.Unique identity number that the mark of film actuator can be as the distribution of each film actuator, such as actuator number.

Specifically, processor 203 determines that the vibration information of each film actuator can be accomplished by the following way according to prompting message and default mapping relations, please refers to following embodiment:

In another embodiment of the present invention, smartwatch includes the first film actuator, the second film actuator and third film actuator；When prompting message is communication information, processor 203 can determine the vibration information of each film actuator according to communication information and default mapping relations.Wherein, communication information can be short message, incoming message, wechat notice or mail etc., can also be other message, is not construed as limiting herein.

Specifically, when communication information is short message, processor 203, which is particularly used in, determines that the amplitude of the first film actuator is the first amplitude according to short message, vibration frequency is first frequency, vibration time is the first duration, and determines that the amplitude of the second film actuator is the first amplitude, and vibration frequency is first frequency, vibration time is the first duration, and the vibration order of the first film actuator is before the vibration order of the second film actuator；When communication information is incoming message, processor 203, which is particularly used in, determines that the amplitude of the first film actuator is the first amplitude according to incoming message, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of third film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the first film actuator is before the vibration order of third film actuator；When communication information is that wechat notifies, processor 203, which is particularly used in, notifies that the amplitude for determining the second film actuator is the first amplitude according to wechat, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of third film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the second film actuator is before the vibration order of third film actuator.For example, the first amplitude can be 10 μm, 11 μm, 12 μm, 13 μm, 14 μm etc., and first frequency can be 1KHz, 2KHz, 3KHz, 4KHz, 5KHz etc., and the first duration can be 2s, 3s, 4s etc., wherein μm Indicate that micron, KHz indicate kHz, s indicates the second.

In another embodiment of the present invention, smartwatch includes the first film actuator, the second film actuator, third film actuator and the 4th film actuator；When prompting message is that user inputs information, processor 203 information can be inputted according to user and default mapping relations determine the vibration information of each film actuator.Wherein, it is by the received key information of input equipment (such as character, volume+, volume -) or touch information (such as upper and lower, left and right, sliding) that user, which inputs information,.

Specifically, when it is volume increment key information that user, which inputs information, processor 203 is specifically used for determining that the amplitude of the first film actuator is the second amplitude according to volume increment key information, vibration frequency is second frequency, vibration time is the second duration, and determines that the amplitude of the second film actuator is the second amplitude, and vibration frequency is second frequency, vibration time is the second duration, and the vibration order of the first film actuator is identical as the vibration order of the second film actuator；When it is that volume reduces key information that user, which inputs information, processor 203 is specifically used for determining that the amplitude of third film actuator is the second amplitude according to volume reduction key information, vibration frequency is second frequency, vibration time is the second duration, and determine that the amplitude of the 4th film actuator is the second amplitude, vibration frequency is second frequency, and vibration time is the second duration, and the vibration order of third film actuator is identical as the vibration order of the 4th film actuator.For example, the second amplitude can be 20 μm, 21 μm, 22 μm, 23 μm, 24 μm etc., and second frequency can be 6HKz, 7HKz, 8HKz, 9HKz, 10HKz etc., and third duration can be 0.5s, 1s, 1.5s etc..

In another embodiment of the present invention, smartwatch includes the first film actuator, the second film actuator and third film actuator；When prompting message is device status information, processor 203 can determine the vibration information of each film actuator according to device status information and default mapping relations.Device status information can be not enough power supply information, low memory information, Insufficient disk space information etc..

Specifically, when device status information is not enough power supply information, processor 203 is specifically used for determining that the amplitude of the first film actuator is third amplitude according to not enough power supply information, and vibration frequency is third frequency, and vibration time is third duration；When device status information is low memory information, processor 203 is specifically used for determining that the amplitude of third film actuator is third amplitude according to internal insufficient information, and vibration frequency is third frequency, and vibration time is third duration.When device status information is Insufficient disk space information, processor 203 is specifically used for determining that the amplitude of third film actuator is third amplitude according to Insufficient disk space information, and vibration frequency is third frequency, and vibration time is third duration.For example, third amplitude can be 30 μm, 31 μm, 32 μm, 33 μm, 34 μm, 35 μm etc., third frequency can be 13HKz, 14HKz, 15HKz etc., third duration can be 10s, 11s, 12s, 13s, 14s etc..

In another embodiment of the present invention, smartwatch includes the first film actuator, the second film actuator, third film actuator and the 4th film actuator；When prompting message is environmental state information, processor 203 can determine the vibration information of each film actuator according to environmental state information and default mapping relations.Wherein, environmental state information, which can be the too fast information of heart rate, the too low information of air pressure or arrive, puts information etc..

Specifically, when environmental state information information too fast for heart rate, processor 203 is specifically used for determining that the amplitude of the first film actuator is the 4th amplitude according to the too fast information of heart rate, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the second film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of third film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the 4th film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, the first film actuator, second film actuator, the vibration order of third film actuator and the 4th film actuator is after arriving first；When environmental state information information too low for air pressure, processor 203 is specifically used for determining that the amplitude of the second film actuator and third film actuator is the 4th amplitude according to the too low information of air pressure, vibration frequency is the 4th frequency, vibration time is the 4th duration, and the vibration order of the second film actuator is before the vibration order of third film actuator；When device status information is to information, processor 203 is specifically used for determining the amplitude of the first film actuator, the second film actuator and third film actuator for the 4th amplitude according to point information, vibration frequency is the 4th frequency, vibration time is the 4th duration, the vibration order of the first film actuator, the second film actuator and third film actuator is after arriving first, wherein, refer to that current time is identical as predetermined time to information.For example, predetermined time is 8 a.m., and when the time reaching 8 a.m., processor is available should be to point information.Wherein, the 4th amplitude can be 40 μm, 41 μm, 42 μm, 43 μm, 44 μm etc., and the 4th frequency can be 18KHz, 19Khz, 20KHz etc., and the 4th duration can be 5s, 6s, 7s etc..

In another embodiment of the present invention, processor 203 is specifically also used to obtain current geographic position and travelling route, and travelling route includes n intersection, wherein n is the natural number not less than 2；If current geographic position is less than pre-determined distance at a distance from the i-th intersection, target direction is determined and using target direction as environmental state information, target direction is direction of the i+1 intersection relative to the i-th intersection, and i is less than n.Wherein, when target direction is east direction, processor 203 is specifically used for according to east Fang Fangxiang determines that the amplitude of the first film actuator is the 5th amplitude, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；When target direction is southern direction, processor 203 is specifically used for determining that the amplitude of the second film actuator is the 5th amplitude according to southern direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；When target direction is west direction, processor 203 is specifically used for determining that the amplitude of third film actuator is the 5th amplitude according to west direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；When target direction is north direction, processor 203 is specifically used for determining that the amplitude of the 4th film actuator is the 5th amplitude according to north direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration.For example, the 5th amplitude can be 45 μm, 46 μm, 47 μm, 48 μm, 49 μm, and 50 μm etc., the 5th frequency can be 16KHz, 17KHz etc., and the 5th duration can be 8s, 9s etc..

In another embodiment of the application, light emitting diode (Light Emitting Diode is additionally provided on the corresponding wrist strap surface of each vibration component, abbreviation LED) lamp, when smartwatch obtains prompting message, smartwatch can also determine the light information of LED light according to prompting message and default mapping relations, control instruction is generated according to light information, control LED light shines according to control instruction.

Based on Fig. 2~embodiment illustrated in fig. 4 wrist-watch, the application provides a kind of vibration control method, can be vibrated according to different prompting messages with different mode of vibrations.Individually below to different prompting messages, smartwatch vibrates in different ways to be illustrated respectively:

One, communication information:

Referring to Fig. 5, one embodiment that the application provides vibration control method includes:

S501, smartwatch obtain communication information；

When user's communication, the transceiver of smartwatch can receive communication information, and processor can obtain the communication information from transceiver.Communication information can be short message, call reminding, wechat notice or mail etc..

S502, smartwatch determine the vibration information of each film actuator according to communication information and default mapping relations；

Wherein, vibration information includes the mark and at least one following information of film actuator: vibration order, vibration frequency, amplitude or vibration time.Wherein, film actuator can support the vibration frequency of 0Hz~20KHz, and Oscillation Amplitude is generally within 1mm.The response speed of film actuator is between 2 milliseconds to 5 milliseconds, and the response speed of linear motor, generally between 30 milliseconds to 60 milliseconds, the response speed of film actuator started or stoped is more faster than linear motor.

The memory of smartwatch can prestore the mapping relations of at least one communication information and vibration information, A kind of middle mapping relations are as shown in the table:

It should be noted that a kind of communication information can correspond to the vibration information of a cluster film actuator, the vibration information of a film actuator can also be corresponded to.Amplitude, vibration frequency or the vibration time of each film actuator may be the same or different in one cluster film actuator；Amplitude, vibration frequency or the vibration time of each group film actuator may be the same or different, and be not construed as limiting herein.

It is understood that vibration order, amplitude, vibration frequency or vibration time can be configured respectively according to the actual situation, it is not limited here.It should be noted that by factory pre-sets when mapping relations can be factory, it can also be by user's self-setting.

S503, smartwatch generate corresponding control instruction according to the vibration information of each film actuator respectively；

S504, smartwatch control film actuator are vibrated according to control instruction.

From step S503 and step S504, smartwatch can generate corresponding control instruction according to the vibration information of each film actuator respectively, control instruction is sent to each film actuator again, so that film actuator is vibrated according to control instruction, to realize specified mode of vibration.When user experiences vibration, information received by smartwatch can be determined according to mode of vibration, has expanded user experience.

Two, user inputs information:

Referring to Fig. 6, another embodiment of vibration control method includes: in the application

S601, smartwatch obtain user and input information；

In the present embodiment, it is by the received key information of input equipment or touch information etc. that user, which inputs information,.When user utilizes entity function key input key information, processor can obtain key information (such as character, volume+, volume -) from entity function key；When user is using touch panel input touch information, processing Device can obtain touch information (such as upper and lower, left and right, sliding) from touch panel.

S602, smartwatch inputs information according to user and default mapping relations determine the vibration information of each film actuator；

Wherein, the memory of smartwatch can prestore the mapping relations that at least one user inputs information and vibration information, and one of mapping relations can be as shown in the table:

Wherein, ' volume+', ' volume-' are function key, and ' on ', ' under ', ' left side ', ' right side ' are the virtual keys on dummy keyboard.

It should be noted that a kind of user, which inputs information, can correspond to the vibration information of a cluster film actuator, the vibration information of a film actuator can also be corresponded to.Amplitude, vibration frequency or the vibration time of each film actuator may be the same or different in one cluster film actuator；Amplitude, vibration frequency or the vibration time of each group film actuator may be the same or different, and be not construed as limiting herein.It is understood that vibration order, amplitude, vibration frequency or vibration time can be configured respectively according to the actual situation, it is not limited here.

S603, smartwatch generate corresponding control instruction according to the vibration information of each film actuator respectively；

S604, smartwatch control film actuator are vibrated according to control instruction.

Step S603 to step S604 is similar to step S504 to step S503 in embodiment illustrated in fig. 5, and details are not described herein again.

Three, device status information:

Referring to Fig. 7, another embodiment of vibration control method includes: in the application

S701, smartwatch obtain device status information；

In the present embodiment, device status information can be Disk State information, internal storage state information, power state information etc..For example, smartwatch can use battery detection circuit and obtain information about power, using the memory space of memory detection module detection memory, utilize the memory space of disk detection module detection disk.Specifically, when detecting that battery capacity is lower than default electricity, the available not enough power supply information of smartwatch；Or, when detecting that memory residual memory space is less than default memory storage space, the available low memory information of smartwatch；Or, when detecting that disk residual memory space is less than default disk storage space, the available Insufficient disk space information of smartwatch.

S702, smartwatch determine the vibration information of each film actuator according to device status information and default mapping relations；

Wherein, the memory of smartwatch can prestore the mapping relations of at least one device status information and vibration information, and one of mapping relations can be as shown in the table:

It should be noted that a kind of device status information can correspond to the vibration information of a film actuator, the vibration information of a cluster film actuator can also be corresponded to.Amplitude, vibration frequency or the vibration time of each film actuator may be the same or different in one cluster film actuator；Amplitude, vibration frequency or the vibration time of each group film actuator may be the same or different, and be not construed as limiting herein.It is understood that vibration order, amplitude, vibration frequency or vibration time can be configured respectively according to the actual situation, it is not limited here.

S703, smartwatch generate corresponding control instruction according to the vibration information of each film actuator respectively；

S704, smartwatch control film actuator are vibrated according to control instruction.

Step S703 to step S704 is similar to step S504 to step S503 in embodiment illustrated in fig. 5, and details are not described herein again.

Four, environmental state information:

Referring to Fig. 8, another embodiment of vibration control method includes: in the application

S801, smartwatch obtain environmental state information；

In the present embodiment, environmental state information includes atmospheric pressure state information, acceleration condition information, heartbeat state information, time state information, location status information etc..

Smartwatch can use sensor and measure to the environment around smartwatch, obtain environmental state information.For example, if sensor is barometer, when detecting air pressure lower than preset pressure, the too low information of the available air pressure of processor；If sensor is acceleration transducer, when detecting that movement velocity is more than pre-set velocity, the available excessive velocities information of processor；If sensor is heart rate detection sensor, when detecting that HR Heart Rate is more than default heart rate, the available rapid heart beat information of smartwatch.If sensor is GPS, when detecting that current time is identical as predetermined time, smartwatch is available to point information；Or, when detecting that current date is identical with the default date, and when current time is identical as the pre-set alarm clock moment, the available calendar reminding of smartwatch is notified.

S802, smartwatch determine the vibration information of each film actuator according to environmental state information and default mapping relations；

The memory of smartwatch can prestore the mapping relations of at least one environmental state information and vibration information, and one of mapping relations are as shown in the table:

It should be noted that a kind of environmental state information can correspond to the vibration information of a cluster film actuator, the vibration information of a film actuator can also be corresponded to.Amplitude, vibration frequency or the vibration time of each film actuator may be the same or different in one cluster film actuator；Amplitude, vibration frequency or the vibration time of each group film actuator may be the same or different, and be not construed as limiting herein.It is understood that vibration order, amplitude, vibration frequency or vibration time can be configured respectively according to the actual situation, it is not limited here.

S803, smartwatch generate corresponding control instruction according to the vibration information of each film actuator respectively；

S804, smartwatch control film actuator are vibrated according to control instruction.

Step S803 to step S804 is similar to step S504 to step S503 in embodiment illustrated in fig. 5, and details are not described herein again.

It should be noted that the reminder message in the application can also be the information combination that transceiver, input unit, sensor obtain.

Based on the metrical information that sensor obtains, smartwatch provided by the present application can also realize direction prompting function.Referring to Fig. 9, another embodiment of vibration control method includes: in the application

S901, smartwatch obtain current geographic position and travelling route, travelling route include n intersection, wherein n is not less than 2；

In the present embodiment, when user carries smartwatch movement, smartwatch can be positioned by current geographic position of the GPS to smartwatch.User inputs after starting point and terminal, and smartwatch can use travelling route of the GPS acquisition from origin-to-destination.Travelling route includes n intersection, and n is the natural number not less than 2.

If S902, current geographic position are less than pre-determined distance at a distance from the i-th intersection, smartwatch determines target direction and using target direction as environmental state information, and target direction is that i+1 intersection is opposite In the direction of the i-th intersection, i is less than n；

If current geographic position is less than pre-determined distance at a distance from the i-th intersection, indicate that user reaches the i-th intersection, smartwatch can determine the geographical location of the i-th intersection and i+1 intersection, and determine direction of the i+1 intersection relative to the i-th intersection, and as environmental state information, triggering executes step S903.

For example, the geographical coordinate of i-th intersection is 114 ° 42 ' of east longitude, and 25 ° of north latitude, the geographical coordinate of i+1 intersection is 114 ° 50 ' of east longitude, 25 ° of north latitude, smartwatch can determine i+1 intersection in the east of the i-th intersection by comparing geographical coordinate.

S903, smartwatch determine the vibration information of each film actuator according to target direction and default mapping relations；

Specifically, the memory of smartwatch can prestore the mapping relations of at least one target direction and vibration information, and one of mapping relations can be as shown in the table:

It should be noted that a direction can correspond to the vibration information of a cluster film actuator, the vibration information of a film actuator can also be corresponded to.Amplitude, vibration frequency or the vibration time of each film actuator may be the same or different in one cluster film actuator；The amplitude of each group film actuator, vibration frequency or Vibration time may be the same or different, and be not construed as limiting herein.It is understood that vibration order, amplitude, vibration frequency or vibration time can be configured respectively according to the actual situation, it is not limited here.

S904, smartwatch generate control instruction according to vibration information；

S905, smartwatch control film actuator are vibrated according to control instruction.

Step S904 to step S905 is similar to step S504 to step S503 in embodiment illustrated in fig. 5, and details are not described herein again.

In the present embodiment, when smartwatch vibration, user can be according to the vibration information of each film actuator, determine the direction of motion of lower a road section, user consults a map without opening wrist-watch, so that it may go to next place, the time that user consults a map has been saved, has been provided users with the convenient.

In another embodiment of the application, LED light is additionally provided on the corresponding wrist strap surface of each vibration component, when smartwatch obtains prompting message, smartwatch can also determine the light information of LED light according to prompting message and default mapping relations, control instruction is generated according to light information, control LED light shines according to control instruction.

For example, wrist strap surface is provided with the first LED light, the second LED light, third LED light, the 4th LED light, corresponding with the first film actuator, the second film actuator, third film actuator, the 4th film actuator respectively.When smartwatch receives short message, it can control the first LED light and the second LED light generate feux rouges, when receiving incoming message, can control the first LED light and third LED light generates green light.When receiving prompting message, user can experience the vibration of film actuator, and be observed that LED light shines, and due to the increase of alerting pattern, reminding effect is reinforced, and prompting function can be better achieved in the smartwatch in the present embodiment.

For ease of understanding, it is described in detail below with a concrete application scene to the vibration control method in the embodiment of the present application:

Smartwatch includes film actuator zdq_1, film actuator zdq_2, film actuator zdq_3, film actuator zdq_4；

In one case, when smartwatch receives incoming message, control zdq_1, zdq_2, zdq_3, zdq_4 vibrate 2s simultaneously；

When smartwatch receives short message, control zdq_1, zdq_2 vibrate 2s simultaneously.

In another case, when smartwatch receives the incoming message of contact person A, control zdq_1, zdq_2, zdq_3, zdq_4 successively vibrate；When receiving the incoming message of contact person B, control zdq_4, Zdq_3, zdq_2, zdq_1 successively vibrate.

In other embodiment of the present invention, smartwatch includes GPS mould group, detects user position using GPS mould group and travelling route, travelling route include the position of each intersection.It is assumed that the mapping relations of prompting message and vibration information are as follows: the corresponding zdq_1 in east, the corresponding zdq_2 in south, the corresponding zdq_3 in west, the corresponding zdq_4 in north.When user reaches crossing, assuming that the coordinate at current crossing is 114 ° 42 ' of east longitude, 25 ° of north latitude, the coordinate at next crossing is 114 ° 50 ' of east longitude, 25 ° of north latitude, so wrist-watch can determine next crossing in the east at current crossing, vibration information is determined according to east are as follows: zdq_1 vibration, to control zdq_1 vibration, user consults a map without opening wrist-watch, it will be appreciated that next to move ahead eastwards, user experience is greatly improved.

It is apparent to those skilled in the art that for convenience and simplicity of description, the specific work process of the system, apparatus, and unit of foregoing description can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

The above, the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although the present invention is described in detail referring to the foregoing embodiments, those skilled in the art should understand that: it is still possible to modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features；And these are modified or replaceed, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims

A kind of smartwatch characterized by comprising

Touch screen, display screen, processor, several film actuators, memory and bus, the touch screen, the display screen, the processor, the film actuator and the memory are connected with each other by the bus and are communicated, according to the operational order that the memory stores, the processor can execute following methods:

Obtain prompting message；

The vibration information of each film actuator is determined according to the prompting message and default mapping relations；

Corresponding control instruction is generated respectively according to the vibration information of each film actuator, wherein the mapping relations include the corresponding relationship of the vibration information of prompting message and film actuator；

The film actuator is controlled to be vibrated according to the control instruction.
Smartwatch according to claim 1, which is characterized in that the vibration information includes the mark and at least one following information of film actuator: vibration order, vibration frequency, amplitude or vibration time.
Smartwatch according to claim 1, which is characterized in that the prompting message is communication information.
Smartwatch according to claim 3, which is characterized in that several film actuators include the first film actuator, the second film actuator and third film actuator；

When the communication information is short message, the processor is specifically used for determining that the amplitude of the first film actuator is the first amplitude according to the short message, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of second film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the first film actuator is before the vibration order of second film actuator；

When the communication information is incoming message, the processor is specifically used for determining that the amplitude of the first film actuator is the first amplitude according to the incoming message, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of the third film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the first film actuator is before the vibration order of the third film actuator；

When the communication information is that wechat notifies, the processor is specifically used for being notified according to the wechat true The amplitude of fixed second film actuator is the first amplitude, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of the third film actuator is the first amplitude, vibration frequency is first frequency, vibration time is the first duration, and the vibration order of second film actuator is before the vibration order of the third film actuator.
Smartwatch according to claim 1, which is characterized in that the prompting message is that user inputs information.
Smartwatch according to claim 5, which is characterized in that several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；

When it is volume increment key information that the user, which inputs information, the processor is specifically used for determining that the amplitude of the first film actuator is the second amplitude according to the volume increment key information, vibration frequency is second frequency, vibration time is the second duration, and determine that the amplitude of the second film actuator is the second amplitude, vibration frequency is second frequency, and vibration time is the second duration, and the vibration order of the first film actuator is identical as the vibration order of second film actuator；

When it is that volume reduces key information that the user, which inputs information, the processor is specifically used for determining that the amplitude of the third film actuator is the second amplitude according to volume reduction key information, vibration frequency is second frequency, vibration time is the second duration, and determine that the amplitude of the 4th film actuator is the second amplitude, vibration frequency is second frequency, and vibration time is the second duration, and the vibration order of the third film actuator is identical as the vibration order of the 4th film actuator.
Smartwatch according to claim 1, which is characterized in that the prompting message is device status information.
Smartwatch according to claim 7, which is characterized in that several film actuators include the first film actuator, the second film actuator and third film actuator；

When the device status information is not enough power supply information, the processor is specifically used for determining that the amplitude of the first film actuator is third amplitude according to the not enough power supply information, and vibration frequency is third frequency, and vibration time is third duration；

When the device status information is low memory information, the processor is specifically used for determining that the amplitude of second film actuator is third amplitude according to the internal insufficient information, and vibration frequency is third frequency, and vibration time is third duration；

When the device status information is Insufficient disk space information, the processor is specifically used for according to institute It states Insufficient disk space information and determines that the amplitude of the third film actuator is third amplitude, vibration frequency is third frequency, and vibration time is third duration.
Smartwatch according to claim 1, which is characterized in that the prompting message is environmental state information.
Smartwatch according to claim 9, which is characterized in that several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；

When environmental state information information too fast for heart rate, the processor is specifically used for determining that the amplitude of the first film actuator is the 4th amplitude according to the too fast information of the heart rate, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of second film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the third film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the 4th film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, the first film actuator, second film actuator, the vibration order of the third film actuator and the 4th film actuator is after arriving first；

When environmental state information information too low for air pressure, the processor is specifically used for determining that the amplitude of second film actuator is the 4th amplitude according to the too low information of the air pressure, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the third film actuator is the 4th amplitude, vibration frequency is the 4th frequency, and vibration time is the 4th duration, and the vibration order of second film actuator is before the vibration order of the third film actuator；

When the device status information is to information, the processor is specifically used for according to the amplitude for determining the first film actuator, the second film actuator and third film actuator to point information being the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, the vibration order of the first film actuator, second film actuator and the third film actuator is after arriving first, wherein, described to refer to that current time is identical as predetermined time to point information.
Smartwatch according to claim 9, which is characterized in that several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；

The processor is specifically used for obtaining current geographic position and travelling route, the travelling route include n intersection, wherein n is not less than 2；If the shortest distance of the current geographic position and the i-th intersection is less than pre-determined distance, target direction is determined and using the target direction as environmental state information, institute Stating target direction is direction of the i+1 intersection relative to i-th intersection, and i is less than n.
Smartwatch according to claim 11, which is characterized in that

When the target direction is east direction, the processor is specifically used for determining that the amplitude of the first film actuator is the 5th amplitude according to the east direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；

When the target direction is southern direction, the processor is specifically used for determining that the amplitude of second film actuator is the 5th amplitude according to the southern direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；

When the target direction is west direction, the processor is specifically used for determining that the amplitude of the third film actuator is the 5th amplitude according to the west direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration；

When the target direction is north direction, the processor is specifically used for determining that the amplitude of the 4th film actuator is the 5th amplitude according to the north direction, and vibration frequency is the 5th frequency, and vibration time is the 5th duration.
Smartwatch according to any one of claim 1 to 12, it is characterized in that, the film actuator includes vibration component and driving part, the vibration component and the driving part are electrically connected, the vibration component is arranged on the wrist strap of the smartwatch, and the driving part is arranged in inside the table body of the smartwatch or wrist strap.
Smartwatch according to claim 13, which is characterized in that be additionally provided with LED lamp on the corresponding wrist strap surface of each vibration component.
A kind of vibration control method, the method are applied to the smartwatch with several film actuators, which is characterized in that the described method includes:

Obtain prompting message；

The vibration information of each film actuator is determined according to the prompting message and default mapping relations, the mapping relations include the corresponding relationship of the vibration information of prompting message and film actuator；

Corresponding control instruction is generated respectively according to the vibration information of each film actuator；

The film actuator is controlled to be vibrated according to the control instruction.
Vibration control method according to claim 15, which is characterized in that the vibration information includes the mark and at least one following information of film actuator: vibration order, vibration frequency, amplitude or Vibration time.
Vibration control method according to claim 15, which is characterized in that the prompting message is communication information.
Vibration control method according to claim 17, which is characterized in that several film actuators include the first film actuator, the second film actuator and third film actuator；

The vibration information that each film actuator is determined according to the communication information and default mapping relations includes:

When the communication information is short message, the amplitude that the first film actuator is determined according to the short message is the first amplitude, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of second film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the first film actuator is before the vibration order of second film actuator；

When the communication information is incoming message, the amplitude that the first film actuator is determined according to the incoming message is the first amplitude, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of the third film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of the first film actuator is before the vibration order of the third film actuator；

When the communication information is that wechat notifies, the amplitude that second film actuator is determined according to wechat notice is the first amplitude, vibration frequency is first frequency, vibration time is the first duration, and determine that the amplitude of the third film actuator is the first amplitude, vibration frequency is first frequency, and vibration time is the first duration, and the vibration order of second film actuator is before the vibration order of the third film actuator.
Vibration control method according to claim 15, which is characterized in that the prompting message is that user inputs information.
Vibration control method according to claim 19, which is characterized in that several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；

When it is volume increment key information that the user, which inputs information, the amplitude that the first film actuator is determined according to the volume increment key information is the second amplitude, vibration frequency is second frequency, vibration time is the second duration, and determine that the amplitude of the second film actuator is the second amplitude, vibration frequency is second frequency Vibration time is the second duration, and the vibration order of the first film actuator is identical as the vibration order of second film actuator；

When it is that volume reduces key information that the user, which inputs information, key information, which is reduced, according to the volume determines that the amplitude of the third film actuator is the second amplitude, vibration frequency is second frequency, vibration time is the second duration, and determine that the amplitude of the 4th film actuator is the second amplitude, vibration frequency is second frequency, and vibration time is the second duration, and the vibration order of the third film actuator is identical as the vibration order of the 4th film actuator.
Vibration control method according to claim 15, which is characterized in that the prompting message is device status information.
Vibration control method according to claim 21, which is characterized in that several film actuators include the first film actuator, the second film actuator and third film actuator；

The vibration information that each film actuator is determined according to the device status information and default mapping relations includes:

When the device status information is not enough power supply information, determine that the amplitude of the first film actuator is third amplitude according to the not enough power supply information, vibration frequency is third frequency, and vibration time is third duration；

When the device status information is low memory information, determine that the amplitude of second film actuator is third amplitude according to the internal insufficient information, vibration frequency is third frequency, and vibration time is third duration；

When the device status information is Insufficient disk space information, determine that the amplitude of the third film actuator is third amplitude according to the Insufficient disk space information, vibration frequency is third frequency, and vibration time is third duration.
Vibration control method according to claim 15, which is characterized in that the prompting message is environmental state information.
Vibration control method according to claim 23, which is characterized in that several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；

The vibration information that each film actuator is determined according to the environmental state information and default mapping relations includes:

When environmental state information information too fast for heart rate, the amplitude that the first film actuator is determined according to the too fast information of the heart rate is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of second film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the third film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the 4th film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, the first film actuator, second film actuator, the vibration order of the third film actuator and the 4th film actuator is after arriving first；

When environmental state information information too low for air pressure, the amplitude that second film actuator and the third film actuator are determined according to the too low information of the air pressure is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and the vibration order of second film actuator is before the vibration order of the third film actuator；

When the device status information is to information, it is the 4th amplitude according to the amplitude for determining the first film actuator to point information, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of second film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, and determine that the amplitude of the third film actuator is the 4th amplitude, vibration frequency is the 4th frequency, vibration time is the 4th duration, the first film actuator, the vibration order of second film actuator and the third film actuator is after arriving first, wherein, it is described to refer to that current time is identical as predetermined time to point information.
Vibration control method according to claim 23, which is characterized in that several film actuators include the first film actuator, the second film actuator, third film actuator and the 4th film actuator；

The acquisition environmental state information includes:

It obtains current geographic position and travelling route, the travelling route includes n intersection, wherein n is not less than 2；

If the current geographic position is less than pre-determined distance at a distance from the i-th intersection, target direction is determined and using the target direction as environmental state information, the target direction is direction of the i+1 intersection relative to i-th intersection, and i is less than n.
Vibration control method according to claim 25, which is characterized in that described according to Target direction and default mapping relations determine that the vibration information of each film actuator includes:

When the target direction is east direction, determine that the amplitude of the first film actuator is the 5th amplitude according to the east direction, vibration frequency is the 5th frequency, and vibration time is the 5th duration；

When the target direction is southern direction, determine that the amplitude of the second film actuator is the 5th amplitude according to the southern direction, vibration frequency is the 5th frequency, and vibration time is the 5th duration；

When the target direction is west direction, determine that the amplitude of third film actuator is the 5th amplitude according to the west direction, vibration frequency is the 5th frequency, and vibration time is the 5th duration；

When the target direction is north direction, determine that the amplitude of the 4th film actuator is the 5th amplitude according to the north direction, vibration frequency is the 5th frequency, and vibration time is the 5th duration.