CN105872895A - Audio output apparatus, information processing methods, and audio play device - Google Patents
Audio output apparatus, information processing methods, and audio play device Download PDFInfo
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- CN105872895A CN105872895A CN201610179560.7A CN201610179560A CN105872895A CN 105872895 A CN105872895 A CN 105872895A CN 201610179560 A CN201610179560 A CN 201610179560A CN 105872895 A CN105872895 A CN 105872895A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
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Abstract
Embodiments of the present invention provide an audio output apparatus and information processing methods. The audio output apparatus includes a first audio output component, a second audio output component, and a transmission component. The first audio output component is used for outputting an audio. The first audio output component includes at least one first sensor. The first sensor is used for detecting wearing information representing the first audio output component, so as to form first detection information. The second audio output component is used for outputting an audio. The second audio output component includes at least one second sensor. The second sensor is used for detecting wearing information representing the second audio output component, so as to form second detection information. The transmission component is connected with the first audio output component and the second audio output component, and is used for sending the first detection information and the second detection information to an audio play device connected with the audio output apparatus. The first detection information and/or the second detection information can be used for providing a basis for determination of an audio output parameter of the audio output apparatus.
Description
Technical field
The present invention relates to electronic technology field, particularly relate to a kind of audio output device, information processing method and
Audio-frequence player device.
Background technology
Audio output device is a kind of audio output apparatus of electronic equipment output audio frequency, and the most general audio frequency is defeated
Go out device and can include two audio output component, and be divided into left audio output component and right audio output component.
Under normal wear condition, wearer wears two audio output component simultaneously, listens to the sound of electronic equipment output
Frequently, but some situation is also likely to be, and wearer has only worn an audio output component, or left audio frequency is defeated
Go out assembly and right audio output component occurs wearing wrong phenomenon.In these conditions, how can basis
Audio output device wear situation, control the output of audio frequency targetedly, promote audio output device
Audio output effect or reduce the problems such as unnecessary audio frequency output consumption, is urgently to be resolved hurrily the asking of prior art
Topic.
Summary of the invention
In view of this, embodiment of the present invention expectation provides a kind of audio output device, information processing method and sound
Frequently playback equipment, it is possible to the problem at least partly solving audio frequency actual play weak effect.
For reaching above-mentioned purpose, the technical scheme is that and be achieved in that:
Embodiment of the present invention first aspect provides a kind of audio output device, including:
First audio output component, is used for exporting audio frequency, and wherein said first audio output component includes: extremely
A few first sensor, described first sensor is for detecting the pendant characterizing described first audio output component
Wear information, form the first detection information;
Second audio output component, is used for exporting audio frequency, and wherein said second audio output component includes: extremely
Few second sensor, described second sensor is for detecting the pendant characterizing described second audio output component
Wear information, form the second detection information;
Transmission assembly, is connected with described first audio output component and described second audio output component respectively,
For being sent to be connected with described audio output device by described first detection information and described second detection information
Audio-frequence player device;
Wherein, described first detection information and/or described second detection information, it is possible to for for determining described sound
Frequently the audio output parameters of output device provides foundation.
Based on such scheme, described audio output parameters, at least include sound channel output parameter.
Based on such scheme, described first audio output component and described second audio output component all include
Second surface that one surface is contrary with described first surface and connect described first surface and described second surface
Annular side;
Wherein, described first surface is audio frequency output face;
Described annular side is when audio output component is worn, with the ear contacts of wearer;
Described first sensor, is positioned at the annular side of described first audio output component;Described second sensing
Device, is positioned at the annular side of described second audio output component.
Based on such scheme, described first sensor and described second sensor all include two groups;Wherein, often
First sensor described in one group the most at least includes a described first sensor;Second sensor described in each group
The most at least include described second sensor;
First sensor described in two groups, is symmetrically distributed in described first audio frequency with first direction for symmetry direction defeated
Go out in the described annular side of assembly;Wherein, described first direction be with described first audio output component with
The junction point of transmission assembly, and the line direction of the central point of the second surface of described first audio output component;
Second sensor described in two groups, is symmetrically distributed in described second audio frequency with second direction for symmetry direction defeated
Go out in the described annular side of assembly, wherein, described second direction be with described second audio output component with
The junction point of transmission assembly, and the line direction of the central point of the second surface of described second audio output component.
Based on such scheme, described first sensor, under described first audio output component is by wearing state
It is able to detect that the physiological characteristic information of wearer, and forms described first detection information;Wherein, described
When one detection information includes described physiological characteristic information, it is possible to be used for determining described first audio output component quilt
Wear;
Described second sensor, is able to detect that under described second audio output component is by wearing state and wears
The physiological characteristic information of person, and form described second detection information;Wherein, described second detection information includes
During physiological characteristic information, it is possible to be used for determining that described second audio output component is worn.
Based on such scheme, described first detection information is additionally operable to according to the described of physiological characteristic information being detected
The position of first sensor, determines that described first audio output component is worn on left ear or auris dextra;
Described second detection information is additionally operable to the position according to described second sensor physiological characteristic information being detected
Put, determine that described second audio output component is worn on left ear or auris dextra.
Based on such scheme, described first sensor, under described first audio output component is by wearing state
It is able to detect that the physiological characteristic information of wearer, and forms described first detection information;
Described second sensor, is able to detect that under described second audio output component is by wearing state and wears
The physiological characteristic information of person, and form described second detection information.
Based on such scheme, when described first detection information includes the first physiological characteristic information;Described second inspection
When measurement information includes the second physiological characteristic information, described first physiological characteristic information and described second physiological feature
Information is additionally operable to jointly determine that described first audio output component and described second audio output component are the most same
One wearer wears.
Based on such scheme, described first sensor and described second sensor all can be used in detecting wearer
The circulation status information of internal blood circulation.
Based on such scheme, described first sensor and described second sensor are hard contact sensor;
Described hard contact sensor resistivity under blood flow effect in wearer's blood circulation changes
Become, for the change according to described resistivity, obtain wearer's heart rate information.
Embodiment of the present invention second aspect provides a kind of information processing method, including:
Detection forms the first detection information;Described first detection information is for characterizing the first audio output component
Wearing information;
Detection forms the second detection information;Described second detection information is for characterizing the second audio output component
Wearing information;
Described first detection information and described second detection information are sent to audio-frequence player device;
Wherein, described first detection information and the second detection information determine respectively for described audio-frequence player device
Audio output parameters.
The embodiment of the present invention third aspect provides a kind of information processing method, including:
Receive the first detection information;Described first detection information is for characterizing wearing of the first audio output component
Information;
Receive and form the second detection information;Described second detection information is for characterizing the second audio output component
Wearing information;
According to described first detection information and the second detection information, determine described first audio output component respectively
Audio output parameters with described second audio output component.
Based on such scheme, described according to described first detection information and second detection information, determine institute respectively
State the first audio output component and the sound channel output parameter of described second audio output component, including:
When described first detection information and described second detection information show described first audio output component and
When an audio output component in two audio output component is worn, determine the audio output component worn
Use monophonic output parameter output audio frequency.
Based on such scheme, described according to described first detection information and second detection information, determine institute respectively
State the first audio output component and the sound channel output parameter of described second audio output component, including:
When the second detection information described in described first detection information shows described first audio output component and second
When audio output component is all worn by same wearer, determine employing double track output parameter output audio frequency.
Based on such scheme, described determine employing double track output parameter output audio frequency, including:
Determine that the first audio output component is worn on left ear or is worn according to described first detection information
At auris dextra;
Determine that the second audio output component is worn on left ear or is worn according to described second detection information
At auris dextra;
When described first audio output component is worn on left ear, controls described first audio output component and use
L channel parameter output audio frequency, when described first audio output component is worn on auris dextra, controls described first
Audio output component uses R channel parameter output audio frequency;
When described second audio output component is worn on left ear, controls described second audio output component and use
L channel parameter output audio frequency, when described second audio output component is worn on auris dextra, controls described second
Audio output component uses R channel parameter output audio frequency.
Based on such scheme, described according to described first detection information and second detection information, determine institute respectively
State the first audio output component and the audio output parameters of described second audio output component, including:
When the second detection information described in described first detection information shows described first audio output component and second
When audio output component is all worn by different wearers, determine described first audio output component and described
Two audio output component all use monophonic output parameter to export audio frequency.
Based on such scheme, described method also include following at least one:
When described first detection information includes physiological characteristic information, determine described first audio output component quilt
Wear;
When described second detection information includes physiological characteristic information, determine described second audio output component quilt
Wear.
Based on such scheme, described also include following at least one:
The position of the first sensor according to the described physiological characteristic information detected in described first detection information,
Determine that described first audio output component is worn on left ear or auris dextra;
The position of the second sensor according to the described physiological characteristic information detected in described second detection information,
Determine that described second audio output component is worn on auris dextra or left ear.
Based on such scheme, described method also includes:
When described first detection information and described second detection information all include physiological characteristic information, comparison
Physiological characteristic information in described first detection information and described second detection information, determines and includes described first
Whether audio output component and described second audio output component are worn by same wearer.
The embodiment of the present invention also provides for a kind of audio-frequence player device, receives unit, for receiving the first detection letter
Breath;Described first detection information is for characterizing the wearing information of the first audio output component;Receive formation second
Detection information;Described second detection information is for characterizing the wearing information of the second audio output component;
Determine unit, for according to described first detection information and the second detection information, determining described the respectively
One audio output component and the audio output parameters of described second audio output component.
Embodiment of the present invention audio output device and information processing method, can arrange the first audio output component
Upper first sensor and the second sensor being arranged on the second audio output component, detect can characterize right
Answering the wearing information of transmission assembly, the first detection information and the second detection information that detection are obtained are sent to sound
Frequently playback equipment, such audio-frequence player device just can be according to the first detection information and the second detection information, certainly
Plan goes out suitable audio output parameters, preferably controls audio frequency output, thus promotes the actual output effect of audio frequency
Really, user's user satisfaction is promoted.
Accompanying drawing explanation
The structural representation of the first audio output device that Fig. 1 provides for the embodiment of the present invention;
The structural representation of the second audio output device that Fig. 2 provides for the embodiment of the present invention;
The audio devices that Fig. 3 provides for the embodiment of the present invention wear one of schematic diagram;
The audio devices that Fig. 4 provides for the embodiment of the present invention wear the two of schematic diagram;
The audio devices that Fig. 5 provides for the embodiment of the present invention wear the three of schematic diagram;
The first information processing method schematic flow sheet that Fig. 6 provides for the embodiment of the present invention;
The schematic flow sheet of the second information processing method that Fig. 7 provides for the embodiment of the present invention;
The structural representation of a kind of audio-frequence player device that Fig. 8 provides for the embodiment of the present invention.
Detailed description of the invention
Below in conjunction with Figure of description and specific embodiment technical scheme done and further explain in detail
State.
Embodiment one:
As it is shown in figure 1, the present embodiment provides a kind of audio output device, including:
First audio output component 110, is used for exporting audio frequency, wherein, and described first audio output component 110
Including: at least one first sensor 111, described first sensor 111 is used for detecting sign described first
The wearing information of audio output component, forms the first detection information;
Second audio output component 120, is used for exporting audio frequency, wherein, and described second audio output component 120
Including: at least one second sensor 121, described second sensor 121 is used for detecting sign described second
The wearing information of audio output component, forms the second detection information;
Transmission assembly 130, respectively with described first audio output component 110 and described second audio frequency output group
Part 120 connects, for described first detection information and described second detection information being sent to and described audio frequency
The audio-frequence player device that output device connects;
Wherein, described first detection information and/or described second detection information, it is possible to for for determining described sound
Frequently the audio output parameters of output device provides foundation.
Audio output device described in the present embodiment can be the electronic equipments such as various types of earphones, it is possible to receives sound
The voice data of playback equipment output frequently, forms corresponding sound wave.
Described in the present embodiment, the first audio output component 110 and the second transmission output precision 120 may correspond to ear
Two product vibrations of machine form the assembly of sound wave.On the present embodiment, described first audio output component 110 wraps
Having included at least one first sensor 111, the number shown herein as described first sensor 111 can be two
Or two or more.Described second audio output component 120 correspondence be provided with the second sensor 121, here
The number of the second sensor 121 be alternatively one or more.Here multiple can be regarded as two or two
Above.
The most described first sensor 111 and the second sensor 121 can be can to detect by letter
Breath gathers, and produces sign the first audio output component 110 and whether the second audio output component 120 is worn
Information and/or the wearing information how to be worn.Such as, described first sensor and described second sensor
Can be all the light sensor of the outer surface that corresponding transmission assembly is set, when the first audio output component 110 quilt
When wearing, in the environment of illumination, described light sensor may be blocked, the most described light sensor
The ambient light of place environment changes, and the parameter of described light sensor itself changes with the change of ambient light,
And produce corresponding information, such that it is able to the change of the parameter according to described light sensor itself, generate table
Levy the first detection information whether described first audio output component 110 is worn.Above-mentioned generation described first
The process of detection information, is applied equally to the example that described second sensor 121 is described light sensor.
Certain described first sensor and described second sensor are not limited to described light sensor, it is also possible to
It it is voltage sensitive sensor.Described first sensor and described second sensor can be to be arranged on the first audio frequency output group
The face that part 110 contacts with wearer under wearing situation respectively with the second audio output component 120.When
When described first audio output component 110 is worn, described voltage sensitive sensor and the ear contacts of human body, ear
Piece voltage sensitive sensor being applied certain pressure, like this, the pressure that described voltage sensitive sensor detects is big
Pressure when the first audio output component 110 is not worn, like this, it is also possible to according to pressure-responsive
The parameter determination of device itself goes out whether this first audio output component 111 is worn.When described second sensor
During for voltage sensitive sensor, detect process and detection the first biography that whether the second audio output component 120 is worn
The process whether sensor is worn is similar to.
Described transmission assembly 130 respectively connected two transmission assemblies, and usual described transmission assembly also includes even
Connecing audio-frequence player device interface, such as, insert the plug of playback equipment, the plug of playback equipment here can
For various types of plugs, such as USB plug or have column plug.
The first detection that described first sensor 111 can be detected by the most described transmission assembly 130
The second detection information that information and the second sensor 121 detect, is exported by transmission assembly and plays to audio frequency
Equipment, to facilitate audio-frequence player device to determine that audio frequency is defeated according to described first detection information and the second detection information
The audio output parameters gone out.
Here audio output parameters can be the parameter determining audio output effect.
As further improvement of this embodiment, the most described audio output parameters can include sound
Road output parameter.Here sound channel output parameter can include monophonic output parameter, double track output parameter;
Described double track output parameter L channel output parameter and R channel output parameter.Here L channel output ginseng
Number is the output parameter that ear auditory frequency range left with human body is suitable;Described R channel output parameter is and people
The output parameter that body auris dextra auditory frequency range is suitable.Here auditory frequency range can include that human ear is audible
The frequency range of the sound arrived.
The most described audio output parameters is not limited to above-mentioned sound channel output parameter, may also include use
In the parameter controlling audio frequency output.When described first sensor 111 and the second sensor 121 are pressure sensings
During device, it is also possible to the pressure detected according to pressure transducer, determine the first audio output component 110 He
Second audio output component 120 wearing position in human ear.Generally when the pressure that pressure transducer detects
The biggest, then show that earphone gos deep into the position of the positional distance tympanum in ear the deepest, now, in order to avoid
The audition of wearer is had a negative impact by sound excessive causing, and can determine audio frequency according to wearing position
The loudness parameter of output.It would be appreciated that: the most described audio output parameters does not limits to
In above-mentioned sound channel output ginseng or loudness parameter.
In a word, the audio output device provided in the present embodiment, it is possible to the first sensing included by self
Device 111 and the second sensor 121 detect the wearing information of audio output device, thus facilitate audio frequency to play and set
Standby decision-making goes out the audio output parameters being suitable for currently wearing situation, to improve audio output effect, promotes user
Satisfaction, lifting means intelligent.Thus can avoid, when wearer only wears an output precision,
Use double track output parameter output audio frequency, cause the phenomenon of wearer's audibility difference.
Embodiment two:
As it is shown in figure 1, the present embodiment provides a kind of audio output device, including:
First audio output component 110, is used for exporting audio frequency, wherein, and described first audio output component 110
Including: at least one first sensor 111, described first sensor 111 is used for detecting sign described first
The wearing information of audio output component, forms the first detection information;
Second audio output component 120, is used for exporting audio frequency, wherein, and described second audio output component 120
Including: at least one second sensor 121, described second sensor 121 is used for detecting sign described second
The wearing information of audio output component, forms the second detection information;
Transmission assembly 130, respectively with described first audio output component 110 and described second audio frequency output group
Part 120 connects, for described first detection information and described second detection information being sent to and described audio frequency
The audio-frequence player device that output device connects;
Wherein, described first detection information and/or described second detection information, it is possible to for for determining described sound
Frequently the audio output parameters of output device provides foundation.
Described first audio output component 110 and described second audio output component 120 all include first surface,
The second surface contrary with described first surface and connect described first surface and the annular side of described second surface
Face;Wherein, described first surface is audio frequency output face;
Described annular side is when audio output component is worn, with the ear contacts of wearer;
Described first sensor 111, is positioned at the annular side of described first audio output component;Described second
Sensor 121, is positioned at the annular side of described second audio output component.As it is shown in figure 1, described first
Sensor 111 is positioned in described annular side.In FIG with the part of shadow representation be then year book first
Surface.
The most described audio frequency output face can be understood as the first type surface of audio frequency output, when audio frequency exports
The sound that in assembly, focus vibrations produce is mainly to propagate towards certain orientation, and described audio frequency output face can be to receive
To the surface that sound wave quantity is maximum, it is also possible to be to receive sound wave ability or the surface of energy force density maximum.Institute
Stating audio frequency output face can be the plane having border, it is also possible to be to have radian and have the face on border.Generally in institute
State audio frequency output face in its border, be probably non-close face, such as, arrange sound in described audio frequency output face
Sound transmission hole or slit etc., the most here be full of citing.
Described annular side generally can be the one side contacted with wearer's ear, can contact with each other with human body ear
Or extruding.Described first sensor 111 and the second sensor 121 are arranged on annular side, defeated at audio frequency
Go out device when being worn, will directly contact with wearer, the parameter gathered may because of with human body
Contact change, thus produce described first detection information and second detection, with realize precisely detect sound
Frequently whether output device is worn.
Embodiment three:
As it is shown in figure 1, the present embodiment provides a kind of audio output device, including:
First audio output component 110, is used for exporting audio frequency, wherein, and described first audio output component 110
Including: at least one first sensor 111, described first sensor 111 is used for detecting sign described first
The wearing information of audio output component, forms the first detection information;
Second audio output component 120, is used for exporting audio frequency, wherein, and described second audio output component 120
Including: at least one second sensor 121, described second sensor 121 is used for detecting sign described second
The wearing information of audio output component, forms the second detection information;
Transmission assembly 130, respectively with described first audio output component 110 and described second audio frequency output group
Part 120 connects, for described first detection information and described second detection information being sent to and described audio frequency
The audio-frequence player device that output device connects;
Wherein, described first detection information and/or described second detection information, it is possible to for for determining described sound
Frequently the audio output parameters of output device provides foundation.
Described first audio output component 110 and described second audio output component 120 all include first surface,
The second surface contrary with described first surface and connect described first surface and the annular side of described second surface
Face;Wherein, described first surface is audio frequency output face;
Described annular side is when audio output component is worn, with the ear contacts of wearer;
Described first sensor 111, is positioned at the annular side of described first audio output component;Described second
Sensor 121, is positioned at the annular side of described second audio output component.
Described first sensor 111 and described second sensor 121 all include two groups;Described in each group first
Sensor 111 the most at least includes a described first sensor 111;Second sensor 121 described in each group
The most at least include described second sensor 121;
First sensor 111 described in two groups, is symmetrically distributed in described first sound with first direction for symmetry direction
Frequently in the described annular side of output precision 110;Wherein, described first direction is defeated with described first audio frequency
Go out the junction point of assembly 110 and transmission assembly 130, and the second table of described first audio output component 110
The line direction of the central point in face;
Second sensor 121 described in two groups, is symmetrically distributed in described second sound with second direction for symmetry direction
Frequently in the described annular side of output precision 120, wherein, described second direction is defeated with described second audio frequency
Go out the junction point of assembly 120 and transmission assembly 130, and the second table of described second audio output component 120
The line direction of the central point in face.
The most described first sensor 110 and the second sensor 121 can be two, and the most right
Claim to be distributed on corresponding transmission assembly.When implementing, described first sensor 110 and the second sensor
121 is all even number;Then described in even number, first sensor 110 and the second sensor 121 are divided into two
Group;These two groups of first sensors 111 are symmetrical with described first direction;Two group of second sensor 120 with
Second direction is symmetrical.Such as, described first sensor 110 and the second sensor 121 can be 4
Deng.
So two sensors is symmetrical, if described first sensor 111 is worn, and the most at least one group
Described first sensor 111 contacts with the appointed part of wearer's ear.If described second sensor 121 quilt
Wearing, the most at least described in one group, the second sensor 121 contacts with the appointed part of wearer's ear.So
On the one hand can improve and determine whether the first audio output component 110 and the second audio output component 120 are worn
The testing result worn.Can also characterize by the position of the sensor of wearing information according to detecting simultaneously, determine
Go out current first audio output component 110 be worn on left ear or be worn on auris dextra, thus facilitate follow-up
According to the first detection information, playback equipment determines that control the first audio output component is to use L channel output ginseng
Number or employing R channel output parameter control the output of audio frequency.
One of structural representation of a kind of audio output device for the present embodiment offer shown in Fig. 2, at figure
What A and B in 2 represented is symmetrical two sensor being positioned on an audio output component.If
Shown in Fig. 2 for the first audio output component, then what A and B represented is two symmetrical first sensings
Device.The junction point being described audio output component and transmission assembly 130 that C represents in fig. 2.Dotted line
Represent is described first direction or described second direction.
Embodiment five:
As it is shown in figure 1, the present embodiment provides a kind of audio output device, including:
First audio output component 110, is used for exporting audio frequency, wherein, and described first audio output component 110
Including: at least one first sensor 111, described first sensor 111 is used for detecting sign described first
The wearing information of audio output component, forms the first detection information;
Second audio output component 120, is used for exporting audio frequency, wherein, and described second audio output component 120
Including: at least one second sensor 121, described second sensor 121 is used for detecting sign described second
The wearing information of audio output component, forms the second detection information;
Transmission assembly 130, respectively with described first audio output component 110 and described second audio frequency output group
Part 120 connects, for described first detection information and described second detection information being sent to and described audio frequency
The audio-frequence player device that output device connects;
Wherein, described first detection information and/or described second detection information, it is possible to for for determining described sound
Frequently the audio output parameters of output device provides foundation.
Described first sensor 111, can examine under described first audio output component 110 is by wearing state
Measure the physiological characteristic information of wearer, and form described first detection information;Wherein, described first detection
When information includes described physiological characteristic information, it is possible to be used for determining that described first audio output component 110 is worn
Wear;
Described second sensor 121, can examine under described second audio output component 120 is by wearing state
Measure the physiological characteristic information of wearer, and form described second detection information;Wherein, described second detection
When information includes physiological characteristic information, it is possible to be used for determining that described second audio output component 120 is worn.
The most described first sensor and the second sensor are and can detect human body physiological parameter
Biosensor.The most described biosensor can be the physiology sensing that can detect body temperature
Device, it is also possible to for the sensor of human heart rate can be detected;But can also is that other sensors when implementing,
It is not limited to the example above.
In the present embodiment can be by the detection of described physiological characteristic information, when physiology correspondence being detected is special
During reference breath, described first detection information and/or the second detection information can be as characterizing corresponding transmission assembly
The no testing result worn, facilitates audio-frequence player device to determine the audio output parameters of correspondence.
As further improvement of this embodiment, described first detection information is additionally operable to according to detecting that physiology is special
The position of the described first sensor of reference breath, determines that described first audio output component 110 is to be worn on a left side
Ear or auris dextra;Described second detection information is additionally operable to pass according to described second that physiological characteristic information detected
The position of sensor, determines that described second audio output component 120 is worn on left ear or auris dextra.
First sensor 111 described in each group and second sensor 121 position on described audio output device
It is certain for putting, and so can detect that first sensor 111 or the second sensor 121 are right according to described
Should position on transmission assembly, it may be determined that go out transmission assembly and be worn on left ear or auris dextra.At this
It is believed that permissible with the first sensor that wearer's tragus contacts in the first audio output component 110 in embodiment
The heart rate information of wearer detected;Second contacted with wearer's tragus in second audio output component 120
Sensor can detect the heart rate information of wearer.If the first audio output component 110 and the second audio frequency are defeated
Go out assembly and heart rate information all detected, so that it may think the first audio output component 110 and the second audio frequency output group
Part 120 is all adorned oneself with by wearer;Again can be in conjunction with first sensor and the second sensing heart rate information being detected
The position of device, so that it may determine that first sensor is worn on left ear or auris dextra.
So audio-frequence player device is according to the number of the transmission assembly worn, it may be determined that go out to use monophonic
Parameter output audio frequency, or use double track output parameter.The most such as, only a transmission assembly is worn
Wear just to utilize and used mono parameters output audio frequency by the transmission assembly of wearer.
The schematic diagram wearing the audio output device that the present embodiment provides for wearer shown in Fig. 3,
Wherein, audio output device (e.g., earphone) contacts with wearer's tragus, it becomes possible to the life of user detected
Reason characteristic information etc., it is possible to form described first detection information or the second detection information.
Fig. 4 and Fig. 5 be the present embodiment provide audio output device wear schematic diagram.At Fig. 4 and Fig. 5
In, audio output device, i.e. earphone, all it is connected with audio-frequence player device.Show in figures 4 and 5
Audio-frequence player device can be the portable mobile terminals such as mobile phone.Wearer in the diagram, wears simultaneously
Having worn two audio output component, wearer has only worn an audio output component in Figure 5.Obviously this
Time individual, the first detection information and second that audio output device sends to audio frequency playing device detects information
Information content is inconsistent, facilitates audio frequency playing device to judge the audio output component of its correspondence.
In a word, the first detection information described in the present embodiment can be not only used for characterizing corresponding transmission assembly and is
No worn, it is also possible to be worn on the left ear of user or auris dextra for sign, thus facilitate audio frequency to play and set
The standby output parameter determining correspondence, preferably controls audio frequency output, promotes audio frequency and exports actual reception.
Embodiment six:
As it is shown in figure 1, the present embodiment provides a kind of audio output device, including:
First audio output component 110, is used for exporting audio frequency, wherein, and described first audio output component 110
Including: at least one first sensor 111, described first sensor 111 is used for detecting sign described first
The wearing information of audio output component, forms the first detection information;
Second audio output component 120, is used for exporting audio frequency, wherein, and described second audio output component 120
Including: at least one second sensor 121, described second sensor 121 is used for detecting sign described second
The wearing information of audio output component, forms the second detection information;
Transmission assembly 130, respectively with described first audio output component 110 and described second audio frequency output group
Part 120 connects, for described first detection information and described second detection information being sent to and described audio frequency
The audio-frequence player device that output device connects;
Wherein, described first detection information and/or described second detection information, it is possible to for for determining described sound
Frequently the audio output parameters of output device provides foundation.
Described first sensor 111, can examine under described first audio output component 110 is by wearing state
Measure the physiological characteristic information of wearer, and form described first detection information;
Described second sensor 121, can examine under described second audio output component 120 is by wearing state
Measure the physiological characteristic information of wearer, and form described second detection information.
The most described first sensor 111 and the second sensor 121 are all biosensors, energy
Enough detections characterize the physiological characteristic information of wearer's sign.The most described physiological characteristic information is permissible
Including human body physiological characteristics information.Utilize physiological characteristic information relative to detection sensor weeks such as light sensors
The ambient parameter enclosed detects whether the structure worn, and has the more accurate feature of testing result.
The most described physiological characteristic information can include the condition information of the blood circulation of wearer,
The most sanguimotor condition information or the condition information of lymphatic circulation.
As further improvement of this embodiment, the physiological characteristic information of different wearers is different, when
Two wearers share an audio output device, and this time, wearer is actual to receive in order to improve as far as possible
The audio output effect listened, the most described first detection information and the second detection information can also quilts
It is provided commonly for characterizing and whether is worn by same wearer.Therefore when described first detection information includes the first physiology
Characteristic information;When described second detection information includes the second physiological characteristic information, described first physiological feature letter
Breath and described second physiological characteristic information are additionally operable to jointly to determine described first audio output component 110 and described
Whether the second audio output component 120 is worn by same wearer.
Concrete as, the first physiological characteristic information and the second physiological characteristic information are all heart rate informations, different
The heart rate of wearer is difficult to be consistent, like this, if the first heart rate and second in the first detection information
The different information of the second heart rate in detection information, more than specifying threshold value, is i.e. regarded as being worn by two wearers
Wear.Here appointment threshold value can be the relatively fractional value such as 0 or 1.
Such as, wearer A is an athlete, and wearer B is an ordinary people, under non-athletic state,
The heart rate of wearer A is the heart rate that can be less than ordinary people, and difference can be bigger;This time can pass through
Calculate the difference between the first heart rate and the second heart rate, then by the comparison between difference and appointment threshold value, determine
Go out the first audio output component 110 and whether the second audio output component 120 is worn by same people.
Equal as the improvement again of the present embodiment, described first sensor 111 and described second sensor 121
Can be used in detecting the circulation status information of the blood circulation in wearer's body.Here blood circulation can include
Blood circulation or lymphatic circulation etc..Described circulation status information can include blood circulation speed, blood
The status informations such as the oxygen content of liquid.
The sensors of the blood circulations of offer two kinds detection in the present embodiment:
Optional structure one:
Described first sensor 111 and the second sensor 121 can be all infrared detection sensor.
The most described first sensor 111 or the second sensor 121 can be all that infrared detection passes
Sensor.The generally blood flowing speed of the heart contraction moment of wearer is the fastest, when diastole, and blood
Flowing velocity is relatively slow, the pulsatile flow of this blood resulted in.Stream due to blood vessel arterial blood pulsed
Dynamic, blood vessel can be caused quickly to flow and infrared reflectivity during sluggish flow is different, therefore in this reality
Execute first sensor 111 described in example and can detect the heart according to the change of blood vessel mid-infrared reflectance being detected
Rate information.
Optional structure two:
Described first sensor 111 and described second sensor 121 are hard contact sensor;Described metal
Contact sensor resistivity under blood flow effect in wearer's blood circulation changes, for basis
The change of described resistivity, obtains wearer's heart rate information.
Due to the flowing of blood pulsed, during rapid blood flow, the resistivity of hard contact sensor is different from
Resistivity during blood slow flow, thus detect the heartbeat message of wearer.
Certainly in being embodied as, being not limited to of described first sensor 111 and the second sensor 121
State sensor.
In a word, the present embodiment provides another and plants optional sensor, but is not limited to above two when implementing
Structure.
Embodiment seven:
As shown in Figure 6, the present embodiment provides a kind of information processing method, including:
Step S110: detection forms the first detection information;Described first detection information is for characterizing the first audio frequency
The wearing information of output precision;
Step S110: detection forms the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S130: described first detection information and described second detection information are sent to audio frequency broadcasting and set
Standby;
Wherein, described first detection information and the second detection information determine respectively for described audio-frequence player device
Audio output parameters.
Information processing method described in the present embodiment can be to be applied to audio output device described in previous embodiment
In information processing method.
Described in can detecting specifically for the first sensor on the first audio output component formed in step S110
First detection information.The second sensor detection on the second audio output component can be utilized in the step s 120
Form described second detection information.The transmission assembly in audio output device can be utilized in step s 130,
Described first detection information and described second detection information are sent to audio frequency playing device, and such audio frequency broadcasts
Equipment, can be according to the first audio frequency output after receiving described first detection information and the second detection information
Assembly and the situation of wearing of the second audio output component, control audio output parameters.
It should be noted that the described audio output parameters in the present embodiment can include sound channel output parameter.Here
The specific definition of sound channel output parameter may refer to embodiment first-class previous embodiment, be not repeated at this.
In a word, information processing method described in the present embodiment, it is possible to the first detection information and second detects information
Detection and transmission, facilitate the suitable audio output parameters of audio-frequence player device decision-making, preferably controls audio frequency defeated
Go out, promote the actual output effect of audio frequency, promote user satisfaction.In any one embodiment of the present invention,
The actual output effect of described audio frequency can be regarded as the actual reception of wearer.
Embodiment eight:
As it is shown in fig. 7, the present embodiment provides a kind of information processing method, including:
Step S210: receive the first detection information;Described first detection information is for characterizing the first audio frequency output
The wearing information of assembly;
Step S220: receive and form the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S230: according to described first detection information and the second detection information, determine described first sound respectively
Frequently output precision and the audio output parameters of described second audio output component.
The most described information processing method can be the information processing side being applied to audio-frequence player device
Method.
Described step S210 and step S220 are for receiving described first detection information and the second detection information, example
As, from the transmission assembly of audio output device, receive described first detection information and the second detection information.
Can determine that the first audio frequency is defeated according to described first detection information and the second detection information in step S230
Going out assembly and the wearing information of the second audio output component, wearing information here may include whether to be worn,
Be worn on left ear or auris dextra, whether two transmission assemblies are worn by same wearer, or by two pendants
One or more in the information such as wearer wears.And then determine described audio output parameters according to wearing information.
The most described audio output parameters can include sound channel output parameter, sound channel output ginseng here
Number may refer to the corresponding part in embodiment one, but when implementing, is not limited to described sound channel defeated
Go out parameter.
Embodiment nine:
As it is shown in fig. 7, the present embodiment provides a kind of information processing method, including:
Step S210: receive the first detection information;Described first detection information is for characterizing the first audio frequency output
The wearing information of assembly;
Step S220: receive and form the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S230: according to described first detection information and the second detection information, determine described first sound respectively
Frequently output precision and the audio output parameters of described second audio output component.
Described step S230 comprises the steps that
When described first detection information and described second detection information show described first audio output component and
When an audio output component in two audio output component is worn, determine the audio output component worn
Use monophonic output parameter output audio frequency.
In the present embodiment when determine in the first audio output component and the second audio output component only have a biography
When defeated assembly is worn, use the transmission assembly output audio frequency that monophonic output parameter controls to be worn.
Such as, if only the first audio output component is worn, then control the first audio output component and use single
Sound channel output parameter output audio frequency.If only the second audio output component is worn, then control the second audio frequency defeated
Go out assembly and use monophonic output parameter output audio frequency.
Like this, can avoid, in the case of only transmission assembly is worn, still using alliteration
Road output parameter output audio frequency, causes the phenomenon of the audio frequency effect difference that wearer is an actually-received.
Embodiment ten:
As it is shown in fig. 7, the present embodiment provides a kind of information processing method, including:
Step S210: receive the first detection information;Described first detection information is for characterizing the first audio frequency output
The wearing information of assembly;
Step S220: receive and form the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S230: according to described first detection information and the second detection information, determine described first sound respectively
Frequently output precision and the audio output parameters of described second audio output component.
Described step S230 comprises the steps that
When the second detection information described in described first detection information shows described first audio output component and second
When audio output component is all worn by same wearer, determine employing double track output parameter output audio frequency.
Determining according to the first detection information and the second detection information in the present embodiment, two transmission assemblies are all
Worn, and worn by same wearer.Such as, detect that two receivers of earphone are all worn by same person
Wearing, this time is in order to form the effect of surround sound, it may be determined that use the output of double track output parameter
Audio frequency, to improve audio output effect.
As it can be seen, as further improvement of this embodiment, described step S230 specifically comprises the steps that
Step S231: determine that the first audio output component is to be worn on left ear according to described first detection information
Still auris dextra it is worn on;
Step S232: determine that the second audio output component is to be worn on left ear according to described second detection information
Still auris dextra it is worn on;
Step S233: when described first audio output component is worn on left ear, control described first audio frequency defeated
Go out assembly and use L channel parameter output audio frequency, when described first audio output component is worn on auris dextra, control
Make described first audio output component and use R channel parameter output audio frequency;When described second audio output component
When being worn on left ear, control described second audio output component and use L channel parameter output audio frequency, when described
When second audio output component is worn on auris dextra, controls described second audio output component and use R channel parameter
Output audio frequency.
To determine that the first audio output component is to be worn on pendant according to the first detection information in step S231
Which ear of wearer.The second audio frequency output group will be determined according to the second detection information in step S232
Part is which ear being worn on wearer;Control to be worn on the audio output component of left ear in step S233
Use L channel output parameter output audio frequency, be worn on the transmission assembly of auris dextra and use R channel to adopt R channel defeated
Go out parameter output audio frequency.Owing to the earshot of the left and right ear of human body is the most consistent, in order to distinguish
Treat in the prior art it is also proposed that L channel and the concept of R channel.But in the prior art, generally
Being all fixing at audio output device L channel and R channel, once audio output device completes,
Which audio output component is as L channel, and it is fixing for using L channel output parameter output audio frequency.Generally
In order to point out user, may mark on corresponding receiver and facilitate wearer's correspondence to wear.But this
Still user is avoided to wear the actual output effect of the audio frequency caused of makeing mistakes poor.In the present embodiment, the first sound
Frequently output precision and the second audio output component are not fixed as R channel or L channel, in the present embodiment will
Carrying out each audio output component specified with specific reference to current situation of wearing uses R channel output parameter as the right side
Sound channel, or use L channel output parameter as L channel, export audio frequency.Obvious this output audio frequency
Control method, can not only promote the actual output effect of audio frequency, the most preferably employ broadcasting dress
The software and hardware resources put, improves the intelligent of equipment.
Embodiment 11:
As it is shown in fig. 7, the present embodiment provides a kind of information processing method, including:
Step S210: receive the first detection information;Described first detection information is for characterizing the first audio frequency output
The wearing information of assembly;
Step S220: receive and form the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S230: according to described first detection information and the second detection information, determine described first sound respectively
Frequently output precision and the audio output parameters of described second audio output component.
Described step S230 comprises the steps that
When the second detection information described in described first detection information shows described first audio output component and second
When audio output component is all worn by different wearers, determine described first audio output component and described
Two audio output component all use monophonic output parameter to export audio frequency.
If determining according to the first detection information and the second detection information in the present embodiment, two audio frequency outputs
When assembly is worn by different wearers, control the two audio output component is all used monophonic output ginseng
Number output audio frequency, it is to avoid using double track output parameter output audio frequency, two users cannot receive
The phenomenon of audio out sound, to promote the actual output effect of audio frequency as far as possible, promote user and use full
Meaning degree.
Embodiment 12:
As it is shown in fig. 7, the present embodiment provides a kind of information processing method, including:
Step S210: receive the first detection information;Described first detection information is for characterizing the first audio frequency output
The wearing information of assembly;
Step S220: receive and form the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S230: according to described first detection information and the second detection information, determine described first sound respectively
Frequently output precision and the audio output parameters of described second audio output component.
Combine any one information processing side that above-described embodiment eight to embodiment 11 provides in the present embodiment
Method, the transmission assembly specifically the most how determining correspondence according to the first detection information and the second detection information presented below
The wearing information such as whether worn.
Such as.Described method also include following at least one:
When described first detection information includes physiological characteristic information, determine described first audio output component quilt
Wear;
When described second detection information includes physiological characteristic information, determine described second audio output component quilt
Wear.
First detection information described in the present embodiment and the second detection information can be raw by detecting wearer
The sensor of reason feature is formed.If in the present embodiment the first detection information carrying physiological characteristic information,
Then determine that described first transmission assembly is worn, if described second detection information includes physiological characteristic information,
Determine that described second audio output component is worn.
Described physiological characteristic information can include the condition information of wearer's blood circulation, such as blood circulation
Condition information, it is possible to use various types of heart rate sensors detection heart rate.If the first audio output component
Worn, then the heart rate sensor being arranged on the first audio output component is just able to detect that heart rate information, no
The most just can't detect.Therefore this whether being worn under both situations can be utilized in the present embodiment, sensing
The difference of the information that device detection gathers determines whether the transmission assembly of correspondence is worn.Same reason is also fitted
For described second audio output component.When implementing, certain described sensor is not limited to examine
Survey the biosensor of physiological feature, naturally it is also possible to be the detection information of pressure transducer or light sensor.
Therefore described first detection information and the second detection information are not limited to include physiological characteristic information.
Embodiment 13:
As it is shown in fig. 7, the present embodiment provides a kind of information processing method, including:
Step S210: receive the first detection information;Described first detection information is for characterizing the first audio frequency output
The wearing information of assembly;
Step S220: receive and form the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S230: according to described first detection information and the second detection information, determine described first sound respectively
Frequently output precision and the audio output parameters of described second audio output component.
Described method also include following at least one:
When described first detection information includes physiological characteristic information, determine described first audio output component quilt
Wear;
When described second detection information includes physiological characteristic information, determine described second audio output component quilt
Wear.
Described also include following at least one:
The position of the first sensor according to the described physiological characteristic information detected in described first detection information,
Determine that described first audio output component is worn on left ear or auris dextra;
The position of the second sensor according to the described physiological characteristic information detected in described second detection information,
Determine that described second audio output component is worn on auris dextra or left ear.
Audio output device as described in previous embodiment, described first audio output component and the second audio frequency
2 or the sensor of more than 2 it is provided with on transmission assembly.Only sensor and the appointment of wearer's ear
During position, the physiological characteristic information of correspondence just can be detected.Like this, it is possible to according to physiology being detected
The first sensor of feature and/or the position of the second sensor are determined, the first audio output component and the second sound
Frequently output precision is to be worn on left ear or auris dextra.
The most described first detection information can include that each first sensor is spaced inspection on schedule
The information measured, described second detection information can include that each second sensor is spaced on schedule and detect
Information.Here any two adjacent time inter in predetermined time interval can be equal or different.When appointing
When two time intervals of anticipating are the most equal, it is the information being periodically detected.In the most described first detection information
May also include identification information or the positional information of each first sensor.Identification information or positional information are with corresponding
Sensor generate heat transfer agent correspondence storage, such audio frequency playing device just can simplicity determine inspection
Which or positional information the sensor measuring physiological characteristic information be.If it is determined which sensor detects
Physiological characteristic information, it is possible to determined the position of this sensor by inquiry, finally determine and worn
Still auris dextra it is worn at left ear.
In a word, the information processing method described in the present embodiment, it is possible to simplify the operation of user, improve equipment
The intelligent and actual output effect of audio frequency.
Embodiment 14:
As it is shown in fig. 7, the present embodiment provides a kind of information processing method, including:
Step S210: receive the first detection information;Described first detection information is for characterizing the first audio frequency output
The wearing information of assembly;
Step S220: receive and form the second detection information;Described second detection information is for characterizing the second audio frequency
The wearing information of output precision;
Step S230: according to described first detection information and the second detection information, determine described first sound respectively
Frequently output precision and the audio output parameters of described second audio output component.
Described method also include following at least one:
When described first detection information includes physiological characteristic information, determine described first audio output component quilt
Wear;
When described second detection information includes physiological characteristic information, determine described second audio output component quilt
Wear.
Described method also includes:
When described first detection information and described second detection information all include physiological characteristic information, comparison
The physiological characteristic information in physiological characteristic information in described first detection information and described second detection information,
Determine and include whether described first audio output component and described second audio output component are worn by same wearer
Wear.
The most also can the first detection information described in comparison and the physiological feature letter in the second detection information
Breath, determines that two the most same wearers of audio output component wear, if by same wearer
When wearing, by as previous embodiment is mentioned employing double track output parameter export audio frequency, when be not by with
When one wearer wears, controlling to use monophonic output parameter output audio frequency, two such wearer can
Receive complete audio sound, promote the actual output effect of audio frequency.
Embodiment 15:
As shown in Figure 8, the present embodiment provides a kind of audio-frequence player device, including:,
Receive unit 210, for receiving the first detection information;Described first detection information is for sign first
The wearing information of audio output component;Receive and form the second detection information;Described second detection information is for table
Levy the wearing information of the second audio output component;
Determine unit 220, for according to described first detection information and the second detection information, determining institute respectively
State the first audio output component and the audio output parameters of described second audio output component.
The present embodiment also provides for a kind of audio-frequence player device, and audio-frequence player device here can be mobile phone, flat board
Computer, notebook point computer, IPod etc. is various can the equipment of defeated broadcasting audio frequency.
Described reception unit 210 can include the interface that can even be connected with audio playing apparatus, it is possible to receives audio frequency
The first detection information and second that in playing device, transmission assembly sends detects information.
Described determine processor that unit 220 may correspond in audio playing apparatus or process circuit, it is possible to using
According to the first detection information and the second detection information, determine audio output parameters.Here audio frequency output ginseng
Number can at least include sound channel output parameter.Here sound channel output parameter may refer to previous embodiment, at this
It is not repeated.
Described according to described first detection information and second detection information, determine respectively described first audio frequency output
Assembly and the sound channel output parameter of described second audio output component, including:
When described first detection information and described second detection information show described first audio output component and
When an audio output component in two audio output component is worn, determine the audio output component worn
Use monophonic output parameter output audio frequency.
Further, described determine unit 220 can be used for when described in described first detection information second detection letter
Breath shows when described first audio output component and the second audio output component are all worn by same wearer,
Determine employing double track output parameter output audio frequency.Concrete the most such as, described determine unit, specifically for according to institute
First detection information of stating determines that the first audio output component is worn on left ear or is worn on auris dextra;Root
Determine that the second audio output component is worn on left ear or is worn on the right side according to described second detection information
Ear;When described first audio output component is worn on left ear, controls described first audio output component and use
L channel parameter output audio frequency, when described first audio output component is worn on auris dextra, controls described first
Audio output component uses R channel parameter output audio frequency;When described second audio output component is worn on left ear
Time, control described second audio output component and use L channel parameter output audio frequency, when described second audio frequency is defeated
Go out assembly when being worn on auris dextra, control described second audio output component and use R channel parameter output audio frequency.
In certain embodiments, described unit 220 is determined, it may also be used for when described in described first detection information
Second detection information shows that described first audio output component and the second audio output component are all worn by different
When person wears, determine that described first audio output component and described second audio output component all use monophonic
Output parameter output audio frequency.
In further embodiments, described determine unit 220, can be used at least performing one of:
When described first detection information includes physiological characteristic information, determine described first audio output component quilt
Wear;
When described second detection information includes physiological characteristic information, determine described second audio output component quilt
Wear.
Described determining unit 220, the most generally applicable language at least performs one of:
The position of the first sensor according to the described physiological characteristic information detected in described first detection information,
Determine that described first audio output component is worn on left ear or auris dextra;
The position of the second sensor according to the described physiological characteristic information detected in described second detection information,
Determine that described second audio output component is worn on auris dextra or left ear.
Unit is determined, it may also be used for when described first detects information and described second detection information additionally, described
In when all including physiological characteristic information, the first detection information described in comparison and the life in described second detection information
Reason characteristic information, determine include described first audio output component and described second audio output component whether by
Same wearer wears.
In several embodiments provided herein, it should be understood that disclosed equipment and method,
Can realize by another way.Apparatus embodiments described above is only schematically, such as,
The division of described unit, is only a kind of logic function and divides, and actual can have other division when realizing
Mode, such as: multiple unit or assembly can be in conjunction with, or are desirably integrated into another system, or some are special
Levy and can ignore, or do not perform.It addition, the coupling each other of shown or discussed each ingredient,
Or direct-coupling or communication connection can be the INDIRECT COUPLING by some interfaces, equipment or unit or logical
Letter connect, can be electrical, machinery or other form.
The above-mentioned unit illustrated as separating component can be or may not be physically separate, makees
The parts shown for unit can be or may not be physical location, i.e. may be located at a place,
Can also be distributed on multiple NE;Can select according to the actual needs therein partly or entirely
Unit realizes the purpose of the present embodiment scheme.
It addition, each functional unit in various embodiments of the present invention can be fully integrated into a processing module
In, it is also possible to it is that each unit is individually as a unit, it is also possible to two or more unit collection
Become in a unit;Above-mentioned integrated unit both can realize to use the form of hardware, it would however also be possible to employ
Hardware adds the form of SFU software functional unit and realizes.
One of ordinary skill in the art will appreciate that: realize all or part of step of said method embodiment
Can be completed by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer-readable
Taking in storage medium, this program upon execution, performs to include the step of said method embodiment;And it is aforementioned
Storage medium include: movable storage device, read only memory (ROM, Read-Only Memory),
Random access memory (RAM, Random Access Memory), magnetic disc or CD etc. are various
The medium of program code can be stored.
The above, the only detailed description of the invention of the present invention, but protection scope of the present invention is not limited to
In this, any those familiar with the art, can be easily in the technical scope that the invention discloses
Expect change or replace, all should contain within protection scope of the present invention.Therefore, the protection of the present invention
Scope should be as the criterion with described scope of the claims.
Claims (20)
1. an audio output device, it is characterised in that including:
First audio output component, is used for exporting audio frequency, and wherein said first audio output component includes: extremely
A few first sensor, described first sensor is for detecting the pendant characterizing described first audio output component
Wear information, form the first detection information;
Second audio output component, is used for exporting audio frequency, and wherein said second audio output component includes: extremely
Few second sensor, described second sensor is for detecting the pendant characterizing described second audio output component
Wear information, form the second detection information;
Transmission assembly, is connected with described first audio output component and described second audio output component respectively,
For being sent to be connected with described audio output device by described first detection information and described second detection information
Audio-frequence player device;
Wherein, described first detection information and/or described second detection information, it is possible to for for determining described sound
Frequently the audio output parameters of output device provides foundation.
Audio output device the most according to claim 1,
Described audio output parameters, at least includes sound channel output parameter.
Audio output device the most according to claim 1, it is characterised in that
Described first audio output component and described second audio output component all include that first surface is with described
Second surface that first surface is contrary and connect described first surface and the annular side of described second surface;
Wherein, described first surface is audio frequency output face;
Described annular side is when audio output component is worn, with the ear contacts of wearer;
Described first sensor, is positioned at the annular side of described first audio output component;Described second sensing
Device, is positioned at the annular side of described second audio output component.
Audio output device the most according to claim 3, it is characterised in that
Described first sensor and described second sensor all include two groups;Wherein, the first biography described in each group
Sensor the most at least includes a described first sensor;Described in each group, the second sensor the most at least includes one
Described second sensor;
First sensor described in two groups, is symmetrically distributed in described first audio frequency with first direction for symmetry direction defeated
Go out in the described annular side of assembly;Wherein, described first direction be with described first audio output component with
The junction point of transmission assembly, and the line direction of the central point of the second surface of described first audio output component;
Second sensor described in two groups, is symmetrically distributed in described second audio frequency with second direction for symmetry direction defeated
Go out in the described annular side of assembly, wherein, described second direction be with described second audio output component with
The junction point of transmission assembly, and the line direction of the central point of the second surface of described second audio output component.
Audio output device the most according to claim 4, it is characterised in that
Described first sensor, is able to detect that under described first audio output component is by wearing state and wears
The physiological characteristic information of person, and form described first detection information;Wherein, described first detection information includes
During described physiological characteristic information, it is possible to be used for determining that described first audio output component is worn;
Described second sensor, is able to detect that under described second audio output component is by wearing state and wears
The physiological characteristic information of person, and form described second detection information;Wherein, described second detection information includes
During physiological characteristic information, it is possible to be used for determining that described second audio output component is worn.
Audio output device the most according to claim 5, it is characterised in that
Described first detection information is additionally operable to the position according to described first sensor physiological characteristic information being detected
Put, determine that described first audio output component is worn on left ear or auris dextra;
Described second detection information is additionally operable to the position according to described second sensor physiological characteristic information being detected
Put, determine that described second audio output component is worn on left ear or auris dextra.
Audio output device the most according to claim 1, it is characterised in that
Described first sensor, is able to detect that under described first audio output component is by wearing state and wears
The physiological characteristic information of person, and form described first detection information;
Described second sensor, is able to detect that under described second audio output component is by wearing state and wears
The physiological characteristic information of person, and form described second detection information.
Audio output device the most according to claim 7, it is characterised in that
When described first detection information includes the first physiological characteristic information;Described second detection information includes second
During physiological characteristic information, described first physiological characteristic information and described second physiological characteristic information are additionally operable to jointly
Determine whether described first audio output component and described second audio output component are worn by same wearer.
Audio output device the most according to claim 7, it is characterised in that
Described first sensor and described second sensor all can be used in detecting the blood circulation in wearer's body
Circulation status information.
Audio output device the most according to claim 9, it is characterised in that
Described first sensor and described second sensor are hard contact sensor;
Described hard contact sensor resistivity under blood flow effect in wearer's blood circulation changes
Become, for the change according to described resistivity, obtain wearer's heart rate information.
11. 1 kinds of information processing methods, including:
Detection forms the first detection information;Described first detection information is for characterizing the first audio output component
Wearing information;
Detection forms the second detection information;Described second detection information is for characterizing the second audio output component
Wearing information;
Described first detection information and described second detection information are sent to audio-frequence player device;
Wherein, described first detection information and the second detection information determine respectively for described audio-frequence player device
Audio output parameters.
12. 1 kinds of information processing methods, including:
Receive the first detection information;Described first detection information is for characterizing wearing of the first audio output component
Information;
Receive and form the second detection information;Described second detection information is for characterizing the second audio output component
Wearing information;
According to described first detection information and the second detection information, determine described first audio output component respectively
Audio output parameters with described second audio output component.
13. methods according to claim 12, it is characterised in that
Described according to described first detection information and second detection information, determine respectively described first audio frequency output
Assembly and the sound channel output parameter of described second audio output component, including:
When described first detection information and described second detection information show described first audio output component and
When an audio output component in two audio output component is worn, determine the audio output component worn
Use monophonic output parameter output audio frequency.
14. methods stated according to claim 12, it is characterised in that
Described according to described first detection information and second detection information, determine respectively described first audio frequency output
Assembly and the sound channel output parameter of described second audio output component, including:
When the second detection information described in described first detection information shows described first audio output component and second
When audio output component is all worn by same wearer, determine employing double track output parameter output audio frequency.
15. methods according to claim 14, it is characterised in that
Described determine employing double track output parameter output audio frequency, including:
Determine that the first audio output component is worn on left ear or is worn according to described first detection information
At auris dextra;
Determine that the second audio output component is worn on left ear or is worn according to described second detection information
At auris dextra;
When described first audio output component is worn on left ear, controls described first audio output component and use
L channel parameter output audio frequency, when described first audio output component is worn on auris dextra, controls described first
Audio output component uses R channel parameter output audio frequency;
When described second audio output component is worn on left ear, controls described second audio output component and use
L channel parameter output audio frequency, when described second audio output component is worn on auris dextra, controls described second
Audio output component uses R channel parameter output audio frequency.
16. methods according to claim 12, it is characterised in that
Described according to described first detection information and second detection information, determine respectively described first audio frequency output
Assembly and the audio output parameters of described second audio output component, including:
When the second detection information described in described first detection information shows described first audio output component and second
When audio output component is all worn by different wearers, determine described first audio output component and described
Two audio output component all use monophonic output parameter to export audio frequency.
17. according to the method described in any one of claim 12 to 16, it is characterised in that
Described method also include following at least one:
When described first detection information includes physiological characteristic information, determine described first audio output component quilt
Wear;
When described second detection information includes physiological characteristic information, determine described second audio output component quilt
Wear.
18. methods according to claim 17, it is characterised in that
Described also include following at least one:
The position of the first sensor according to the described physiological characteristic information detected in described first detection information,
Determine that described first audio output component is worn on left ear or auris dextra;
The position of the second sensor according to the described physiological characteristic information detected in described second detection information,
Determine that described second audio output component is worn on auris dextra or left ear.
19. methods according to claim 17, it is characterised in that
Described method also includes:
When described first detection information and described second detection information all include physiological characteristic information, comparison
Physiological characteristic information in described first detection information and described second detection information, determines and includes described first
Whether audio output component and described second audio output component are worn by same wearer.
20. 1 kinds of audio-frequence player devices, it is characterised in that
Receive unit, for receiving the first detection information;Described first detection information is for characterizing the first audio frequency
The wearing information of output precision;Receive and form the second detection information;Described second detection information is for sign the
The wearing information of two audio output component;
Determine unit, for according to described first detection information and the second detection information, determining described the respectively
One audio output component and the audio output parameters of described second audio output component.
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