CN105871664A - Control method and device of wearable device - Google Patents

Abstract

The invention provides a control method and device of a wearable device. The method comprises following steps of detecting vibration marks in first multimedia data in the process of playing the first multimedia data synchronously by a terminal and the wearable device connected with the terminal; and sending vibration instructions to the wearable device if the vibration marks are detected in the first multimedia data, thus enabling the wearable device to vibrate according to the vibration instructions. According to the technical scheme provided by the invention, when the vibration marks are detected in the first multimedia data, the vibration instructions are sent to the wearable device, therefore the wearable device can vibrate; the wearable device can output the multimedia data and moreover output vibration signals; and the diversity of the output signals of the wearable device is improved.

Description

The control method of wearable device and device

Technical field

The present invention relates to audio-visual play-back technology field, particularly relate to the control method of a kind of wearable device And device.

Background technology

Along with popularizing of terminal, more and more functional accessory relevant to terminal are the most perfect.Wearable Equipment such as intelligent helmet, intelligent glasses etc., as an important accessory of terminal, can be by general Universal serial bus (Universal Serial Bus, USB) interface, mobile terminal high-definition audio and video standard (Mobile High-Definition Link, MHL) interface or bluetooth carry out wired connection or wireless company with terminal Connect.Multi-medium data can be sent to wearable setting by the connection between wearable device by terminal Standby.

But, in prior art, wearable device can only realize the output of multi-medium data, regards as play Frequency evidence, output voice data etc., therefore the kind of wearable device output signal is more single, impact The output effect of multi-medium data.

Summary of the invention

The present invention provides control method and the device of a kind of wearable device, can wear to overcome in prior art The kind wearing apparatus output signal is more single, affects the technical problem of the output effect of multi-medium data.

The present invention provides the control method of a kind of wearable device, including:

During terminal broadcasting Tong Bu with the wearable device connected the first multi-medium data, to institute State the mark of the vibration in the first multi-medium data to detect；

If described vibration mark being detected in described first multi-medium data, send out to described wearable device Send vibration instruction, in order to described wearable device vibrates according to described vibration instruction.

Preferably, the vibration in described first multi-medium data is marked and detects, including:

Extract the header file of described first multi-medium data；

Detect and whether described header file carries described vibration mark.

Preferably, the vibration in described first multi-medium data is marked before detecting, including:

Described vibration mark is set in described header file；

Second multi-medium data and described header file are compressed coding, to obtain described first multimedia Data.

Preferably, the vibration mark in described first multi-medium data detects, including:

The voice-grade channel of described first multi-medium data is decoded, obtains described vibration mark.

Preferably, the vibration in described multi-medium data is marked before detecting, including:

It is that the first multi-medium data creates voice-grade channel, described voice-grade channel arranges described vibration mark；

Described voice-grade channel is encoded with described second multi-medium data, to obtain described matchmaker more than first Volume data.

Preferably, during described vibration instruction comprises vibration beginning and ending time, vibration number and oscillatory type information At least one.

Based on same inventive concept, the present invention also provides for the control method of a kind of wearable device, including:

Receive the vibration instruction that the terminal connected sends；Wherein, described vibration is designated as wearing described During equipment of wearing broadcasting Tong Bu with described terminal the first multi-medium data, described terminal is described first Send when multi-medium data detects vibration mark；

Vibrate according to described vibration instruction.

Preferably, during described vibration instruction comprises vibration beginning and ending time, vibration number and oscillatory type information At least one.

Preferably, vibrate according to described vibration instruction, including:

Control at least one vibrating motor according to described vibration instruction to vibrate.

Based on same inventive concept, the present invention also provides for the control device of a kind of wearable device, including:

Detection module, at terminal broadcasting Tong Bu with the wearable device connected the first multi-medium data During, the vibration in described first multi-medium data is marked and detects；

Sending module, if for detecting described vibration mark, to institute in described first multi-medium data State wearable device and send vibration instruction, in order to described wearable device is carried out according to described vibration instruction Vibration.

Preferably, described detection module, specifically for:

Extract the header file of described first multi-medium data；

Detect and whether described header file carries described vibration mark.

Preferably, described device also includes:

Module is set, for arranging described vibration mark in described header file；

First coding module, for the second multi-medium data and described header file being compressed coding, with Obtain described first multi-medium data.

Preferably, described device also includes:

Decoder module, for being decoded the voice-grade channel of described first multi-medium data, obtains described Vibration mark.

Preferably, described device also includes:

Creation module, is used for being that the first multi-medium data creates voice-grade channel, sets in described voice-grade channel Put described vibration mark；

Second coding module, encodes described voice-grade channel with described second multi-medium data, to obtain Obtain described first multi-medium data.

Preferably, during described vibration instruction comprises vibration beginning and ending time, vibration number and oscillatory type information At least one.

Based on same inventive concept, the present invention also provides for the control device of a kind of wearable device, including:

Receiver module, for receiving the vibration instruction that the terminal connected sends；Wherein, described vibration refers to It is shown as during wearable device broadcasting Tong Bu with described terminal the first multi-medium data, described terminal Send when vibration mark being detected in described first multi-medium data；

Vibration module, for vibrating according to described vibration instruction.

Preferably, during described vibration instruction comprises vibration beginning and ending time, vibration number and oscillatory type information At least one.

Preferably, described vibration module, specifically for:

Control at least one vibrating motor according to described vibration instruction to vibrate.

In the technical scheme that the present invention provides, in terminal broadcasting first Tong Bu with the wearable device connected During multi-medium data, mark according to the vibration in the first multi-medium data, to wearable device Send vibration instruction, so that wearable device can vibrate, it is achieved the output of vibration signal, with The technical scheme that can only export multi-medium data in prior art is compared, and improves wearable device output letter Number diversity.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to reality Execute the required accompanying drawing used in example or description of the prior art to be briefly described, it should be apparent that under, Accompanying drawing during face describes is some embodiments of the present invention, for those of ordinary skill in the art, On the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the flow chart of the embodiment one of the control method of the wearable device of the present invention；

Fig. 2 is the configuration diagram of the control system of the wearable device of the present invention；

Fig. 3 is the flow chart of the embodiment two of the control method of the wearable device of the present invention；

Fig. 4 is the flow chart of the embodiment three of the control method of the wearable device of the present invention；

Fig. 5 is the flow chart of the embodiment four of the control method of the wearable device of the present invention；

Fig. 6 is the schematic diagram of the embodiment one controlling device of the wearable device of the present invention；

Fig. 7 is the schematic diagram of the embodiment two controlling device of the wearable device of the present invention；

Fig. 8 is the schematic diagram of the embodiment three controlling device of the wearable device of the present invention；

Fig. 9 is the schematic diagram of the embodiment four controlling device of the wearable device of the present invention.

Detailed description of the invention

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearer, below in conjunction with this Accompanying drawing in bright embodiment, is clearly and completely described the technical scheme in the embodiment of the present invention, Obviously, described embodiment is a part of embodiment of the present invention rather than whole embodiments.Based on Embodiment in the present invention, those of ordinary skill in the art are obtained under not making creative work premise The every other embodiment obtained, broadly falls into the scope of protection of the invention.

Embodiment one

Fig. 1 is the flow chart of the control method embodiment one of the wearable device of the present invention, as it is shown in figure 1, The control method of the wearable device of the present embodiment, specifically may include steps of:

S101, during terminal broadcasting Tong Bu with the wearable device connected the first multi-medium data, Vibration in first multi-medium data is marked and detects.

Specifically, the executive agent of the present embodiment is terminal.

Along with developing rapidly of terminal, increasing functional accessory is also developed.Such as, can wear Wearing equipment, as the important accessory of terminal, can be such as intelligent helmet, intelligent glasses etc., user can Wearable device is attached by USB interface, MHL interface or bluetooth with terminal.

Terminal, such as mobile phone or panel computer etc., while playing multi-medium data, can pass through MHL Multi-medium data is sent to wearable device by agreement, makes wearable device and terminal play this many matchmakers simultaneously Volume data.The first multi-medium data play is sent to wearable device by terminal, makes wearable device Broadcasting Tong Bu with terminal the first multi-medium data, user listens to wearable by the earphone on wearable device The audio signal that equipment sends.

But user is when watching vision signal and listening to audio signal, in the first multi-medium data Some plots, such as, explode, collide, shoot or the plot such as earthquake, do not have personal experience.Therefore, Vibrating motor can be installed on wearable device, vibration mark is set in the first multi-medium data simultaneously, When terminal plays the first multi-medium data with wearable device simultaneously, terminal detects the first multi-medium data Position with vibration mark.It is mobile phone with terminal, as a example by wearable device is intelligent helmet, more than first Media data exists the plot of blast, in advance at the frame that the first multi-medium data is corresponding with blast plot Place sets vibration mark, and when intelligent helmet and mobile phone synchronize to play the first multi-medium data, mobile phone detects Whether existence vibration marks.

S102, if vibration mark being detected in the first multi-medium data, sends vibration to wearable device Instruction, in order to wearable device vibrates according to vibration instruction.

Specifically, when terminal detects the vibration mark that the first multi-medium data is arranged, to wearable device Send vibration instruction.

Further, vibration instruction comprises in vibration beginning and ending time, vibration number and oscillatory type information extremely Few one.

Specifically, wearable device is installed vibrating motor.When wearable device receives vibration instruction Time, the vibrating motor on wearable device, vibration beginning and ending time, the vibration comprised is indicated according to vibration Number of times and oscillatory type information are vibrated.

Wherein, oscillatory type can include long vibration, short vibration and heartbeat type vibration.

It is mobile phone with terminal, as a example by wearable device is intelligent helmet, the first multi-medium data exists quick-fried Fried plot, plays the corresponding frame setting vibration mark of blast plot in advance at the first multi-medium data. When intelligent helmet and mobile phone synchronize to play the first multi-medium data, mobile phone detects that a certain frame is with vibration Mark, sends long vibration instruction when playing this frame to intelligent helmet, and intelligent helmet can vibrate, So that the seismaesthesia that user's physical experience produces to explosion time, it is also possible to according to concrete details by explosive event The vibration mark at place is arranged to many vice-minister vibration and short vibration, to show the plot that there is serial blast, makes to broadcast Put effect truer.

As in figure 2 it is shown, the configuration diagram of the control system of the wearable device of the present invention.Using this When the control method of the wearable device described in embodiment realizes controlling wearable device, by mobile phone and intelligence The helmet is attached by USB interface, makes mobile phone broadcasting Tong Bu with intelligent helmet multi-medium data, user Earphone is used to listen to the voice data that intelligent helmet is play.Divide in forward and backward, left and right on intelligent helmet Other vibration equipment motor, when playing the first multimedia data on mobile phone to vibration mark, Xiang Zhi Can send vibration instruction by the helmet, intelligent helmet vibrates according to vibration instruction, so, improves intelligence The result of broadcast of the helmet.

If it will be understood by those skilled in the art that and being not detected by vibration mark in the first multi-medium data Note, then terminal does not send vibration instruction, and wearable device does not shakes when playing the first multi-medium data Dynamic.

The technical scheme of the present embodiment, terminal broadcasting Tong Bu with the wearable device connected matchmaker more than first During volume data, mark according to the vibration in the first multi-medium data, send to wearable device Vibration instruction, so that wearable device can vibrate, it is achieved the output of vibration signal, with existing The technical scheme that can only export multi-medium data in technology is compared, and improves wearable device output signal Diversity.

Embodiment two

Fig. 3 is the flow chart of the embodiment two of the control method of the wearable device of the present invention, the present embodiment The control method of wearable device on the basis of above-described embodiment one, introduce the most in further detail Technical scheme.As it is shown on figure 3, the control method of the wearable device of the present embodiment, specifically May include steps of:

S301, arranges vibration mark in header file.

The executive agent of the present embodiment is terminal.

Specifically, those skilled in the art should be it is recognised that usually said multi-medium data be by head The compressing files such as file, video file and audio file are synthesized together the number with coded format of formation According to, such as, Audio Video Interleaved form (Audio Video Interleaved, AVI), enhancing stream Media formats (Advanced Streaming Format, ASF), windows media video (Windows Media Video, WMV) form, 3GP, the video format (Real Video) of high compression ratio and flash of light video (Flash Video, FLV) etc. the multi-medium data of coded format.

When playing the first multi-medium data, essence is to be decoded the first multi-medium data, it is thus achieved that head The process of file, video file and audio file etc..

Wherein, header file have recorded the information about the first multi-medium data, such as, file frame index, The synchronizing information of the size and location of every frame and video file and audio file.In the present embodiment, also exist When header file records the information of frame, at the frame specified, set vibration mark, in order to when being played to this During frame, terminal sends vibration instruction to wearable device.

S302, is compressed coding, to obtain the first multimedia number by the second multi-medium data and header file According to.

Specifically, the data before not encoding the first multi-medium data are the second multi-medium data, tool Body includes video file and audio file.Second multi-medium data can not directly be play, it is necessary to through overvoltage Reduce the staff code audio file and video file to be synthesized together.Use coding tools, such as, in terminal Video record software or the audio-visual video production software of windows etc., by the second multi-medium data with contain The header file of vibration mark is compressed coding, it is thus achieved that the first multi-medium data.

S303, extracts the header file of the first multi-medium data.

During in particular it is required that play the first multi-medium data, need to be decoded the first multi-medium data, With extract the header file of the first multi-medium data.Player normal in people's daily life, such as, real Time player (Real Player), window media player (Windows Media Player) and The players such as omnipotent player (Kmplayer), are effectively equivalent to decoder, say, that terminal First multi-medium data, when playing the first multi-medium data, is really solved by the player of middle installation The process of code.

In the present embodiment, player, during being decoded the first multi-medium data, first extracts The header file of one multi-medium data, to obtain the file frame index described in header file, every frame sign and position Put the information such as synchronizing information with video file and audio file.

Whether S304, carry vibration mark in detection header file.

Specifically, multi-medium data, while playing multi-medium data, is sent out by terminal by MHL agreement Deliver to wearable device, make terminal and wearable device play this multi-medium data simultaneously.But user exists When viewing vision signal and listening to audio signal, for some plots in the first multi-medium data, such as Explode, collide, shoot or the plot such as earthquake, but there is no the most personal experience.Therefore, it can Vibrating motor is installed on wearable device.

The present embodiment arranges vibration mark in the header file of the first multi-medium data, when terminal is with wearable When equipment plays the first multi-medium data simultaneously, terminal detects that whether the first multi-medium data is with vibration The position of mark.If so, when being played to the frame corresponding with vibrating mark, terminal is sent out to wearable device Send vibration instruction.

It is mobile phone with terminal, as a example by wearable device is intelligent helmet, the first multi-medium data exists quick-fried Fried plot, sets vibration mark in advance at the first multi-medium data.When intelligent helmet and mobile phone synchronize When playing the first multi-medium data, mobile phone detects in the header file of the first multi-medium data, if carry Vibration mark.

S305, if vibration mark being detected in the first multi-medium data, sends vibration to wearable device Instruction, in order to wearable device vibrates according to vibration instruction.

Specifically, when terminal detects the vibration mark that the first multi-medium data is arranged, to wearable device Send vibration instruction.

Further, vibration instruction comprises in vibration beginning and ending time, vibration number and oscillatory type information extremely Few one.

Specifically, wearable device is installed vibrating motor.When wearable device receives vibration instruction Time, the vibrating motor on wearable device, vibration beginning and ending time, the vibration comprised is indicated according to vibration Number of times and oscillatory type information are vibrated.

Oscillatory type includes long vibration, short vibration and heartbeat type vibration.

It is mobile phone with terminal, as a example by wearable device is intelligent helmet, the first multi-medium data exists quick-fried Fried plot, frame corresponding with blast plot in the first multi-medium data in advance arranges vibration mark. When intelligent helmet and mobile phone synchronize to play the first multi-medium data, mobile phone detects the first multi-medium data Header file exists vibration mark, when playing the first multi-medium data to during with blast plot corresponding frame, Send long vibration instruction to intelligent helmet, make user's physical experience to the seismaesthesia produced during earthquake, it is also possible to According to concrete details, the vibration mark at earthquake conditions is arranged to many vice-minister vibration and short vibration, deposits to show In the plot of serial blast, make result of broadcast truer.

Such as, long vibration is vibration 10 seconds, and short vibration is vibration 3 seconds, and heartbeat type vibration is vibration 20 Secondary, it is mobile phone with terminal, as a example by wearable device is intelligent helmet, when the first multimedia number play According to when having blast plot during to the 20th point and 37 seconds, blast continues 10 seconds, and the most now mobile phone is to intelligent helmet Send the vibration vibration of 10 seconds to instruct:

MHL_Send_command (" cmd=vibrator:10s "): // issue the order of vibration command 10s To the helmet.

If it will be understood by those skilled in the art that and being not detected by vibration mark in the first multi-medium data Note, then terminal does not send vibration instruction, and wearable device does not shakes when playing the first multi-medium data Dynamic.

The technical scheme of the present embodiment, by arranging vibration mark in the header file of the first multi-medium data, During terminal broadcasting Tong Bu with the wearable device connected the first multi-medium data, according to the Vibration mark in the header file of one multi-medium data, sends vibration instruction to wearable device, so that Wearable device can vibrate, it is achieved can only export many in the output of vibration signal, with prior art The technical scheme of media data is compared, and improves the diversity of wearable device output signal.

Embodiment three

Fig. 4 is the flow chart of the embodiment three of the control method of the wearable device of the present invention, the present embodiment The control method of wearable device on the basis of above-described embodiment one, introduce the most in further detail Technical scheme.As shown in Figure 4, the control method of the wearable device of the present embodiment, specifically May include steps of:

S401, is that the first multi-medium data creates voice-grade channel, arranges vibration mark in voice-grade channel.

Specifically, the executive agent of the present embodiment is terminal.

The broadcasting of the first general multi-medium data, really output vision signal and the process of audio signal, Wherein, vision signal is to be transmitted by video channel, and audio signal is transmitted by voice-grade channel.Namely Say, in the manufacturing process carrying out the first multi-medium data, synthesized the video for exporting vision signal Passage and for exporting the voice-grade channel of audio signal.

The technical scheme of the present embodiment is, is that the first multi-medium data additionally creates a voice-grade channel, with For setting vibration mark, thus when for the first multi-medium data decoding, when voice-grade channel is decoded, It is able to detect that vibration mark.

The position of set vibration mark and play are such as exploded, collide, shoot or the plot phase such as earthquake Corresponding position, specifically can be corresponding according to the time, and such as, the first multi-medium data is playing the 20th There is the blast plot of 10 seconds when dividing 30 seconds, the most correspondingly, play the 20th point at the voice-grade channel created Vibration mark was set at 30 seconds.

S402, encodes voice-grade channel and the second multi-medium data, to obtain the first multi-medium data.

Specifically, the data before not encoding the first multi-medium data are the second multi-medium data, tool Body includes video file and audio file.Second multi-medium data can not directly be play, it is necessary to through overvoltage Reduce the staff code.Use coding tools, such as, video record software in terminal or windows is audio-visual regards Frequently Software for producing etc., are compressed coding, it is thus achieved that the first multimedia by the second multi-medium data and header file Data.The present embodiment, will be in step S301 when the second multi-medium data and header file are compressed coding The voice-grade channel created is compressed coding together with the second multi-medium data and header file, thus obtains the One multi-medium data.

S403, is decoded the voice-grade channel of the first multi-medium data, obtains vibration mark.

Specifically, multi-medium data, while playing multi-medium data, is sent out by terminal by MHL agreement Deliver to wearable device, make terminal and wearable device play this multi-medium data simultaneously.Terminal will be broadcast The first multi-medium data put sends to wearable device, makes wearable device broadcasting first Tong Bu with terminal Multi-medium data, user listens, by the earphone on wearable device, the audio signal that wearable device sends.

But user is when watching vision signal and listening to audio signal, in the first multi-medium data Some plots, such as, explode, collide, shoot or the plot such as earthquake, the most well experience.Therefore, Vibrating motor can be installed on wearable device, vibration mark is set in the first multi-medium data simultaneously, When terminal plays the first multi-medium data with wearable device simultaneously, terminal detects the first multimedia number According to the position with vibration mark.

It is mobile phone with terminal, as a example by wearable device is intelligent helmet, the first multi-medium data exists ground The plot of shake, sets vibration mark in advance at the first multi-medium data.When intelligent helmet and mobile phone synchronize When playing the first multi-medium data, mobile phone detects whether to there is vibration mark.

Concrete implementation method is, is decoded by the first multi-medium data, such as, Real Player, The players such as Windows Media Player and Kmplayer, are effectively equivalent to decoder, the most just Being to say, the player installed in terminal is when playing the first multi-medium data, really to the first multimedia The process of decoding data.

In player, it is provided with the vision signal for decomposing the first multi-medium data and audio signal Instrument parse, is provided with voice-grade channel and video channel simultaneously in player, player is to more than first After the audio signal of media data and vision signal are decomposed, the video of the first multi-medium data is believed Number transmitted by video channel, audio signal is transmitted by voice-grade channel, when the sound that decoding is additionally arranged Frequently, during passage, detect and be provided with vibration signal, the processor of notice terminal, so that the place of terminal Reason device sends vibration instruction to wearable device.

S404, if vibration mark being detected in the first multi-medium data, sends vibration to wearable device Instruction, in order to wearable device vibrates according to vibration instruction.

Player normal in people's daily life, such as, Real Player, Windows Media Player With the player such as Kmplayer, it is effectively equivalent to decoder, say, that player is playing more than first During media data, the process really the first multi-medium data being decoded.When player plays first During multi-medium data, to voice-grade channel decoding to when arranging the position of audio indicia, terminal sends vibration Instruction.

Further, vibration instruction comprises in vibration beginning and ending time, vibration number and oscillatory type information extremely Few one.

Specifically, wearable device is installed vibrating motor.When wearable device receives vibration instruction Time, the vibrating motor on wearable device, vibration beginning and ending time, the vibration comprised is indicated according to vibration Number of times and oscillatory type information are vibrated.Oscillatory type includes long vibration, short vibration and heartbeat type vibration.

It is mobile phone with terminal, as a example by wearable device is intelligent helmet, the first multi-medium data exists ground The plot of shake, sets vibration mark in advance at the first multi-medium data.When intelligent helmet and mobile phone synchronize When playing the first multi-medium data, mobile phone detects the presence of vibration mark, sends long vibration to intelligent helmet Instruction, makes user's physical experience to the seismaesthesia produced during earthquake, it is also possible to according to concrete details by ground earthquake situations Vibration mark at condition is arranged to many vice-minister vibration and short vibration, to show the situation that there is aftershock, makes broadcasting Effect is truer.

Such as, long vibration is vibration 10 seconds, and short vibration is vibration 3 seconds, and heartbeat type vibration is vibration 20 Secondary, it is mobile phone with terminal, as a example by wearable device is intelligent helmet, when the video play has blast During plot, blast continues 10 seconds, then mobile phone sends to intelligent helmet and vibrates instruction:

MHL_Send_command (" cmd=vibrator:10s ")；// issue the order of vibration command 10s To the helmet.

The technical scheme of the present embodiment, is that the first multi-medium data creates voice-grade channel, is set by vibration mark It is placed in created voice-grade channel, terminal broadcasting Tong Bu with the wearable device connected matchmaker more than first During volume data, mark according to the vibration in the voice-grade channel of the first multi-medium data, to wearing Equipment of wearing sends vibration instruction, so that wearable device can vibrate, it is achieved vibration signal defeated Go out, compared with the technical scheme that can only export multi-medium data in prior art, improve wearable device The diversity of output signal.

Embodiment four

Fig. 5 is the flow chart of the control method embodiment four of the wearable device of the present invention, as it is shown in figure 5, The control method of the wearable device of the present embodiment, specifically may include steps of:

S501, wearable device receives the vibration instruction that the terminal connected sends.

Wherein, vibration is designated as in the wearable device process of playing first multi-medium data Tong Bu with terminal In, terminal sends when vibration mark being detected in the first multi-medium data.

Specifically, the executive agent of the present embodiment is wearable device.

Along with developing rapidly of terminal, increasing functional accessory is also developed.Such as, can wear Wearing equipment, as the important accessory of terminal, can be such as intelligent helmet, intelligent glasses etc., user can Wearable device is attached by USB interface, MHL interface or bluetooth with terminal.

Terminal, such as mobile phone or panel computer etc., while playing multi-medium data, is assisted by MHL Discuss and multi-medium data is sent to wearable device, make wearable device and terminal play this multimedia simultaneously Data.Terminal by play first multi-medium data send to wearable device, make wearable device with Terminal synchronizes to play the first multi-medium data, and user listens to wearable setting by the earphone on wearable device The audio signal that preparation goes out.

But user is when watching vision signal and listening to audio signal, in the first multi-medium data Some plots, such as, explode, collide, shoot or the plot such as earthquake, do not have personal experience.Therefore, Vibrating motor can be installed on wearable device, vibration mark is set in the first multi-medium data simultaneously, When terminal plays the first multi-medium data with wearable device simultaneously, terminal detects the first multi-medium data During with vibration mark, send vibration instruction to wearable device.

It is mobile phone with terminal, as a example by wearable device is intelligent helmet, the first multi-medium data exists quick-fried Fried plot, sets vibration mark in advance at the frame that the first multi-medium data is corresponding with blast plot, When intelligent helmet and mobile phone synchronize to play the first multi-medium data, when there is vibration mark in mobile phone detection, Vibration instruction is sent to intelligent helmet.

S502, wearable device vibrates according to vibration instruction.

Further, vibration instruction comprises in vibration beginning and ending time, vibration number and oscillatory type information extremely Few one.

Specifically, S502 specifically includes: the processor of wearable device controls at least one according to vibration instruction Individual vibrating motor vibrates.

Specifically, wearable device is installed at least one vibrating motor.When wearable device receives During vibration instruction, four vibrating motors on wearable device, rise according to the vibration that vibration instruction is comprised Only time, vibration number and oscillatory type information are vibrated.

Oscillatory type includes long vibration, short vibration and heartbeat type vibration.

It is mobile phone with terminal, as a example by wearable device is intelligent helmet, forward and backward, left at intelligent helmet It is respectively arranged with vibrating motor with the right side, the first multi-medium data exists the plot of blast, in advance first Multi-medium data is play the corresponding frame of blast plot and is set vibration mark.When intelligent helmet and mobile phone are same When step plays the first multi-medium data, mobile phone detects that a certain frame marks with vibration, when playing this frame The vibration instruction carrying out growing vibration is sent to intelligent helmet, when intelligent helmet receives this vibration instruction, to The vibration installed on intelligent helmet becomes to reach transmission vibration instruction, makes vibrating motor shake according to vibration instruction Dynamic, thus the seismaesthesia instigating user's physical experience to produce to explosion time, make result of broadcast truer.

The technical scheme of the present embodiment, terminal broadcasting Tong Bu with the wearable device connected matchmaker more than first During volume data, mark according to the vibration in the first multi-medium data, send to wearable device Vibration instruction, so that wearable device can vibrate, it is achieved the output of vibration signal, with existing The technical scheme that can only export multi-medium data in technology is compared, and improves wearable device output signal Diversity.

Embodiment five

Fig. 6 is the schematic diagram controlling device embodiment one of the wearable device of the present invention, as shown in Figure 6, The control device of the wearable device of the present embodiment, specifically can include detection module 61 and sending module 62。

Detection module 61, at terminal broadcasting Tong Bu with the wearable device connected the first multimedia number During according to, the vibration in the first multi-medium data is marked and detects；

Sending module 62, if for vibration mark being detected in the first multi-medium data, setting to wearable Preparation send vibration instruction, in order to wearable device vibrates according to vibration instruction.

Vibration instruction comprises at least one in vibration beginning and ending time, vibration number and oscillatory type information.

The control device of the wearable device of the present embodiment, controls wearable by using above-mentioned module to realize The realization mechanism of the control method of the wearable device of the realization mechanism of equipment and above-mentioned embodiment illustrated in fig. 1 Identical, it is referred to the record of above-mentioned embodiment illustrated in fig. 1 in detail, does not repeats them here.

Embodiment six

Fig. 7 is the schematic diagram of the embodiment two controlling device of the wearable device of the present invention, the present embodiment Wearable device control device on the basis of embodiment one as shown in Figure 6, the most detailed Carefully introduce technical scheme.As it is shown in fig. 7, the control dress of the wearable device of the present embodiment Put, farther include:

Detection module 61, specifically for:

Extract the header file of the first multi-medium data；

Whether detection header file carries vibration mark.

Further, the device described in the present embodiment also includes:

Module 63 is set, for arranging vibration mark in header file；

First coding module 64, for being compressed coding, to obtain by the second multi-medium data and header file Obtain the first multi-medium data.

The control device of the wearable device of the present embodiment, controls wearable by using above-mentioned module to realize The realization mechanism of the control method of the wearable device of the realization mechanism of equipment and above-mentioned embodiment illustrated in fig. 3 Identical, it is referred to the record of above-mentioned embodiment illustrated in fig. 3 in detail, does not repeats them here.

Embodiment seven

Fig. 8 is the schematic diagram of the embodiment three controlling device of the wearable device of the present invention, the present embodiment Wearable device control device on the basis of embodiment one as shown in Figure 6, the most detailed Carefully introduce technical scheme.As shown in Figure 8, the control dress of the wearable device of the present embodiment Put, farther include:

Decoder module 65, for being decoded the voice-grade channel of the first multi-medium data, obtains vibration mark Note.

Further, the device described in the present embodiment, also include:

Creation module 66, is used for being that the first multi-medium data creates voice-grade channel, arranges in voice-grade channel Vibration mark；

Second coding module 67, encodes voice-grade channel and the second multi-medium data, to obtain first Multi-medium data.

Further, vibration instruction comprises in vibration beginning and ending time, vibration number and oscillatory type information extremely Few one.

The control device of the wearable device of the present embodiment, controls wearable by using above-mentioned module to realize The realization mechanism of the control method of the wearable device of the realization mechanism of equipment and above-mentioned embodiment illustrated in fig. 4 Identical, it is referred to the record of above-mentioned embodiment illustrated in fig. 4 in detail, does not repeats them here.

Embodiment eight

Fig. 9 is the schematic diagram controlling device embodiment four of the wearable device of the present invention, as it is shown in figure 9, The control device of the wearable device of the present embodiment, specifically can include receiver module 91 and vibration module 92。

Receiver module 91, receives the vibration instruction that the terminal connected sends for wearable device；Wherein, Vibration is designated as during wearable device broadcasting Tong Bu with terminal the first multi-medium data, and terminal exists Send when first multi-medium data detects vibration mark；

Vibration module 92, vibrates according to vibration instruction for wearable device.

Further, vibration module 92, specifically for:

The processor of wearable device controls at least one vibrating motor according to vibration instruction and vibrates.

Further, vibration instruction comprises in vibration beginning and ending time, vibration number and oscillatory type information extremely Few one.

The control device of the wearable device of the present embodiment, controls wearable by using above-mentioned module to realize The realization mechanism of the control method of the wearable device of the realization mechanism of equipment and above-mentioned embodiment illustrated in fig. 5 Identical, it is referred to the record of above-mentioned embodiment illustrated in fig. 5 in detail, does not repeats them here.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, rather than right It limits；Although the present invention being described in detail with reference to foregoing embodiments, this area common Skilled artisans appreciate that the technical scheme described in foregoing embodiments still can be modified by it, Or the most some or all of technical characteristic is carried out equivalent；And these amendments or replacement, and The essence not making appropriate technical solution departs from the scope of various embodiments of the present invention technical scheme.

Claims (18)

1. the control method of a wearable device, it is characterised in that including:

During terminal broadcasting Tong Bu with the wearable device connected the first multi-medium data, to institute State the mark of the vibration in the first multi-medium data to detect；

If described vibration mark being detected in described first multi-medium data, send out to described wearable device Send vibration instruction, in order to described wearable device vibrates according to described vibration instruction.

Method the most according to claim 1, it is characterised in that in described first multi-medium data Vibration mark detect, including:

Extract the header file of described first multi-medium data；

Detect and whether described header file carries described vibration mark.

Method the most according to claim 2, it is characterised in that in described first multi-medium data Vibration mark detect before, including:

Described vibration mark is set in described header file；

Second multi-medium data and described header file are compressed coding, to obtain described first multimedia Data.

Method the most according to claim 1, it is characterised in that in described first multi-medium data Vibration mark detects, including:

The voice-grade channel of described first multi-medium data is decoded, obtains described vibration mark.

Method the most according to claim 4, it is characterised in that to shaking in described multi-medium data Before dynamic mark detects, including:

It is that the first multi-medium data creates voice-grade channel, described voice-grade channel arranges described vibration mark；

Described voice-grade channel is encoded with described second multi-medium data, to obtain described matchmaker more than first Volume data.

6. according to described method arbitrary in claim 1 to 5, it is characterised in that

Described vibration instruction comprises at least one in vibration beginning and ending time, vibration number and oscillatory type information.

7. the control method of a wearable device, it is characterised in that including:

Receive the vibration instruction that the terminal connected sends；Wherein, described vibration is designated as wearing described During equipment of wearing broadcasting Tong Bu with described terminal the first multi-medium data, described terminal is described first Send when multi-medium data detects vibration mark；

Vibrate according to described vibration instruction.

Method the most according to claim 7, it is characterised in that described vibration instruction comprises to be vibrated Only in time, vibration number and oscillatory type information at least one.

9. according to the method described in claim 7 or 8, it is characterised in that according to described vibration indicate into Row vibration, including:

Control at least one vibrating motor according to described vibration instruction to vibrate.

10. the control device of a wearable device, it is characterised in that including:

Detection module, at terminal broadcasting Tong Bu with the wearable device connected the first multi-medium data During, the vibration in described first multi-medium data is marked and detects；

Sending module, if for detecting described vibration mark, to institute in described first multi-medium data State wearable device and send vibration instruction, in order to described wearable device is carried out according to described vibration instruction Vibration.

11. devices according to claim 10, it is characterised in that described detection module, specifically use In:

Extract the header file of described first multi-medium data；

Detect and whether described header file carries described vibration mark.

12. devices according to claim 11, it is characterised in that described device also includes:

Module is set, for arranging described vibration mark in described header file；

First coding module, for the second multi-medium data and described header file being compressed coding, with Obtain described first multi-medium data.

13. devices according to claim 10, it is characterised in that described device also includes:

Decoder module, for being decoded the voice-grade channel of described first multi-medium data, obtains described Vibration mark.

14. devices according to claim 13, it is characterised in that described device also includes:

Creation module, is used for being that the first multi-medium data creates voice-grade channel, sets in described voice-grade channel Put described vibration mark；

Second coding module, encodes described voice-grade channel with described second multi-medium data, to obtain Obtain described first multi-medium data.

15. according to described device arbitrary in claim 10 to 14, it is characterised in that

Described vibration instruction comprises at least one in vibration beginning and ending time, vibration number and oscillatory type information.

The control device of 16. 1 kinds of wearable devices, it is characterised in that including:

Receiver module, for receiving the vibration instruction that the terminal connected sends；Wherein, described vibration refers to It is shown as during wearable device broadcasting Tong Bu with described terminal the first multi-medium data, described terminal Send when vibration mark being detected in described first multi-medium data；

Vibration module, for vibrating according to described vibration instruction.

17. devices according to claim 16, it is characterised in that described vibration instruction comprises vibration In beginning and ending time, vibration number and oscillatory type information at least one.

18. according to the device described in claim 16 or 17, it is characterised in that described vibration module, Specifically for:

Control at least one vibrating motor according to described vibration instruction to vibrate.