CN105228041A - A kind of information processing method and audio output device - Google Patents

Abstract

The invention discloses a kind of information processing method and audio output device, comprising: pass the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects; Pass the second parameter that the second transducer be arranged on described first voice output unit detects; When described first parameter meets pre-conditioned, determine that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Described first sound channel is corresponding with described second parameter; Export first sound channel signal corresponding with described first sound channel by described first voice output unit, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit.The application provides said method, in order to solve the technical problem automatically can not determining the sound channel of audio output device in prior art.

Description

A kind of information processing method and audio output device

Technical field

The present invention relates to electronic technology field, particularly a kind of information processing method and audio output device.

Background technology

In prior art, earphone is a kind of conventional audio output device, and by being connected on mobile phone or on panel computer by earphone, when playing music on mobile phone or on panel computer, user just can have been listened to the music by earphone.

In prior art, earphone has two earplugs, a left earplug, a right earplug, corresponding, when left earplug is placed on left ear by user, right earplug is placed on auris dextra, and when a music has the voice signal of two sound channels, as: L channel voice signal and right channel sound signal, L channel voice signal will be play by left earplug, play right channel sound signal by right earplug, and then user just can hear L channel voice signal by left ear, hears right channel sound signal by auris dextra.

Present inventor is in the process realizing technical scheme in the embodiment of the present application, find to reach stereosonic sound effect, major part audio output device adopt dual track mode carry out voice output, two earplugs arrange the sound channel of acquiescence respectively, and on two earplugs of earphone, mark left and right, to point out the correct wearing mode of user's earplug.Namely, in prior art, need user to identify the wearing position of earplug, and automatically can not determine the sound channel that each earplug is corresponding, and according to the sound channel output sound signal of correspondence, so be not easy to use.

Summary of the invention

The invention provides a kind of audio output device, in order to solve in prior art the technical problem of the sound channel corresponding to two voice output units automatically can not determining audio output device.

For solving the problems of the technologies described above, the embodiment of the present application provides a kind of information processing method on the one hand, and described method comprises:

Pass the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects;

Pass the second parameter that the second transducer be arranged on described first voice output unit detects;

When described first parameter meets pre-conditioned, determine that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

Export first sound channel signal corresponding with described first sound channel by described first voice output unit, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit.

Optionally, described first sensor is proximity transducer or optical sensor, described in pass the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects, comprising:

Obtain the distance value detected by described proximity transducer; Or the present intensity value obtained by described light sensors;

Wherein, when described distance value is less than predeterminable range value or described present intensity value is less than predetermined luminance value, characterizes described first parameter and meet described pre-conditioned.

Optionally, described first sensor comprises the first sub-transducer and the second sub-transducer, the sound output of described first sub-sensor setting on described first voice output unit, described second sub-sensor setting is in the opposite end of described sound output, the first parameter that the described first sensor passed on the first voice output unit of being arranged on audio output device detects, comprising:

Acquisition first subparameter is detected by described first sub-transducer;

Acquisition second subparameter is detected by described second sub-transducer; Wherein, when described first subparameter and the first comparative result of threshold value are different with the second comparative result of described second subparameter and described threshold value, characterize described first parameter and meet described pre-conditioned.

Optionally, described second transducer is acceleration transducer, the setting position of described acceleration transducer on described first voice output unit meets following condition: the positive direction of the first axle of described acceleration transducer is gravity direction, and the positive direction of the second axle of described acceleration transducer is the direction that described sound output is pointed in the opposite end of the sound output of described first voice output unit;

Described the second parameter passing the second transducer be arranged on described first voice output unit and detect, comprising:

The direction of acceleration direction on the 3rd axle of described first voice output unit and the direction on described second axle is detected by described acceleration transducer; Described 3rd axle is vertical with described second axle with described first axle respectively;

Accordingly, describedly determine that the sound channel of described first voice output unit is the first sound channel according to described second parameter, and the sound channel of the second voice output unit determining described audio output device is second sound channel, comprising:

Described first sound channel and described second sound channel is determined according to the direction of described acceleration direction on described 3rd axle and the direction on described second axle.

Optionally, the positive direction of the 3rd axle of described acceleration transducer is: when described first voice output unit is worn on left ear, the direction of human eye sight;

Describedly determine described first sound channel and described second sound channel according to the direction of described acceleration direction on the 3rd axle and the direction on described second axle, comprising:

When described acceleration direction is the positive direction of the negative direction of described 3rd axle and described second axle, determine that L channel is described first sound channel and determine that R channel is described second sound channel;

When described acceleration direction is the positive direction of the positive direction of described 3rd axle and described second axle, determine that described R channel is described first sound channel and determine that described L channel is described second sound channel.

Optionally, after the first parameter that the described first sensor passed on the first voice output unit of being arranged on audio output device detects, described method also comprises:

Judge whether described first parameter meets described pre-conditioned;

Described the second parameter passing the second transducer be arranged on described first voice output unit and detect, comprising:

Described first parameter meet described pre-conditioned time, obtain by described second transducer detect described second parameter before current time in Preset Time.

Optionally, described pass be arranged on described first voice output unit second transducer detect the second parameter after, described method also comprises:

Judge whether the sound channel can determining described first voice output unit according to described second parameter;

When the sound channel of described first voice output unit can be determined according to described second parameter, judge whether described first parameter meets described pre-conditioned.

Optionally, described first sound channel signal corresponding with described first sound channel by described first voice output unit output, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit, comprising:

Described first sound channel signal that the electronic equipment controlling to be connected with described audio output device exports is exported by described first voice output unit; And

The described second sound channel signal controlling the output of described electronic equipment is exported by described second voice output unit.

Optionally, described first sound channel signal corresponding with described first sound channel by described first voice output unit output, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit, comprising:

The electronic equipment be connected with described audio output device is controlled described first sound channel signal and is exported by described first voice output unit;

Described electronic equipment is controlled described second sound channel signal and is exported by described second voice output unit.

Optionally, sound channel is preset when described first voice output unit has first, and described second voice output unit have second preset sound channel time, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, described method also comprises:

Exported by described first voice output unit and preset the first default sound channel signal corresponding to sound channel with described first; And

Exported by described second voice output unit and preset the second default sound channel signal corresponding to sound channel with described second;

Wherein, when the described first default sound channel is described first sound channel, the described second default sound channel is described second sound channel; When the described second default sound channel is described second sound channel, the described second default sound channel is described first sound channel.

Optionally, when described first voice output unit and described second voice output unit do not have default sound channel, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, described method also comprises:

Control described audio output device and do not export described first sound channel signal and described second sound channel signal.

On the other hand, the embodiment of the present application also provides a kind of audio output device, comprising:

First voice output unit;

Second voice output unit;

First sensor, is arranged on described first voice output unit, for detecting the first parameter;

Second transducer, is arranged on described first voice output unit, for detecting the second parameter; Wherein, when described first parameter meets pre-conditioned, described second parameter is used to determine that the sound channel of described first voice output unit is the first sound channel, and determines that the sound channel of described second voice output unit is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

Described first voice output unit is for exporting first sound channel signal corresponding with described first sound channel;

Described second voice output unit is for exporting the second sound channel signal corresponding with described second sound channel.

Optionally, described first sensor is proximity transducer or optical sensor, and described proximity transducer is for detecting current distance value; Or described optical sensor is for detecting current brightness value; Wherein, when described distance value is less than predeterminable range value or described brightness value is less than predetermined luminance value, characterizes described first parameter and meet described pre-conditioned.

Optionally, described first sensor comprises the first sub-transducer and the second sub-transducer, the sound output of described first sub-sensor setting on described first voice output unit, described second sub-sensor setting in the opposite end of described sound output,

Described first sub-transducer is for detecting the first subparameter;

Described second sub-transducer is for detecting the second subparameter; Wherein, when described first subparameter and the first comparative result of threshold value are different with the second comparative result of described second subparameter and described threshold value, characterize described first parameter and meet described pre-conditioned.

Optionally, described second transducer is acceleration transducer, the setting position of described acceleration transducer on described first voice output unit meets following condition: the positive direction of the first axle of described acceleration transducer is gravity direction, and the positive direction of the second axle of described acceleration transducer is the direction that described sound output is pointed in the opposite end of the sound output of described first voice output unit;

Described acceleration transducer is for detecting the direction of acceleration direction on the 3rd axle of described first voice output unit and the direction on described second axle as described second parameter; Described 3rd axle is vertical with described second axle with described first axle respectively.

Optionally, the positive direction of the 3rd axle of described acceleration transducer is: when described first voice output unit is worn on left ear, the direction of human eye sight;

Wherein, when described acceleration direction is the positive direction of the negative direction of described 3rd axle and described second axle, L channel is described first sound channel and determines that R channel is described second sound channel;

When described acceleration direction is the positive direction of the positive direction of described 3rd axle and described second axle, described R channel is described first sound channel and determines that described L channel is described second sound channel.

On the other hand, the embodiment of the present application also provides a kind of electronic equipment, comprising:

Connecting interface, is connected to described electronic equipment for aforementioned sound output equipment;

Receiver, for obtaining described first parameter of described audio output device transmission and described second parameter;

Processor, for when described first parameter meets pre-conditioned, determines that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and determines that the sound channel of described second voice output unit is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel; Control described first voice output unit and export first sound channel signal corresponding with described first sound channel, and control the described second voice output unit output second sound channel signal corresponding with described second sound channel.

On the other hand, the embodiment of the present application also provides another kind of electronic equipment, comprising:

First obtains module: the first parameter that the first sensor for passing on the first voice output unit be arranged on audio output device detects;

Second obtains module: for passing the second parameter that the second transducer be arranged on described first voice output unit detects;

First determination module: for when described first parameter meets pre-conditioned, the sound channel determining described first voice output unit according to described second parameter is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

First control module: export first sound channel signal corresponding with described first sound channel for controlling described first voice output unit, and control the described second voice output unit output second sound channel signal corresponding with described second sound channel.

By the embodiment of in the above-described embodiment in the present invention or multiple embodiment, at least following technique effect can be realized:

The first voice output unit on audio output device is arranged first sensor and the second transducer, obtain the first parameter of first sensor detection and the second parameter of the second transducer detection.When the first parameter meets pre-conditioned, determine that according to the second parameter the sound channel of the first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining audio output device is second sound channel.Export first sound channel signal corresponding with the first sound channel by the first voice output unit, and export the second sound channel signal corresponding with second sound channel by the second voice output unit.In the embodiment of the present application, only need to arrange transducer on the first voice output unit, the sound channel corresponding to the first voice output unit and the second voice output unit can be determined according to the second parameter of the second transducer acquisition, and then, audio output device output channels signal is controlled according to the sound channel determined, as can be seen here, by the technical scheme of the application, reach the sound channel corresponding to each voice output unit automatically determining audio output device, and then the technique effect of the output of control track signal.

Accompanying drawing explanation

The flow chart of a kind of information processing method that Fig. 1 provides for the embodiment of the present application one;

The structural representation of a kind of voice output unit that Fig. 2 provides for the embodiment of the present application;

Fig. 3 is the front view of voice output unit in Fig. 2;

Fig. 4 is the front view of voice output unit in Fig. 2;

Fig. 5 a is the right view of voice output unit in Fig. 2;

Fig. 5 b is the vertical view of voice output unit in Fig. 2;

Fig. 6 wears the process schematic to left ear for a kind of voice output unit that the embodiment of the present application provides;

Fig. 7 wears the process schematic to auris dextra for a kind of voice output unit that the embodiment of the present application provides;

The structure chart of a kind of audio output device that Fig. 8 provides for the embodiment of the present application two;

The structure chart of a kind of electronic equipment that Fig. 9 provides for the embodiment of the present application three;

The structure chart of a kind of electronic equipment that Figure 10 provides for the embodiment of the present application four.

Embodiment

The embodiment of the present application provides a kind of information processing method and audio output device, in order to solve the technical problem automatically can not determining the sound channel of audio output device in prior art.

Technical scheme in the embodiment of the present application is solve above-mentioned technical problem, and general thought is as follows:

The first voice output unit on audio output device is arranged first sensor and the second transducer, obtain the first parameter of first sensor detection and the second parameter of the second transducer detection.When the first parameter meets pre-conditioned, determine that according to the second parameter the sound channel of the first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining audio output device is second sound channel.Export first sound channel signal corresponding with the first sound channel by the first voice output unit, and export the second sound channel signal corresponding with second sound channel by the second voice output unit.In the embodiment of the present application, only need to arrange transducer on the first voice output unit, the sound channel corresponding to the first voice output unit and the second voice output unit can be determined according to the second parameter of the second transducer acquisition, and then, audio output device output channels signal is controlled, as can be seen here, by the technical scheme of the application according to the sound channel determined, reach audio output device and automatically determine corresponding sound channel, and then the technique effect of the output of control track signal.

In addition, term "and/or" herein, being only a kind of incidence relation describing affiliated partner, can there are three kinds of relations in expression, and such as, A and/or B, can represent: individualism A, exists A and B simultaneously, these three kinds of situations of individualism B.In addition, character "/" herein, when not illustrating, general expression forward-backward correlation is to the relation liking a kind of "or".

In order to better understand technique scheme, below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, the specific features being to be understood that in the embodiment of the present application and embodiment is the detailed description to technical solution of the present invention, instead of the restriction to technical solution of the present invention, when not conflicting, the technical characteristic in the embodiment of the present application and embodiment can combine mutually.

Embodiment one

Please refer to Fig. 1, the application provides a kind of information processing method, can be applied to an audio output device, also can be applied to the electronic equipment be connected with audio output device.In the embodiment of the present invention, audio output device can be earphone, electronic equipment can be the different electronic equipment such as smart mobile phone, intelligent watch, panel computer, notebook computer, for audio output device and electronic equipment specifically which type of equipment the present invention do not limit.

As shown in Figure 1, the main flow of this information processing method is described below:

Step 101: pass the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects;

Step 102: pass the second parameter that the second transducer be arranged on described first voice output unit detects;

Step 103: when described first parameter meets pre-conditioned, determines that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

Step 104: export first sound channel signal corresponding with described first sound channel by described first voice output unit, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit.

Wherein, the first parameter is for judging whether voice output unit is worn on ear.Second parameter can reflect that the first voice output unit is worn on left ear or on auris dextra.

Concrete, according to the set-up mode of transducer or kind different, step 101 can have but be not limited to following two kinds of possible implementations.

The first possible implementation:

First sensor is proximity transducer or optical sensor, and specifically, step 101 comprises: obtain the distance value detected by proximity transducer, or obtains the present intensity value by light sensors.Wherein, when distance value is less than predeterminable range value or present intensity value is less than predetermined luminance value, characterizes the first parameter and meet pre-conditioned.In the embodiment of the present application, first parameter that can be detected by first sensor judges whether user has been worn on ear by the first voice output unit, namely determines whether user will use audio output device.Certainly; in actual applications; the type of first sensor is not limited in two kinds that enumerate in the embodiment of the present application; those skilled in the art can select according to demand, judge whether user uses the transducer of the technique effect of audio output device all in the protection range of the application as long as can reach.

When first sensor is proximity transducer, it can be the one in the polytypes such as capacitive proximity sensor, inductive proximity sensor, laser proximity transducer, ultrasonic wave proximity transducer, infrared ray proximity transducer.The distance between the first voice output unit and human body can be obtained by proximity transducer, when after acquisition distance value, need itself and predeterminable range value to compare.Wherein, when the distance value that proximity transducer detects is less than predeterminable range value, then represent that the distance between the first voice output unit and human body is less, represent that user will use audio output device.

For example, as shown in Figure 2, the sound output 201 of the first voice output unit is provided with proximity transducer, as capacitive proximity sensor.When the first voice output unit is worn into ear by user, capacitive proximity sensor can detect the current distance vanishing between the outward flange of sound output 201 and human body by the change of capacitance.When determining that sound output 201 and human body are zero, then can determine that the first voice output unit is worn into ear by user.

When first sensor is optical sensor, optical sensor can be illuminance sensor, and its inside is provided with photovoltaic detector, also has higher sensitivity when the light signal that light sensors is more weak.In the embodiment of the present application, the brightness value of light in the first voice output unit surrounding environment can be obtained by optical sensor, after this brightness value of acquisition, itself and predetermined luminance value are compared, when the brightness value of light sensors is less than predetermined luminance, then represent that the intensity of illumination in the first voice output unit surrounding environment is very low, represent that the first voice output unit is worn into ear by user, can determine that user will use audio output device thus.

By arranging as the first sensor such as proximity transducer or optical sensor obtains the first parameter on the first voice output unit, directly determine whether user uses audio output device according to the first parameter, the structure that this technical scheme makes voice output unit is comparatively simple, judges whether user uses during audio output device and have easy realization, technique effect simple to operation.

The implementation that the second is possible

First sensor comprises the first sub-transducer and the second sub-transducer, and as shown in Figure 2, sound output 201, the second sub-sensor setting of the first sub-sensor setting on the first voice output unit is in the opposite end 202 of sound output.Specifically, step 101 comprises: detect acquisition first subparameter by the first sub-transducer, detects acquisition second subparameter by the second sub-transducer.Wherein, when the first subparameter and the first comparative result of threshold value are different with the second comparative result of the second subparameter and threshold value, characterize the first parameter and meet pre-conditioned.

In actual applications, in the first audio output device is held in the hand by user, or when being placed in pocket, if only use a transducer to cause misoperation.In the embodiment of the present application, two positions of the first voice output unit arrange the first sub-transducer and the second sub-transducer respectively, obtain corresponding first subparameter and the second subparameter respectively, and then judge whether user has been worn over the first voice output unit on ear.By the technical program, can improve the accuracy of judged result, the misoperation avoiding the judgement of mistake to cause, reaches and accurately judges whether user uses the technique effect of audio output device.

Concrete, first sub-transducer and the second sub-transducer can be proximity transducer or optical sensor, certainly, in actual applications, the type of the first sub-transducer and the second sub-transducer is not limited in two kinds that enumerate in the embodiment of the present application, and those skilled in the art can select according to demand.

Concrete, as shown in Figure 2, the first sub-sensor setting at the sound output 201 of the first voice output unit, as the speaker of the earplug of earphone.Second sub-sensor setting in the opposite end 202 of sound output, as the back side of earphone speaker, the position be connected with headphones sound output line.When the first voice output unit is worn on ear by user, sound output 201 has been filled in ear, and the opposite end 202 of sound output then can not be filled in ear.Therefore, when user uses audio output device, the numerical value that first sub-transducer obtains the second subparameter of the first subparameter and the second sub-transducer acquisition is different, so the first subparameter is different from the first comparative result of threshold value and the second comparative result of the second subparameter and threshold value.

For example, the first sub-transducer and the second sub-transducer are optical sensor, and the first subparameter of acquisition and the second subparameter are respectively the first brightness value and the second brightness value.First brightness value characterizes the brightness of sound output 201, and the second brightness value characterizes the brightness of the opposite end 202 of sound output.Wherein, when the first brightness value is less than threshold value, and when the second brightness value is greater than threshold value, characterize the first parameter and meet pre-conditioned.Because when user puts on the first voice output unit, sound output 201 has been filled in ear, and the first brightness value that the first sub-transducer obtains is less, will be less than threshold value.The opposite end 202 of sound output then can not be filled in ear, and the second brightness value that the second sub-transducer obtains is comparatively large, will be greater than threshold value.

Be described above the execution mode of two kinds of possible acquisition first parameters, in practice, other execution mode can also be adopted to obtain the first parameter, as long as can determine whether user has worn the first voice output unit in ear based on the first parameter.Next the possible implementation of step 102 will be described.

Specifically, second transducer is acceleration transducer, the setting position of acceleration transducer on the first voice output unit meets following condition: the positive direction of the first axle of acceleration transducer is gravity direction, and the positive direction of the second axle of acceleration transducer is the direction that sound output 201 is pointed in the opposite end 202 of the sound output of the first voice output unit.As shown in Figure 3, the positive direction of the first axle is as shown by arrows, identical with gravity direction, vertically downward.As shown by arrows, the direction of sound output 201 is pointed in the opposite end 202 for sound output to the positive direction of the second axle.3rd axle of acceleration transducer is vertical with the second axle with the first axle respectively.

In actual applications, those skilled in the art can select the type of the second transducer according to demand, if can determine the first voice output unit wear the transducer of ear all in the protection range of the application.In addition, in the present embodiment by the positive direction of the first axle and or the positive direction of the second axle be defined as the direction shown in Fig. 3, and in practice, those skilled in the art can determine the positive direction of the first different axles and/or the positive direction of the second axle, the application does not limit this.

Specifically, when the second transducer is acceleration transducer, step 102 comprises: detected the direction of acceleration direction on the 3rd axle of the first voice output unit and the direction on the second axle by acceleration transducer.

Accordingly, step 103 comprises: determine the first sound channel and second sound channel according to the direction of acceleration direction on the 3rd axle and the direction on the second axle.Below that the facilities of the positive direction according to the 3rd axle is different, describe the execution mode of step 103 in detail.

The first, the positive direction of the 3rd axle of definition acceleration transducer is: when the first voice output unit is worn on left ear, the direction of human eye sight.As shown in Figure 4, wherein, the left ear that the ear in figure is behaved, the first voice output unit is front view.The positive direction of three reference axis is as shown in the arrow in front view.Wherein, the 3rd axle is the direction of human eye sight, in the diagram, is the direction that vertical paper is outside.In order to the direction of clearer description reference axis, can the vertical view of the first voice output unit in the right view of the first voice output unit in reference diagram 5a and Fig. 5 b, wherein, the positive direction of the second axle of right view is vertical paper direction inwards, and the positive direction of the first axle of vertical view is vertical paper direction inwards.

Determine the positive direction of three-dimensional cartesian coordinate system, can determining that the first voice output unit has been placed into left ear or auris dextra by the acceleration direction of the first sound transmission unit, namely can determining that the first voice output unit is for exporting left channel signals or for exporting right-channel signals according to the acceleration direction of the first sound transmission unit.

In that case, specifically, step 103 comprises: when acceleration direction is the positive direction of the negative direction of the 3rd axle and the second axle, determine that L channel is the first sound channel and determine that R channel is second sound channel.When acceleration direction is the positive direction of the positive direction of the 3rd axle and the second axle, determine that R channel is the first sound channel and determine that L channel is second sound channel.

As shown in Figure 6, when user wears the first voice output unit into left ear, within the short time filling in left ear, as indicated by the arrows in fig. 6, the first voice output unit moves to left ear by the left front of left ear.The acceleration direction of the first voice output unit can be determined according to the positive direction of three axles of three-dimensional cartesian coordinate system, in figure 6 the arrow of the moving direction of the first voice output unit and three-dimensional cartesian coordinate system are compared known, the acceleration direction of the first voice output unit is negative direction on the 3rd axle, and is positive direction on the second axle.Under this acceleration direction, the first voice output unit has been worn on left ear, so can determine that L channel is the first sound channel of the first voice output unit, accordingly, determines that R channel is the second sound channel of the second voice output unit.

As shown in Figure 7, user wears the first voice output unit into auris dextra, now, the direction of earphone is turned over, compared with Fig. 6, the positive direction of three axles of three-dimensional cartesian coordinate system does not change for earphone, but in three dimensions, the positive direction of the 3rd axle of three-dimensional cartesian coordinate system has carried out the upset of 180 degree in the horizontal plane.Fill in the short time of auris dextra user by the first voice output unit, as depicted by the arrows in figure 7, the first voice output unit moves to auris dextra by the right front of auris dextra.Compare known by the arrow of the moving direction of the first voice output unit and three-dimensional cartesian coordinate system in the figure 7, the acceleration direction of the first voice output unit is positive direction on the 3rd axle, and is positive direction on the second axle.Under this acceleration direction, the first voice output unit has been worn on auris dextra, so can determine that R channel is the first sound channel of the first voice output unit, accordingly, determines that L channel is the second sound channel of the second voice output unit.

In the technical scheme of the application, the positive direction of the 3rd axle, except the first definition mode, also has other 3 kinds of definition modes, that is: the second, when the first voice output unit is worn on left ear, and the opposite direction of human eye sight; The third, is when the first voice output unit is worn on auris dextra, the direction of human eye sight; 4th kind, when the first voice output unit is worn on auris dextra, the opposite direction of human eye sight.Different according to the definition mode of the positive direction of the 3rd axle, determine that the first sound channel and second sound channel are also different according to the direction of acceleration direction on the 3rd axle and the direction on the second axle.

For example, in the second, positive direction on 3rd axle is that the first voice output unit is when being worn on left ear, during the opposite direction of human eye sight, the first sound channel and second sound channel is determined according to the direction of acceleration direction on the 3rd axle and the direction on the second axle, specifically, when acceleration direction is the positive direction of the positive direction of the 3rd axle and the second axle, determine that L channel is the first sound channel and determine that R channel is second sound channel.When acceleration direction is the positive direction of the positive negative sense of the 3rd axle and the second axle, determine that R channel is the first sound channel and determine that L channel is second sound channel.

In practice, the order of step 101 and step 102 can be exchanged, or both can perform simultaneously.

Concrete, after step 101, before step 103, the method also comprises: judge whether the first parameter meets pre-conditioned.Accordingly, step 102 comprises: when the first parameter meets pre-conditioned, obtains the second parameter before current time in Preset Time detected by the second transducer.

Specifically, first sensor and the second transducer be real-time detected parameters information simultaneously, first need to determine that the first parameter that first sensor detects meets pre-conditioned, according to aforementioned description, when the first parameter meets pre-conditioned, can determine that the first voice output unit has been worn on ear by user.When the first parameter meets pre-conditioned, obtain the second parameter before current time in Preset Time detected by the second transducer, the second parameter namely obtained is the second parameter that user brings in the process of the first voice output unit.For example, after determining that according to optical sensor earplug has been worn ear by user, obtain the acceleration direction in Preset Time before current time, as the acceleration direction in 3 before current time second, determine the sound channel of the first voice output unit further according to acceleration direction.

Concrete, then in another embodiment, after step 102, before step 103, the method also comprises: judge whether the sound channel can determining the first voice output unit according to the second parameter; When the sound channel of the first voice output unit can be determined according to the second parameter, judge whether the first parameter meets pre-conditioned.

Specifically, detect the second parameter in real time by the second transducer, judge whether according to the second parameter the sound channel can determining the first voice output unit according to the second parameter.Such as when obtaining the acceleration direction of the first voice output unit according to acceleration transducer, in the three-dimensional cartesian coordinate system of aforementioned definitions, the combination of four kinds of positive directions can be had to determine, and which ear the first voice output unit has been worn on, so the second parameter be these four kinds combination in a kind of time, namely the sound channel of the first voice output unit can be determined, one in these four kinds combinations, just can not determine the sound channel of the first voice output unit according to the second parameter.When the sound channel of the first voice output unit can be determined according to the second parameter, judge whether the first parameter meets pre-conditioned, namely judge whether user is worn on the first voice output unit on ear.When the first voice output unit has been worn on ear by user, this has just performed step 103.

After determining the sound channel of the first voice output unit and the second voice output unit by execution step 103, following execution step 104, export first sound channel signal corresponding with the first sound channel by the first voice output unit, and export the second sound channel signal corresponding with second sound channel by the second voice output unit.Wherein, according to the difference of the equipment of control output channels signal, the output of control track signal has following two kinds of modes.

First kind of way

Step 104 comprises: the first sound channel signal that the electronic equipment controlling to be connected with audio output device exports is exported by the first voice output unit.And the second sound channel signal controlling electronic equipment output is exported by the second voice output unit.

For example, audio output device is intelligent earphone, and electronic equipment is smart mobile phone, smart mobile phone comprises a connecting interface, and the plug of intelligent earphone is connected with connecting interface.After intelligent earphone determines the sound channel of the first voice output unit and the second voice output unit according to the second parameter, direct control smart mobile phone exports the first sound channel signal at the first voice output unit, exports second sound channel signal at the second voice output unit.Namely the output of the sound channel signal of connected electronic equipment is controlled by audio output device.

Further, when user in use, after the first voice output unit and the second voice output unit being exchanged, intelligent earphone determines according to step 101 to step 103 sound channel that each voice output unit is corresponding, and carries out sound channel switching.In that case, audio output device oneself can carry out sound channel switching.This action is transparent for electronic equipment, still can export according to original sound channel, and just in intelligent earphone, sound channel signal has been switched to another voice output unit and has exported.

In the embodiment of the present application, common audio output device is carried out intellectuality, not only can judge that user places it in left ear or auris dextra, the sound channel corresponding to voice output unit can also be determined, and then control connected electronic equipment and export corresponding sound channel signal, or self carries out sound channel switching, add the function of audio output device, and improve corresponding performance.

In the present embodiment, the method is applied to audio output device, and namely step 101 is audio output device to the executive agent of step 104.

The second way

Step 104 comprises: the electronic equipment be connected with described audio output device is controlled the first sound channel signal and exported by the first voice output unit; Electronic equipment is controlled second sound channel signal and is exported by the second voice output unit.

Concrete, after step 103, the corresponding relation of the first corresponding for the first voice output unit sound channel and second sound channel corresponding to the second voice output unit is sent to electronic equipment by audio output device.After electronic equipment receives this corresponding relation, control the first sound channel signal and exported by the first voice output unit, second sound channel signal is exported by the second voice output unit.

In the present embodiment, step 101 is audio output device to the executive agent of step 103, and the executive agent of step 104 is the electronic equipment be connected with audio output device.

In practice, may be also step 101 be the electronic equipment be connected with voice output unit to the executive agent of step 104.Specifically, the first parameter and the second parameter are sent to electronic equipment by audio output device, and electronic equipment carries out the process to parameter, and pass through the sound channel of the second parameter determination voice output unit.When after the sound channel determining voice output unit, electronic equipment and then control voice output unit export corresponding sound channel signal.

Optionally, after audio output device to be connected to the electronic equipment played sound by user, before step 103, whether have first preset two kinds of situations of sound channel according to the first voice output unit, audio output device output channels signal has following two kinds of possible implementations.

The first possible implementation:

Sound channel is preset when the first voice output unit has first, and when the second voice output unit has the second default sound channel, wherein, when the first default sound channel is the first sound channel, second default sound channel is second sound channel, and when the second default sound channel is second sound channel, the second default sound channel is the first sound channel.Before step 103, exported by the first voice output unit and preset the first default sound channel signal corresponding to sound channel with first.And export the second default sound channel signal corresponding to sound channel default with second by the second voice output unit.

Concrete, audio output device comprises the first voice output unit and the second voice output unit, and in the present embodiment, the first voice output unit and the second voice output unit are provided with two different default sound channels.After audio output device is connected to electronic equipment, play sound on an electronic device, before the first voice output unit is not worn ear by user, audio output device plays sound channel signal by acquiescence sound channel.

For example, audio output device is the earphone comprising two earplugs, and wherein, when the default sound channel of first earplug is set to L channel, the default sound channel of second earplug is then R channel, and namely two earplugs in default situations, are divided into left earplug and right earplug.Earphone is connected to electronic equipment, play music on an electronic device, when user does not wear earplug, play music by acquiescence sound channel, that is: export the left channel signals corresponding with L channel by left earplug, export the right-channel signals corresponding with R channel by right earplug.

In the present embodiment, when audio output device exports music by the default sound channel of acquiescence, when the first voice output unit is worn on ear by user, second parameter that can be obtained by the second transducer on the first voice output unit judges whether the first voice output unit has been placed on correct ear, namely whether correspondingly with the ear of user judge to preset sound channel, stagger the time when user wears, the first sound channel signal and the second sound channel signal of audio output device output can be switched, the first voice output unit is made to export the sound channel signal corresponding with user's ear.

The implementation that the second is possible:

When the first voice output unit and the second voice output unit do not have default sound channel, before step 103, control audio output device and do not export the first sound channel signal and second sound channel signal.

In the present embodiment, audio output device does not arrange default sound channel, after audio output device is connected to electronic equipment, when playing sound on an electronic device, and user is not when wearing the first voice output unit into ear, audio output device does not export the first sound channel signal and second sound channel signal.Because user does not use the first voice output unit, the first voice output unit and the sound channel corresponding to the second voice output unit can not be judged, so not output channels signal.When the first voice output unit is worn on ear by user, after judging according to the second parameter of the second transducer acquisition on the first voice output unit the sound channel that the first voice output unit is corresponding, audio output device is output channels signal.In the present embodiment, even if audio output device is connected on electronic equipment by user, and electronic equipment is when playing sound, before user uses audio output device, and not output channels signal.It can thus be appreciated that the audio output device not arranging default sound channel has and delays voice output, makes user not miss the technique effect of voice signal.Further, the power consumption of electronic equipment can be reduced.

Known by foregoing description, in the embodiment of the present application, only need to arrange transducer on the first voice output unit, the first parameter obtained by first sensor can determine that user uses audio output device, the sound channel corresponding to the first voice output unit and the second voice output unit can be determined according to the second parameter of the second transducer acquisition, wherein, the order obtaining the first parameter and the second parameter can be exchanged.The technical scheme of the application is applicable to the audio output device being provided with default sound channel and not arranging default sound channel simultaneously, when user uses audio output device, the first voice output unit can be controlled and export the sound channel signal corresponding with user's ear with the second voice output unit.Further, in the embodiment of the application, can by the output of voice output unit or the electronic equipment control track be connected with voice output unit signal.As can be seen here, by the technical scheme of the application, reach the sound channel automatically determined corresponding to voice output unit, and then the technique effect of the output of control track signal.

Embodiment two

Based on the inventive concept same with information processing method in the embodiment of the present application one, the embodiment of the present application provides a kind of audio output device, please refer to Fig. 8, and described audio output device comprises:

First voice output unit 801;

Second voice output unit 802;

First sensor 803, is arranged on the first voice output unit 801, for detecting the first parameter;

Second transducer 804, is arranged on the first voice output unit 801, for detecting the second parameter; Wherein, when described first parameter meets pre-conditioned, described second parameter is used to determine that the sound channel of the first voice output unit 801 is the first sound channel, and determines that the sound channel of the second voice output unit 802 is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

First voice output unit 801 is for exporting first sound channel signal corresponding with described first sound channel;

Second voice output unit 802 is for exporting the second sound channel signal corresponding with described second sound channel.

Further, described audio output device can also comprise memory, for storing the comparison threshold value of the first parameter.

Further, first sensor 803 is proximity transducer or optical sensor, and described proximity transducer is for detecting current distance value; Or described optical sensor is for detecting current brightness value; Wherein, when described distance value is less than predeterminable range value or described brightness value is less than predetermined luminance value, characterizes described first parameter and meet described pre-conditioned.

Further, first sensor 803 comprises the first sub-transducer and the second sub-transducer, the sound output of described first sub-sensor setting on the first voice output unit 801, described second sub-sensor setting in the opposite end of described sound output,

Described first sub-transducer is for detecting the first subparameter;

Described second sub-transducer is for detecting the second subparameter; Wherein, when described first subparameter and the first comparative result of threshold value are different with the second comparative result of described second subparameter and described threshold value, characterize described first parameter and meet described pre-conditioned.

Further, second transducer 804 is acceleration transducer, the setting position of described acceleration transducer on the first voice output unit 801 meets following condition: the positive direction of the first axle of described acceleration transducer is gravity direction, and the positive direction of the second axle of described acceleration transducer is the direction that described sound output is pointed in the opposite end of the sound output of the first voice output unit 801;

Described acceleration transducer is for detecting the direction of acceleration direction on the 3rd axle of the first voice output unit 801 and the direction on described second axle as described second parameter; Described 3rd axle is vertical with described second axle with described first axle respectively.

Further, the positive direction of the 3rd axle of described acceleration transducer is: when the first voice output unit 801 is worn on left ear, the direction of human eye sight;

Wherein, when described acceleration direction is the positive direction of the negative direction of described 3rd axle and described second axle, L channel is described first sound channel and determines that R channel is described second sound channel;

When described acceleration direction is the positive direction of the positive direction of described 3rd axle and described second axle, described R channel is described first sound channel and determines that described L channel is described second sound channel.

Optionally, described audio output device also comprises processor, for after obtaining the first parameter detected by first sensor 803, judges whether described first parameter meets described pre-conditioned;

Described processor also for: described first parameter meet described pre-conditioned time, determine that current time was the first moment, according to the second moment before the described very first time and preset duration determination current time; Obtain described second parameter between described second moment and described first moment detected by the second transducer 804.

Specifically, processor can be specifically general central processing unit (CPU), can be that ASIC(Application Specific Integrated Circuit) is (English: ApplicationSpecificIntegratedCircuit, being called for short: ASIC), can be one or more integrated circuits performed for control program.

Optionally, audio output device also comprises processor, for after obtaining the second parameter detected by the second transducer 804, judges whether the sound channel can determining the first voice output unit 801 according to described second parameter; When the sound channel of the first voice output unit 801 can be determined according to described second parameter, judge whether described first parameter meets described pre-conditioned.

Optionally, described audio output device also comprises processor, for when described first parameter meets pre-conditioned, determine that according to described second parameter the sound channel of the first voice output unit 801 is the first sound channel, and determine that the sound channel of the second voice output unit 802 is second sound channel.

Further, described processor also for:

Described first sound channel signal that the electronic equipment controlling to be connected with described audio output device exports is exported by the first voice output unit 801; And

The described second sound channel signal controlling the output of described electronic equipment is exported by the second voice output unit 802.

Optionally, described audio output device also comprises reflector, described reflector for: described first parameter is sent to described second parameter the electronic equipment be connected with described audio output device, to enable described electronic equipment when described first parameter meets pre-conditioned, the sound channel determining the first voice output unit 801 based on described second parameter is the first sound channel, and determines that the sound channel of the second voice output unit 802 is second sound channel.

Various variation pattern in information processing method in earlier figures 1 embodiment and instantiation are equally applicable to the audio output device of the present embodiment, by the aforementioned detailed description to information processing method, those skilled in the art clearly can know the implementation method of audio output device in the present embodiment, so succinct in order to specification, be not described in detail in this.

Embodiment three

Based on the inventive concept same with information processing method in the embodiment of the present application one, the embodiment of the present application provides a kind of electronic equipment, please refer to Fig. 9, and described electronic equipment comprises:

Connecting interface 901, for electronic equipment as described in being connected to by the audio output device as described in embodiment two;

Receiver 902, for obtaining described first parameter of described audio output device transmission and described second parameter;

Processor 903, for when described first parameter meets pre-conditioned, determines that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and determines that the sound channel of described second voice output unit is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel; Controlling first sound channel signal corresponding with described first sound channel by the first voice output unit exports, and controls the second sound channel signal corresponding with described second sound channel and pass through described second voice output unit and export.

Further, processor 903 also for:

Sound channel is preset when described first voice output unit has first, and described second voice output unit have second preset sound channel time, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, control described first voice output unit and export and preset the first default sound channel signal corresponding to sound channel with described first; And control described second voice output unit and export and preset the second default sound channel signal corresponding to sound channel with described second;

Wherein, when the described first default sound channel is described first sound channel, the described second default sound channel is described second sound channel; When the described second default sound channel is described second sound channel, the described second default sound channel is described first sound channel.

Further, processor 903 also for:

When described first voice output unit and described second voice output unit do not have default sound channel, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, control described audio output device and do not export described first sound channel signal and described second sound channel signal.

Embodiment four

Based on the inventive concept same with information processing method in the embodiment of the present application one, the embodiment of the present application provides a kind of electronic equipment, please refer to Figure 10, and described electronic equipment comprises:

First obtains module 1001: the first parameter that the first sensor for passing on the first voice output unit be arranged on audio output device detects;

Second obtains module 1002: for passing the second parameter that the second transducer be arranged on described first voice output unit detects;

First determination module 1003: for when described first parameter meets pre-conditioned, the sound channel determining described first voice output unit according to described second parameter is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

First control module 1004: export first sound channel signal corresponding with described first sound channel for controlling described first voice output unit, and control the described second voice output unit output second sound channel signal corresponding with described second sound channel.

Further, described first sensor is proximity transducer or optical sensor, and described first sensor is arranged on described first voice output unit, first obtain module 1001 for:

Obtain the distance value detected by described proximity transducer; Or the present intensity value obtained by described light sensors;

Wherein, when described distance value is less than predeterminable range value or described present intensity value is less than predetermined luminance value, characterizes described first parameter and meet described pre-conditioned.

Further, described first sensor comprises the first sub-transducer and the second sub-transducer, the sound output of described first sub-sensor setting on described first voice output unit, described second sub-sensor setting in the opposite end of described sound output, first obtain module 1001 for:

Obtain and detect acquisition first subparameter by described first sub-transducer;

Obtain and detect acquisition second subparameter by described second sub-transducer; Wherein, when described first subparameter and the first comparative result of threshold value are different with the second comparative result of described second subparameter and described threshold value, characterize described first parameter and meet described pre-conditioned.

Further, described second transducer is acceleration transducer, the setting position of described acceleration transducer on described first voice output unit meets following condition: the positive direction of the first axle of described acceleration transducer is gravity direction, and the positive direction of the second axle of described acceleration transducer is the direction that described sound output is pointed in the opposite end of the sound output of described first voice output unit;

Second obtain module 1002 for:

Obtain the direction of acceleration direction on the 3rd axle of described first voice output unit and the direction on described second axle detected by described acceleration transducer; Described 3rd axle is vertical with described second axle with described first axle respectively.

First determination module 1003 for: determine described first sound channel and described second sound channel according to the direction of described acceleration direction on described 3rd axle and the direction on described second axle.

Further, the positive direction of the 3rd axle of described acceleration transducer is: when described first voice output unit is worn on left ear, the direction of human eye sight;

First determination module 1003 for:

When described acceleration direction is the positive direction of the negative direction of described 3rd axle and described second axle, determine that L channel is described first sound channel and determine that R channel is described second sound channel;

When described acceleration direction is the positive direction of the positive direction of described 3rd axle and described second axle, determine that described R channel is described first sound channel and determine that described L channel is described second sound channel.

Further, described electronic equipment also comprises the first judge module, and described first judge module is used for:

Judge whether described first parameter meets described pre-conditioned;

Second obtain module 1002 also for:

Described first parameter meet described pre-conditioned time, obtain by described second transducer detect described second parameter before current time in Preset Time.

Further, described electronic equipment also comprises the second judge module, and described second judge module is used for:

Described pass be arranged on described first voice output unit second transducer detect the second parameter after, judge whether the sound channel can determining described first voice output unit according to described second parameter;

Described first judge module also for: when the sound channel of described first voice output unit can be determined according to described second parameter, judge whether described first parameter meets described pre-conditioned.

Further, the first control module 1004 for:

Described first sound channel signal that the electronic equipment controlling to be connected with described audio output device exports is exported by described first voice output unit; And

The described second sound channel signal controlling the output of described electronic equipment is exported by described second voice output unit.

Further, the first control module 1004 for:

The electronic equipment be connected with described audio output device is controlled described first sound channel signal and is exported by described first voice output unit;

Described electronic equipment is controlled described second sound channel signal and is exported by described second voice output unit.

Further, described electronic equipment also comprises the second control module, and described second control module is used for:

Sound channel is preset when described first voice output unit has first, and described second voice output unit have second preset sound channel time, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, control described first voice output unit and export and preset the first default sound channel signal corresponding to sound channel with described first; And

Control described second voice output unit and export the second default sound channel signal corresponding to sound channel default with described second;

Wherein, when the described first default sound channel is described first sound channel, the described second default sound channel is described second sound channel; When the described second default sound channel is described second sound channel, the described second default sound channel is described first sound channel.

Further, described electronic equipment also comprises the 3rd control module, and described 3rd control module is used for:

When described first voice output unit and described second voice output unit do not have default sound channel, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, control described audio output device and do not export described first sound channel signal and described second sound channel signal.

Various variation pattern in information processing method in earlier figures 1 embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the aforementioned detailed description to information processing method, those skilled in the art clearly can know the implementation method of electronic equipment in the present embodiment, so succinct in order to specification, be not described in detail in this.

By the one or more technical schemes in the embodiment of the present application, following one or more technique effect can be realized:

The first voice output unit on audio output device is arranged first sensor and the second transducer, obtain the first parameter of first sensor detection and the second parameter of the second transducer detection.When the first parameter meets pre-conditioned, determine that according to the second parameter the sound channel of the first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining audio output device is second sound channel.Export first sound channel signal corresponding with the first sound channel by the first voice output unit, and export the second sound channel signal corresponding with second sound channel by the second voice output unit.In the embodiment of the present application, only need to arrange transducer on the first voice output unit, the sound channel corresponding to the first voice output unit and the second voice output unit can be determined according to the second parameter of the second transducer acquisition, and then, audio output device output channels signal is controlled, as can be seen here, by the technical scheme of the application according to the sound channel determined, reach the sound channel automatically determined corresponding to voice output unit, and then the technique effect of the output of control track signal.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Specifically, the computer program instructions that information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Pass the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects;

Pass the second parameter that the second transducer be arranged on described first voice output unit detects;

When described first parameter meets pre-conditioned, determine that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

Export first sound channel signal corresponding with described first sound channel by described first voice output unit, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit.

Optionally, first sensor is proximity transducer or optical sensor, store in described storage medium with step: described in pass computer program instructions corresponding to the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects when being performed, specifically comprise the steps:

Obtain the distance value detected by described proximity transducer; Or the present intensity value obtained by described light sensors;

Wherein, when described distance value is less than predeterminable range value or described present intensity value is less than predetermined luminance value, characterizes described first parameter and meet described pre-conditioned.

Optionally, described first sensor comprises the first sub-transducer and the second sub-transducer, the sound output of described first sub-sensor setting on described first voice output unit, described second sub-sensor setting is in the opposite end of described sound output, store in described storage medium with step: passing computer program instructions corresponding to the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects when being performed, specifically comprising the steps:

Acquisition first subparameter is detected by described first sub-transducer;

Acquisition second subparameter is detected by described second sub-transducer; Wherein, when described first subparameter and the first comparative result of threshold value are different with the second comparative result of described second subparameter and described threshold value, characterize described first parameter and meet described pre-conditioned.

Optionally, described second transducer is acceleration transducer, the setting position of described acceleration transducer on described first voice output unit meets following condition: the positive direction of the first axle of described acceleration transducer is gravity direction, and the positive direction of the second axle of described acceleration transducer is the direction that described sound output is pointed in the opposite end of the sound output of described first voice output unit;

Store in described storage medium with step: pass and be arranged at computer program instructions corresponding to the second parameter that the second transducer on described first voice output unit detects when being performed, specifically comprise the steps:

The direction of acceleration direction on the 3rd axle of described first voice output unit and the direction on described second axle is detected by described acceleration transducer; Described 3rd axle is vertical with described second axle with described first axle respectively;

Accordingly, describedly determine that the sound channel of described first voice output unit is the first sound channel according to described second parameter, and the sound channel of the second voice output unit determining described audio output device is second sound channel, comprising:

Described first sound channel and described second sound channel is determined according to the direction of described acceleration direction on described 3rd axle and the direction on described second axle.

Optionally, the positive direction of the 3rd axle of described acceleration transducer is: when described first voice output unit is worn on left ear, the direction of human eye sight;

Store in described storage medium with step: determine that described first sound channel and computer program instructions corresponding to described second sound channel are when being performed, and specifically comprise the steps: according to the direction of described acceleration direction on the 3rd axle and the direction on described second axle

When described acceleration direction is the positive direction of the negative direction of described 3rd axle and described second axle, determine that L channel is described first sound channel and determine that R channel is described second sound channel;

When described acceleration direction is the positive direction of the positive direction of described 3rd axle and described second axle, determine that described R channel is described first sound channel and determine that described L channel is described second sound channel.

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions with step: be performed after passing the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects, comprise the steps: in implementation

Judge whether described first parameter meets described pre-conditioned;

Store in described storage medium with step: pass and be arranged at computer program instructions corresponding to the second parameter that the second transducer on described first voice output unit detects when being performed, specifically comprise the steps:

Described first parameter meet described pre-conditioned time, obtain by described second transducer detect described second parameter before current time in Preset Time.

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions with step: pass after being arranged at the second parameter that the second transducer on described first voice output unit detects and be performed, comprise the steps: in implementation

Judge whether the sound channel can determining described first voice output unit according to described second parameter;

When the sound channel of described first voice output unit can be determined according to described second parameter, judge whether described first parameter meets described pre-conditioned.

Optionally, store in described storage medium with step: export first sound channel signal corresponding with described first sound channel by described first voice output unit, and export computer program instructions corresponding to the second sound channel signal corresponding with described second sound channel when being performed by described second voice output unit, specifically comprise the steps:

Described first sound channel signal that the electronic equipment controlling to be connected with described audio output device exports is exported by described first voice output unit; And

The described second sound channel signal controlling the output of described electronic equipment is exported by described second voice output unit.

Optionally, store in described storage medium with step: export first sound channel signal corresponding with described first sound channel by described first voice output unit, and export computer program instructions corresponding to the second sound channel signal corresponding with described second sound channel when being performed by described second voice output unit, specifically comprise the steps:

The electronic equipment be connected with described audio output device is controlled described first sound channel signal and is exported by described first voice output unit;

Described electronic equipment is controlled described second sound channel signal and is exported by described second voice output unit.

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions with step: the first voice output unit have first preset sound channel, and described second voice output unit have second preset sound channel time, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and determine that the sound channel of the second voice output unit of described audio output device is performed before being second sound channel, comprise the steps: in implementation

Exported by described first voice output unit and preset the first default sound channel signal corresponding to sound channel with described first; And

Exported by described second voice output unit and preset the second default sound channel signal corresponding to sound channel with described second;

Wherein, when the described first default sound channel is described first sound channel, the described second default sound channel is described second sound channel; When the described second default sound channel is described second sound channel, the described second default sound channel is described first sound channel.

Optionally, other computer program instructions is also stored in described storage medium, this other computer program instructions with step: when the first voice output unit and described second voice output unit do not have default sound channel, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and determine that the sound channel of the second voice output unit of described audio output device is performed before being second sound channel, comprise the steps: in implementation

Control described audio output device and do not export described first sound channel signal and described second sound channel signal.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (18)

1. an information processing method, comprising:

Pass the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects;

Pass the second parameter that the second transducer be arranged on described first voice output unit detects;

When described first parameter meets pre-conditioned, determine that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

Export first sound channel signal corresponding with described first sound channel by described first voice output unit, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit.

2. the method for claim 1, is characterized in that, described first sensor is proximity transducer or optical sensor, described in pass the first parameter that the first sensor on the first voice output unit of being arranged on audio output device detects, comprising:

Obtain the distance value detected by described proximity transducer; Or the present intensity value obtained by described light sensors;

Wherein, when described distance value is less than predeterminable range value or described present intensity value is less than predetermined luminance value, characterizes described first parameter and meet described pre-conditioned.

3. the method for claim 1, it is characterized in that, described first sensor comprises the first sub-transducer and the second sub-transducer, the sound output of described first sub-sensor setting on described first voice output unit, described second sub-sensor setting is in the opposite end of described sound output, the first parameter that the described first sensor passed on the first voice output unit of being arranged on audio output device detects, comprising:

Acquisition first subparameter is detected by described first sub-transducer;

Acquisition second subparameter is detected by described second sub-transducer; Wherein, when described first subparameter and the first comparative result of threshold value are different with the second comparative result of described second subparameter and described threshold value, characterize described first parameter and meet described pre-conditioned.

4. the method for claim 1, it is characterized in that, described second transducer is acceleration transducer, the setting position of described acceleration transducer on described first voice output unit meets following condition: the positive direction of the first axle of described acceleration transducer is gravity direction, and the positive direction of the second axle of described acceleration transducer is the direction that described sound output is pointed in the opposite end of the sound output of described first voice output unit;

Described the second parameter passing the second transducer be arranged on described first voice output unit and detect, comprising:

The direction of acceleration direction on the 3rd axle of described first voice output unit and the direction on described second axle is detected by described acceleration transducer; Described 3rd axle is vertical with described second axle with described first axle respectively;

Accordingly, describedly determine that the sound channel of described first voice output unit is the first sound channel according to described second parameter, and the sound channel of the second voice output unit determining described audio output device is second sound channel, comprising:

Described first sound channel and described second sound channel is determined according to the direction of described acceleration direction on described 3rd axle and the direction on described second axle.

5. method as claimed in claim 4, it is characterized in that, the positive direction of the 3rd axle of described acceleration transducer is: when described first voice output unit is worn on left ear, the direction of human eye sight;

Describedly determine described first sound channel and described second sound channel according to the direction of described acceleration direction on the 3rd axle and the direction on described second axle, comprising:

When described acceleration direction is the positive direction of the negative direction of described 3rd axle and described second axle, determine that L channel is described first sound channel and determine that R channel is described second sound channel;

When described acceleration direction is the positive direction of the positive direction of described 3rd axle and described second axle, determine that described R channel is described first sound channel and determine that described L channel is described second sound channel.

6. the method for claim 1, is characterized in that, after the first parameter that the described first sensor passed on the first voice output unit of being arranged on audio output device detects, described method also comprises:

Judge whether described first parameter meets described pre-conditioned;

Described the second parameter passing the second transducer be arranged on described first voice output unit and detect, comprising:

Described first parameter meet described pre-conditioned time, obtain by described second transducer detect described second parameter before current time in Preset Time.

7. the method for claim 1, is characterized in that, described pass be arranged on described first voice output unit second transducer detect the second parameter after, described method also comprises:

Judge whether the sound channel can determining described first voice output unit according to described second parameter;

When the sound channel of described first voice output unit can be determined according to described second parameter, judge whether described first parameter meets described pre-conditioned.

8. the method for claim 1, it is characterized in that, described first sound channel signal corresponding with described first sound channel by described first voice output unit output, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit, comprising:

Described first sound channel signal that the electronic equipment controlling to be connected with described audio output device exports is exported by described first voice output unit; And

The described second sound channel signal controlling the output of described electronic equipment is exported by described second voice output unit.

9. the method for claim 1, it is characterized in that, described first sound channel signal corresponding with described first sound channel by described first voice output unit output, and export the second sound channel signal corresponding with described second sound channel by described second voice output unit, comprising:

The electronic equipment be connected with described audio output device is controlled described first sound channel signal and is exported by described first voice output unit;

Described electronic equipment is controlled described second sound channel signal and is exported by described second voice output unit.

10. the method for claim 1, it is characterized in that, sound channel is preset when described first voice output unit has first, and described second voice output unit have second preset sound channel time, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, described method also comprises:

Exported by described first voice output unit and preset the first default sound channel signal corresponding to sound channel with described first; And

Exported by described second voice output unit and preset the second default sound channel signal corresponding to sound channel with described second;

Wherein, when the described first default sound channel is described first sound channel, the described second default sound channel is described second sound channel; When the described second default sound channel is described second sound channel, the described second default sound channel is described first sound channel.

11. the method for claim 1, it is characterized in that, when described first voice output unit and described second voice output unit do not have default sound channel, determine that the sound channel of described first voice output unit is the first sound channel described according to described second parameter, and before determining that the sound channel of the second voice output unit of described audio output device is second sound channel, described method also comprises:

Control described audio output device and do not export described first sound channel signal and described second sound channel signal.

12. 1 kinds of audio output devices, comprising:

First voice output unit;

Second voice output unit;

First sensor, is arranged on described first voice output unit, for detecting the first parameter;

Second transducer, is arranged on described first voice output unit, for detecting the second parameter; Wherein, when described first parameter meets pre-conditioned, described second parameter is used to determine that the sound channel of described first voice output unit is the first sound channel, and determines that the sound channel of described second voice output unit is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

Described first voice output unit is for exporting first sound channel signal corresponding with described first sound channel;

Described second voice output unit is for exporting the second sound channel signal corresponding with described second sound channel.

13. audio output devices as claimed in claim 12, it is characterized in that, described first sensor is proximity transducer or optical sensor, and described proximity transducer is for detecting current distance value; Or described optical sensor is for detecting current brightness value; Wherein, when described distance value is less than predeterminable range value or described brightness value is less than predetermined luminance value, characterizes described first parameter and meet described pre-conditioned.

14. audio output devices as claimed in claim 12, it is characterized in that, described first sensor comprises the first sub-transducer and the second sub-transducer, the sound output of described first sub-sensor setting on described first voice output unit, described second sub-sensor setting is in the opposite end of described sound output

Described first sub-transducer is for detecting the first subparameter;

Described second sub-transducer is for detecting the second subparameter; Wherein, when described first subparameter and the first comparative result of threshold value are different with the second comparative result of described second subparameter and described threshold value, characterize described first parameter and meet described pre-conditioned.

15. audio output devices as claimed in claim 12, it is characterized in that, described second transducer is acceleration transducer, the setting position of described acceleration transducer on described first voice output unit meets following condition: the positive direction of the first axle of described acceleration transducer is gravity direction, and the positive direction of the second axle of described acceleration transducer is the direction that described sound output is pointed in the opposite end of the sound output of described first voice output unit;

Described acceleration transducer is for detecting the direction of acceleration direction on the 3rd axle of described first voice output unit and the direction on described second axle as described second parameter; Described 3rd axle is vertical with described second axle with described first axle respectively.

16. audio output devices as claimed in claim 15, is characterized in that, the positive direction of the 3rd axle of described acceleration transducer is: when described first voice output unit is worn on left ear, the direction of human eye sight;

Wherein, when described acceleration direction is the positive direction of the negative direction of described 3rd axle and described second axle, L channel is described first sound channel and determines that R channel is described second sound channel;

When described acceleration direction is the positive direction of the positive direction of described 3rd axle and described second axle, described R channel is described first sound channel and determines that described L channel is described second sound channel.

17. 1 kinds of electronic equipments, comprising:

Connecting interface, for being connected to described electronic equipment by audio output device as claimed in claim 12;

Receiver, for obtaining described first parameter of described audio output device transmission and described second parameter;

Processor, for when described first parameter meets pre-conditioned, determines that according to described second parameter the sound channel of described first voice output unit is the first sound channel, and determines that the sound channel of described second voice output unit is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel; Control described first voice output unit and export first sound channel signal corresponding with described first sound channel, and control the described second voice output unit output second sound channel signal corresponding with described second sound channel.

18. 1 kinds of electronic equipments, comprising:

First obtains module: the first parameter that the first sensor for passing on the first voice output unit be arranged on audio output device detects;

Second obtains module: for passing the second parameter that the second transducer be arranged on described first voice output unit detects;

First determination module: for when described first parameter meets pre-conditioned, the sound channel determining described first voice output unit according to described second parameter is the first sound channel, and the sound channel of the second voice output unit determining described audio output device is second sound channel; Wherein, described first sound channel is corresponding with described second parameter; Described second sound channel is different from described first sound channel;

First control module: export first sound channel signal corresponding with described first sound channel for controlling described first voice output unit, and control the described second voice output unit output second sound channel signal corresponding with described second sound channel.