CN113329301B

CN113329301B - Method and device for detecting wearing of left ear and right ear of headset and headset

Info

Publication number: CN113329301B
Application number: CN202110731973.2A
Authority: CN
Inventors: 马圣博
Original assignee: Goertek Techology Co Ltd
Current assignee: Goertek Techology Co Ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2022-10-25
Anticipated expiration: 2041-06-29
Also published as: CN113329301A

Abstract

The invention discloses a method and a device for detecting wearing of left and right ears of a headset and the headset.

Description

Left and right ear wearing detection method and device of headset and headset

Technical Field

The invention relates to the technical field of wearable equipment, in particular to a left ear and right ear wearing detection method and device of a headset and the headset.

Background

For better audio playing effect, the earphones are usually divided into a left earphone and a right earphone for playing different audio channels. In the prior art, in order to distinguish the left earphone from the right earphone, marks are usually set on the left earphone and the right earphone, for example, "L" is set on the left earphone, and "R" is set on the right earphone, and a user needs to carefully check the marks when wearing the left earphone and the right earphone. By adopting the mode, the user needs to carefully check the mark before wearing the earphone each time, but the situation that the wearing error causes the reversal of the sound channel still possibly occurs, and the user experience of the earphone is reduced.

Disclosure of Invention

The invention aims to provide a method and a device for detecting wearing of left and right ears of a headset, and the headset, so that a user does not need to confirm the left and right of the ear muffs before wearing the headset, and the user experience is improved.

In order to solve the above technical problem, the present invention provides a left and right ear wearing detection method for a headphone, comprising:

judging whether the headset is worn or not;

if the headset is worn, determining the left and the right of the corresponding earmuffs based on the sequence of the first proximity detection device and the second proximity detection device in the first earmuff and/or the second earmuff in the headset contacting the ears;

the first proximity detection device is disposed in a first same area of the first earmuff and the second earmuff, and the second proximity detection device is disposed in a second same area of the first earmuff and the second earmuff, wherein distances from a first ear area corresponding to the first proximity detection device in any one earmuff to the cranial side of the second ear area corresponding to the second proximity detection device are different.

Preferably, the first ear region in the left ear is more cranial than the second ear region, and the first ear region in the right ear is more cranial than the second ear region.

Preferably, a first ear region in the left ear is an helix region, and a second ear region in the left ear is a tragus region; a first ear region in the right ear is an tragus region, and a second ear region in the right ear is an helix region.

Preferably, when the first proximity detection device is 1 and the second proximity detection device is 1, determining the left and right of the corresponding ear cup based on the sequence of the first proximity detection device and the second proximity detection device in the first ear cup and/or the second ear cup in the headset contacting the ear includes:

if the first proximity detection device in the ith earmuff contacts with the ear first and the second proximity detection device contacts with the ear later, the ith earmuff is judged to be a left earmuff;

if the second proximity detection device in the ith earmuff contacts with the ear first and the first proximity detection device contacts with the ear later, the ith earmuff is judged to be a right earmuff; i is 1 or 2.

Preferably, when there are a plurality of the first proximity detection devices and a plurality of the second proximity detection devices; determining left and right of a respective ear cup based on a precedence of first and second proximity detection devices in a first and/or second ear cup in the headset contacting the ear, comprising:

if all the second proximity detection devices do not contact the ears when part or all of the first proximity detection devices contact the ears, the ith earmuff is judged to be a left earmuff;

if all the first proximity detection devices do not contact the ears when part or all of the second proximity detection devices contact the ears, the ith earmuff is judged to be a right earmuff; i is 1 or 2.

Preferably, the determining whether the headset is worn includes:

determining whether there is a first proximity detection device or a second proximity detection device in the first earmuff and/or the second earmuff contacting the ear;

if yes, the headset is judged to be in the wearing process;

if not, the headset is judged not to be in the wearing process.

Preferably, after determining the left and right of the corresponding ear cup based on the sequence of the first proximity detection device and the second proximity detection device in the first ear cup and/or the second ear cup in the headset contacting the ear, the method further comprises:

the method comprises the steps of receiving audio signals, sending left channel audio signals in the audio signals to a loudspeaker in a left earmuff, and sending right channel audio signals in the audio signals to a loudspeaker in a right earmuff.

Preferably, the first earmuff and the second earmuff are both provided with attitude detection devices;

after determining left and right of the respective ear cup based on the order in which the first proximity detection device and the second proximity detection device in the first ear cup and/or the second ear cup in the headset contact the ear, the method further comprises:

judging whether the first earmuff and the second earmuff are both a left earmuff or a right earmuff;

if the ear muffs are the left ear muffs or the right ear muffs, determining the eversion directions of the first ear muffs and the second ear muffs based on the posture data collected by the posture detection device;

determining left and right of the first and second earmuffs based on eversion directions of the first and second earmuffs.

In order to solve the above technical problem, the present invention further provides a left and right ear wearing detection device for a headphone, comprising:

a memory for storing a computer program;

a processor for implementing the steps of the method for detecting wearing of left and right ears of a headset as described above when executing the computer program.

In order to solve the above technical problem, the present invention further provides a headset, including a first earmuff and a second earmuff, where a first same region of the first earmuff and the second same region of the second earmuff is provided with the first proximity detection device, and a second same region of the first earmuff and the second earmuff is provided with the second proximity detection device, and distances from a first ear region corresponding to the first proximity detection device in the first earmuff or the second earmuff to a cranial side are different from distances from a second ear region corresponding to the second proximity detection device in the first earmuff or the second earmuff;

the headset further comprises a left ear wearing detection device and a right ear wearing detection device of the headset, and the left ear wearing detection device and the right ear wearing detection device are respectively connected with the first proximity detection device and the second proximity detection device.

The invention provides a method and a device for detecting wearing of left and right ears of a headset, and the headset, wherein a first proximity detection device and a second proximity detection device are respectively arranged in a first same area of a first ear shield and a second same area of a second ear shield in the headset, and the distances from a first ear area corresponding to the first proximity detection device and a second ear area corresponding to the second proximity detection device in any one ear shield to the cranial side are different.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required in the prior art and the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 illustrates a method for detecting wearing of left and right ears of a headphone according to the present invention;

FIG. 2 is a schematic view of an ear according to the present invention;

fig. 3 is a schematic structural diagram of the proximity detection device in the same area when the sound-emitting sides of the first earmuff and the second earmuff are in the same direction;

FIG. 4 is a schematic diagram of a first proximity detection device and a second proximity detection device corresponding to ear regions according to the present invention;

fig. 5 is a schematic diagram of an included angle between an earmuff and a user's head according to the present invention;

fig. 6 is a schematic structural diagram of a left and right ear wearing detection device of a headphone provided by the present invention.

Detailed Description

The core of the invention is to provide a method and a device for detecting wearing of left and right ears of a headset, and the headset, so that a user does not need to confirm the left and right of the ear muffs before wearing, and the user experience is improved.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 illustrates a method for detecting whether a headphone is worn by left and right ears, the method including:

s11: judging whether the headset is worn, if so, entering S12;

s12: determining left and right of the respective ear cups based on a precedence of the first and second proximity detection devices in the first and/or second ear cups contacting the ears;

the first same area of the first earmuff and the second earmuff is provided with a first approach detection device, the second same area is provided with a second approach detection device, and the distance from the first ear area corresponding to the first approach detection device in any earmuff to the cranial side is different from the distance from the second ear area corresponding to the second approach detection device.

In consideration of the prior art, a user needs to see the left and right ear marks on the headset before wearing the headset so as to distinguish the left and right ear cups, and the user experience is not high. For solving the technical problem, the application provides a scheme that when a user wears the headset, the headset automatically wears detection to left and right ears, the user is not required to confirm the left and right of the earmuffs before wearing, and the user experience is improved.

Specifically, referring to fig. 2, fig. 2 is a schematic structural diagram of an ear according to the present invention, in consideration of different shapes of a pinna of a human body, but in a normal case, the pinna forms a certain angle with a cranial side of the human body, so that an helix of the ear is higher than a tragus of the human body. Therefore, when the user wears the headset, the ear muffs can press the ears towards the skull, the ear muffs can contact the helix first and then contact the tragus, and finally, the ear muffs can be in a state of contacting the helix and then contacting the tragus.

It can be seen that, the user all has the part position of contacting the ear earlier about when wearing headphone, the condition of other part positions of contacting the ear again, and it is this point of symmetrical structure to combine left and right ears to be this again, and in this application, headphone's first earmuff and the first same region of second earmuff are provided with first detection device and the second is the same and is close detection device with the second. It should be noted that, in the headset, the sound-emitting sides of the first earmuff and the second earmuff are opposite to each other under normal conditions, and the first earmuff and the second earmuff are in central symmetry along the central axis of the headset. The first identical region and the second identical region in the present application satisfy: the first same area of the first earmuff and the first same area of the second earmuff are in central symmetry about the central axis of the headset, and the second same area of the first earmuff and the second same area of the second earmuff are in central symmetry about the central axis of the headset. Referring to fig. 3, fig. 3 is a schematic structural diagram of proximity detection devices corresponding to the same region when the sound emitting sides of the first earmuff and the second earmuff are the same, where a and B are the first proximity detection devices, and C and D are the second proximity detection devices.

In addition, the first ear region corresponding to the first proximity detection device in any one of the ear cups refers to a part of the ear region to which the first proximity detection device is attached when the ear cup is worn on the ear, and similarly, the second ear region corresponding to the second proximity detection device in any one of the ear cups refers to a part of the ear region to which the second proximity detection device is attached when the ear cup is worn on the ear. Referring to fig. 4, fig. 4 is a schematic diagram of a first proximity detection device and a second proximity detection device corresponding to an ear region according to the present invention. The first ear region corresponding to the first proximity detection means and the second ear region corresponding to the second proximity detection means in any ear shell are at different distances cranial to the ear. Then once the positions of the first ear region and the second ear region are determined, the order in which the first proximity detection means and the second proximity detection means in the first earmuff contact the ears and the order in which the first proximity detection means and the second proximity detection means in the second earmuff contact the ears are also determined when the headset is worn, and the two orders are different.

Therefore, when performing the wearing detection of the left and right ears, it is first determined whether the headset is worn, and it should be noted that the wearing process herein refers to a process in which the user wears the headset while holding the headset. The left and right of the respective ear cup, if worn, may be determined based on the order in which the first and second proximity detection devices in the first and/or second ear cup contact the ear. For example, the left and right of the first earmuff can be determined based on the sequence of the first proximity detection device and the second proximity detection device of the first earmuff contacting the ears, the left and right of the first earmuff are determined, and the left and right of the second earmuff can also be determined, which is opposite to the first earmuff; similarly, the left and right of the second earmuff can be determined based on the sequence of the first proximity detection device and the second proximity detection device of the second earmuff contacting with ears, the left and right of the second earmuff are determined, the left and right of the first earmuff can also be determined, and the left and right of the first earmuff are opposite to the left and right of the second earmuff; in addition, the left and right of the first earmuff can be determined based on the sequence of the first proximity detection device and the second proximity detection device of the first earmuff contacting with the ears, and the left and right of the second earmuff can be determined based on the sequence of the first proximity detection device and the second proximity detection device of the second earmuff contacting with the ears. The specific form to be used in the present application is not particularly limited, and is determined according to the actual situation.

In addition, it should be noted that, the first proximity detection device and the second proximity detection device in the present application may be, but are not limited to, capacitive sensors, and when the capacitive sensors are close to or close to the skin of the ears, the capacitance values of the capacitive sensors may change, so that whether the capacitive sensors contact the ears can be determined according to the capacitance values of the capacitive sensors. The capacitive sensor may be specifically a capacitive plate, and may also be a capacitive mesh, which is not particularly limited herein.

In summary, the present invention provides a method for detecting whether a headphone wears left and right ears, where a first proximity detection device and a second proximity detection device are respectively disposed in a first same region of a first earmuff and a second same region of a second earmuff in the headphone, and distances from a first ear region corresponding to the first proximity detection device and a second ear region corresponding to the second proximity detection device in any one of the earmuffs to a cranial side are different, and based on the above arrangement, when a user wears the headphone, an order in which the first proximity detection device and the second proximity detection device in different earmuffs contact ears is different, and based on the order in which the first proximity detection device and the second proximity detection device contact the ears, the left and right of the corresponding earmuffs can be determined without the user confirming the left and right of the earmuffs before wearing, thereby improving user experience.

On the basis of the above-described embodiment:

in a preferred embodiment, the first ear region in the left ear is located at a greater distance cranial than the second ear region, and the first ear region in the right ear is located at a lesser distance cranial than the second ear region.

Specifically, the distance from the cranial side of the first ear region to the cranial side in the left ear being greater than the distance from the cranial side of the second ear region means that the distance from any point in the first ear region to the cranial side in the left ear is greater than the distance from any point in the second ear region to the cranial side, and the distance from the first ear region to the cranial side in the right ear being less than the distance from the cranial side of the second ear region means that the distance from any point in the first ear region to the cranial side in the right ear is less than the distance from any point in the second ear region to the cranial side.

When the distance from the first ear region to the cranial side in the left ear is greater than the distance from the second ear region to the cranial side and the distance from the first ear region to the cranial side in the right ear is less than the distance from the second ear region to the cranial side, the earmuff can contact the first ear region first and then contact the second ear region when the earmuff is worn on the left ear; when the earmuff is worn on the right ear, the earmuff will contact the second ear area first and then the first ear area.

Of course, it is also possible here to provide that the first ear region in the left ear is at a smaller distance cranial than the second ear region, and that the first ear region in the right ear is at a greater distance cranial than the second ear region. The concrete can be determined according to actual conditions.

It is thus clear that through this kind of mode, alright based on first proximity detection device and the second proximity detection device contact the order alright confirm about corresponding earmuff, need not the user and confirm about earmuff before wearing, improved user experience.

As a preferred embodiment, the first ear region in the left ear is the helix region, and the second ear region in the left ear is the tragus region; the first ear region in the right ear is the tragus region and the second ear region in the right ear is the helix region.

Specifically, considering that the helix region is almost a greater distance from the cranial side than the tragus region, therefore, in order to improve detection reliability, the first ear region in the left ear may be the helix region, and the second ear region may be the tragus region; the first ear region in the right ear may be the tragus region and the second ear region in the right ear may be the helix region. Of course, other regions of the ear may be provided as desired, and the present application is not limited thereto.

As a preferred embodiment, when the first proximity detection device is 1 and the second proximity detection device is 1, determining the left and right of the corresponding ear cup based on the order in which the first proximity detection device and the second proximity detection device in the first ear cup and/or the second ear cup in the headset contact the ear includes:

Specifically, when the number of the first proximity detection device and the number of the second proximity detection device are both 1, it may be determined whether the first proximity detection device contacts the ear first in the ith earmuff and the second proximity detection device contacts the ear later; if the first proximity detection device in the ith earmuff contacts with the ear first and the second proximity detection device contacts with the ear later, the ith earmuff is judged to be a left earmuff; if the first proximity detection device does not contact the ear first and the second proximity detection device contacts the ear later in the ith earmuff, judging whether the second proximity detection device contacts the ear first and the first proximity detection device contacts the ear later in the ith earmuff; if the second proximity detection device in the ith earmuff contacts with the ear first and the first proximity detection device contacts with the ear later, the ith earmuff is judged to be a right earmuff; i is 1 or 2. Of course, the above-mentioned steps of determining the left and right ear cups may be exchanged, and the present application is not limited thereto.

Therefore, the left and the right of the corresponding earmuffs can be determined based on the sequence of the first proximity detection device and the second proximity detection device contacting the ears, the user does not need to confirm the left and the right of the earmuffs before wearing, and the user experience is improved.

As a preferred embodiment, when the first proximity detection device is plural and the second proximity detection device is plural; determining left and right of a respective ear cup based on a precedence of first and second proximity detection devices in a first and/or second ear cup in the headset contacting the ear, comprising:

Specifically, in order to reduce the erroneous determination problem caused by only providing one first proximity detection device and one second proximity detection device as much as possible, the first proximity detection device and the second proximity detection device are both provided in plurality in the present application, considering that although the auricles of the human body are substantially the same, there are some differences in how much. A plurality of first proximity detection means may be provided at different locations in a first same area and a plurality of second proximity detection means may be provided at different locations in a second same area. When the ear cup on the headset is worn to the left ear, it may happen that some or all of the first proximity detection means first contacts the first ear region in the left ear, due to differences in the pinna between individuals, but all of the second proximity detection means must not yet contact the second ear region. Similarly, when the earmuff of the headphone is worn toward the right ear, due to the difference in the auricles between individuals, it may happen that part or all of the second proximity detection means first contacts the second ear region in the right ear, but all of the first proximity detection means must not yet contact the first ear region. Reference may be made in particular to fig. 4.

Specifically, it may be determined whether all of the second proximity detection devices in the ith earmuff have not contacted the ear when part or all of the first proximity detection devices in the ith earmuff have contacted the ear; if all the second proximity detection devices do not contact the ears when part or all of the first proximity detection devices in the ith earmuff contact the ears, judging that the ith earmuff is a left earmuff; if all the second proximity detection devices do not contact the ears when part or all of the first proximity detection devices in the ith earmuff do not contact the ears, judging whether all the first proximity detection devices do not contact the ears when part or all of the second proximity detection devices in the ith earmuff contact the ears; if all the first proximity detection devices do not contact the ears when part or all of the second proximity detection devices in the ith earmuff contact the ears, judging that the ith earmuff is a right earmuff; i is 1 or 2. Of course, the above-mentioned steps of determining the left and right earmuffs may be replaced, and the present application is not limited thereto.

Therefore, the left and the right of the corresponding earmuffs are determined based on the sequence of the contact of the plurality of first proximity detection devices and the plurality of second proximity detection devices with the ears, and the user experience is further improved.

As a preferred embodiment, the determining whether the headset is worn includes:

if so, judging that the headset is in the wearing process;

if not, the headset is judged not to be in the wearing process.

In this application, if there is a first proximity detection device and/or a second proximity detection device in the first ear cup, and/or a first proximity detection device and/or a second proximity detection device in the second ear cup contacting the ear, it can be determined that the headset is in the process of being worn. Taking the first proximity device and the second proximity detection device as capacitance sensors as an example, the capacitance value of the capacitance sensor can become large when the capacitance sensor contacts a human body, and if the capacitance value of the capacitance sensor in the first earmuff and/or the second earmuff is larger than the capacitance threshold value, it is determined that the headset is in the wearing process.

Therefore, whether the headset is automatically judged in the wearing process or not can be achieved through the mode, the automation degree of left and right ear wearing detection of the headset is further improved, and user experience is further improved.

As a preferred embodiment, after determining the left and right of the corresponding ear cup based on the sequence of the first proximity detection means and the second proximity detection means of the first ear cup and/or the second ear cup in the headset contacting the ear, the method further comprises:

the audio signal is received, the left channel audio signal in the audio signal is sent to the loudspeaker in the left earmuff, and the right channel audio signal in the audio signal is sent to the loudspeaker in the right earmuff.

Specifically, behind the earmuff about the affirmation, after receiving the audio signal that terminal such as cell-phone end sent, send the speaker in left channel audio signal to left earmuff, send the speaker in right channel audio signal to right earmuff to speaker broadcast in the left and right earmuff corresponds the audio signal of sound channel, guaranteed the audio playback effect.

As a preferred embodiment, the first earmuff and the second earmuff are both provided with attitude detection devices;

after determining the left and right of the corresponding ear cup based on the sequence of the first proximity detection device and the second proximity detection device in the first ear cup and/or the second ear cup in the headset contacting the ear, the method further comprises:

judging whether the determined first earmuff and the second earmuff are both a left earmuff or a right earmuff;

if the left earmuff or the right earmuff is adopted, the eversion directions of the first earmuff and the second earmuff are determined based on the posture data collected by the posture detection device;

the left and right of the first earmuff and the second earmuff are determined based on the eversion directions of the first earmuff and the second earmuff.

Specifically, when determining the left and right of the corresponding earmuffs based on the sequence of the first and second proximity detection devices in the first and second earmuffs in the headset contacting the ears, some very special situations may exist, for example, the determined first and second earmuffs are both left or right earmuffs, in order to solve the problem, in this application, the first and second earmuffs are both provided with posture detection devices, when the determined first and second earmuffs are both left or right earmuffs, the eversion directions of the first and second earmuffs are determined based on posture data collected by the posture detection devices, and then the left and right of the first and second earmuffs are determined based on the eversion directions of the first and second earmuffs.

Referring to fig. 5, fig. 5 is a schematic diagram illustrating an included angle between an earmuff and a user's head according to the present invention.

Further, the attitude detecting device may be specifically a gyroscope, an acceleration sensor, a multi-axis attitude sensor, or the like.

Therefore, by the mode, even if misjudgment occurs when the left ear muffs and the right ear muffs are determined based on the sequence of the first proximity detection device and the second proximity detection device contacting the ears, the left ear muffs and the right ear muffs can be determined based on the posture data acquired by the posture detection device, and the reliability of wearing detection of the left ear and the right ear of the headset is further improved.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a left-ear and right-ear wearing detection device of a headset according to the present invention, the left-ear and right-ear wearing detection device includes:

a memory 61 for storing a computer program;

a processor 62 for implementing the steps of the left and right ear wear detection method of a headset as described above when executing a computer program.

In practical applications, considering that the number of pins of the processor is limited, and the first proximity detection means and the second proximity detection means may be plural, the first sensor driving means may be provided between the processor and the proximity detection sensor of the first earmuff, and the second sensor driving means may be provided between the processor and the proximity detection sensor of the second earmuff, and the first sensor driving means and the second sensor driving means may be configured to send a left-and-right ear wearing detection instruction to the processor and collect the collected data of the proximity detection means connected to the processor in a round-robin manner when the headset is determined to be in a wearing process based on the proximity detection means connected to the processor, and transmit the collected data to the processor, so that the processor determines whether the headset is in a wearing process based on whether the left-and-right ear wearing detection instruction is received, and determines left and right of the earmuff based on the collected data. It can be seen that the footprint of the processor pins can be reduced in this manner.

For the introduction of the left and right ear wearing detection device of the headphone provided by the present invention, please refer to the above method embodiment, which is not described herein again.

The invention also provides a headset, which comprises a first earmuff and a second earmuff, wherein a first proximity detection device is arranged in a first same area of the first earmuff and a second proximity detection device is arranged in a second same area of the first earmuff and the second earmuff, and the distances from a first ear area corresponding to the first proximity detection device in the first earmuff or the second ear area corresponding to the second proximity detection device in the second earmuff to the cranial side are different;

For the introduction of the headphone provided by the present invention, please refer to the above method embodiment, and the present invention is not repeated herein.

It is to be noted that, in the present specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A method for detecting whether a headphone is worn by left and right ears is characterized by comprising the following steps:

judging whether the headset is worn;

if the headset is worn, determining the left and right of the corresponding earmuffs based on the sequence of the first proximity detection device and the second proximity detection device in the first earmuff and/or the second earmuff in the headset contacting the ears;

the first and second proximity detection devices are disposed in the first and second same areas of the first and second earmuffs, and the distance from the first ear area corresponding to the first proximity detection device to the cranial side of the second ear area corresponding to the second proximity detection device in any one of the earmuffs is different from the cranial side of the first ear area.

2. The left-right ear wearing detection method of a headphone according to claim 1, wherein a distance from the cranial side of the first ear region in the left ear is larger than a distance from the cranial side of the second ear region, and a distance from the cranial side of the first ear region in the right ear is smaller than a distance from the cranial side of the second ear region.

3. The left-right ear wearing detection method of a headphone according to claim 2, wherein a first ear region in the left ear is an helix region, and a second ear region in the left ear is an tragus region; a first ear region in the right ear is an tragus region, and a second ear region in the right ear is an helix region.

4. The method of claim 2, wherein determining left and right of a first and second ear muff of the headset based on the order in which the first and second proximity detection devices of the first and/or second ear muffs contact the ear comprises:

5. The method for detecting wearing of left and right ears of a headphone according to claim 2, wherein when the first proximity detection means is plural and the second proximity detection means is plural; determining left and right of a respective ear cup based on a precedence of first and second proximity detection devices in a first and/or second ear cup in the headset contacting the ear, comprising:

6. The method for detecting wearing of left and right ears of a headphone according to claim 1, wherein determining whether the headphone is in a wearing process comprises:

determining whether there is a first or second proximity detection device in the first and/or second earmuff contacting the ear;

if yes, determining that the headset is in the wearing process;

if not, the headset is judged not to be in the wearing process.

7. The method of claim 1, wherein after determining the left and right of the respective ear cup based on the order in which the first proximity detection device and the second proximity detection device in the first ear cup and/or the second ear cup of the headset contact the ear, the method further comprises:

8. The left-right ear wearing detection method of a headphone according to any one of claims 1 to 7, wherein a posture detection device is provided on each of the first earmuff and the second earmuff;

after determining the left and right of the respective ear cup based on the precedence order in which the first and second proximity detection devices in the first and/or second ear cups in the headset contact the ear, further comprising:

9. A left and right ear wear detection device for a headphone, comprising:

a memory for storing a computer program;

a processor for implementing the steps of the method for left and right ear wear detection of a headset according to any of claims 1 to 8 when executing the computer program.

10. A headset comprising a first ear cup and a second ear cup, wherein a first same region of the first ear cup and a second same region of the second ear cup are provided with the first proximity detection device and a second same region of the second ear cup is provided with the second proximity detection device, and a first ear region corresponding to the first proximity detection device and a second ear region corresponding to the second proximity detection device in the first ear cup or the second ear cup are at different distances from the cranial side;

the headset further comprises left and right ear wear detection means according to claim 9, the left and right ear wear detection means being connected to the first and second proximity detection means, respectively.