WO2020019846A1 - 无线耳机音量控制方法、无线耳机及移动终端 - Google Patents
无线耳机音量控制方法、无线耳机及移动终端 Download PDFInfo
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- WO2020019846A1 WO2020019846A1 PCT/CN2019/088164 CN2019088164W WO2020019846A1 WO 2020019846 A1 WO2020019846 A1 WO 2020019846A1 CN 2019088164 W CN2019088164 W CN 2019088164W WO 2020019846 A1 WO2020019846 A1 WO 2020019846A1
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- volume
- wireless headset
- playback
- target
- mobile terminal
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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
- H04R1/00—Details of transducers, loudspeakers or microphones
- H04R1/10—Earpieces; Attachments therefor ; Earphones; Monophonic headphones
- H04R1/1091—Details not provided for in groups H04R1/1008 - H04R1/1083
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/3827—Portable transceivers
- H04B1/3833—Hand-held transceivers
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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
- H04R1/00—Details of transducers, loudspeakers or microphones
- H04R1/10—Earpieces; Attachments therefor ; Earphones; Monophonic headphones
- H04R1/1041—Mechanical or electronic switches, or control elements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/3827—Portable transceivers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/3827—Portable transceivers
- H04B1/385—Transceivers carried on the body, e.g. in helmets
- H04B2001/3872—Transceivers carried on the body, e.g. in helmets with extendable microphones or earphones
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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
- H04R2420/00—Details of connection covered by H04R, not provided for in its groups
- H04R2420/07—Applications of wireless loudspeakers or wireless microphones
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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
- H04R2430/00—Signal processing covered by H04R, not provided for in its groups
- H04R2430/01—Aspects of volume control, not necessarily automatic, in sound systems
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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
- H04R2499/00—Aspects covered by H04R or H04S not otherwise provided for in their subgroups
- H04R2499/10—General applications
- H04R2499/11—Transducers incorporated or for use in hand-held devices, e.g. mobile phones, PDA's, camera's
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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
- H04R5/00—Stereophonic arrangements
- H04R5/033—Headphones for stereophonic communication
Definitions
- the present application relates to the field of communications technologies, and in particular, to a method for controlling volume of a wireless headset, a wireless headset, and a mobile terminal.
- the embodiments of the present application provide a wireless earphone volume control method, a wireless earphone, and a mobile terminal, which can automatically and quickly set the playback volume of a wireless earphone suitable for a user.
- a first aspect of the embodiments of the present application provides a wireless earphone volume control method.
- the method is applied to a mobile terminal and includes:
- the obtaining a target playback volume interval of the wireless headset includes:
- the minimum volume value and the maximum volume value of the playback volume of the wireless headset in the first time period are obtained as the minimum and maximum values of the target playback volume interval, respectively.
- the method further includes:
- the obtaining the target playback volume interval of the wireless headset includes:
- a target playback volume interval corresponding to the external noise volume is determined.
- the adjusting the playback volume of the wireless headset within the target playback volume interval includes:
- the method further includes:
- the determination information determines that a first volume value in the target playback volume interval is the target volume value, and the first volume value is a volume value that is most frequently used in the target playback volume interval.
- the mapping relationship between the noise volume and the playback volume interval includes the mapping relationship between the noise volume and the playback volume interval of the application type; and the mapping relationship between the noise volume and the playback volume interval is determined and determined.
- the method further includes:
- the determining the target playback volume interval corresponding to the external noise volume according to the mapping relationship between the noise volume and the playback volume interval includes:
- An application type playback volume interval corresponding to the external noise volume is determined according to a mapping relationship between a noise volume and an application type playback volume interval.
- the mapping relationship between the noise volume and the playback volume interval includes a mapping relationship between the noise volume and the fitting degree and the playback volume interval; and the determination is based on the mapping relationship between the noise volume and the playback volume interval.
- the method further includes:
- fitting degree feedback information sent by the wireless headset, where the fitting degree feedback information is used to indicate a current fitting degree between the wireless headset and an ear;
- the determining the target playback volume interval corresponding to the external noise volume according to the mapping relationship between the noise volume and the playback volume interval includes:
- a target playback volume interval corresponding to the external noise volume and the current fit degree is determined according to a mapping relationship between the noise volume and the fit degree and the playback volume zone.
- the wireless headset includes a first wireless headset and a second wireless headset, and after adjusting the playback volume of the wireless headset to a volume value within the target playback volume interval, all The method also includes:
- the playback volume of the first wireless headset is adjusted to a minimum volume value within the target playback volume interval, and the low-battery notification information is used to prompt all The power of the first wireless headset is lower than a first power threshold.
- the second aspect of the embodiments of the present application provides another method for controlling volume of a wireless headset, where the method is applied to a wireless headset, and the method includes:
- the playback volume of the wireless headset is controlled by the mobile terminal to be adjusted within a target playback volume interval
- volume determination information is used by the mobile terminal to determine a playback volume value of the wireless headset at the moment when the volume determination information is received Is the target volume value, and the playback volume of the wireless headset is adjusted to the target volume value.
- the minimum and maximum values of the target playback volume interval are the minimum volume value and the maximum volume value of the playback volume of the wireless headset set by the user in the first time period, respectively.
- the wireless headset includes a first wireless headset and a second wireless headset, and the method further includes:
- the first wireless headset When the power of the first wireless headset is lower than a first power threshold, the first wireless headset sends low-battery notification information to the mobile terminal, where the low-battery notification information is used to notify the mobile terminal
- the playback volume of the first wireless headset is adjusted to a minimum volume value within the target playback volume interval.
- the method further includes:
- a current fit degree between the wireless earphone and the ear is detected by a sensor of the wireless earphone, and fit degree feedback information indicating the current fit degree is sent to the mobile terminal.
- a third aspect of the embodiments of the present application provides a mobile terminal including an obtaining unit, an adjusting unit, and a determining unit, where:
- the acquiring unit is configured to acquire a target playback volume interval of the wireless headset when the mobile terminal is connected to the wireless headset in an in-ear state;
- the adjusting unit is configured to adjust the playback volume of the wireless headset within the target playback volume interval
- the determining unit is configured to, when receiving the volume determination information from the wireless headset, determine that the playback volume of the wireless headset at the moment when the volume determination information is received is a target volume value;
- the adjusting unit is further configured to adjust the playback volume of the wireless headset to the target volume value.
- a fourth aspect of the embodiments of the present application provides a wireless headset, including: a volume adjustment unit, a volume determination unit, a transmission unit, and a playback unit, where:
- the volume adjustment unit is configured to adjust the playback volume of the wireless headset within a target playback volume range when the wireless headset is in the ear state and is connected to a mobile terminal;
- the volume determination unit is configured to detect a determination instruction for determining a target volume
- the transmission unit is configured to send volume determination information to the mobile terminal when the volume determination unit detects a determination instruction for determining a target volume; the volume determination information is used to make the mobile terminal determine to receive the volume determination information.
- the playback volume value of the wireless headset at the time of the volume determination information is a target volume value, and the playback volume of the wireless headset is adjusted to the target volume value;
- a playback unit configured to play audio at the target volume value.
- a fifth aspect of the embodiments of the present application provides another mobile terminal, including a processor, a memory, a communication interface, and one or more programs.
- the one or more programs are stored in the memory and configured by The processor executes, and the program includes instructions for performing the steps in the method according to the first aspect.
- a sixth aspect of the embodiments of the present application provides a computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a mobile terminal to execute the method according to the first aspect.
- a seventh aspect of the embodiments of the present application provides another wireless headset, including a processor, a speaker, a memory, a communication interface, and one or more programs.
- the one or more programs are stored in the memory and configured. Executed by the processor, the program includes instructions for performing the steps in the method according to the second aspect.
- An eighth aspect of the embodiments of the present application provides a computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a mobile terminal to execute the method according to the second aspect.
- a target playback volume interval of the wireless headset is obtained, and a playback volume of the wireless headset is adjusted within the target playback volume range.
- the playback volume of the wireless headset at the moment when the volume determination information is received is determined as the target volume value, and then the playback volume of the wireless headset is adjusted to the above-mentioned target volume value, which does not require the user to manually adjust it multiple times. Automatically and quickly set the user's applicable wireless headset playback volume.
- the playback volume of the wireless headset is controlled by the mobile terminal and adjusted within the target playback volume range.
- a determination instruction for determining the target volume Sending volume determination information to the mobile terminal, where the volume determination information is used by the mobile terminal to determine the playback volume value of the wireless headset at the time when the volume determination information is received, and adjust the wireless headset playback volume to the target volume value, wirelessly
- the headset can play audio at the target volume value, and does not require the user to manually adjust it multiple times, and can automatically and quickly set the user-friendly wireless headset playback volume.
- FIG. 1 is a schematic flowchart of a wireless earphone volume control method disclosed in an embodiment of the present application
- FIG. 2 is a schematic flowchart of another wireless earphone volume control method disclosed in an embodiment of the present application.
- FIG. 3 is a schematic flowchart of another method for controlling a volume of a wireless headset disclosed in an embodiment of the present application
- FIG. 4 is a schematic structural diagram of a mobile terminal disclosed in an embodiment of the present application.
- FIG. 5 is a schematic structural diagram of a wireless headset disclosed in an embodiment of the present application.
- FIG. 6 is a schematic structural diagram of another mobile terminal disclosed in an embodiment of the present application.
- FIG. 7 is a schematic structural diagram of another wireless headset disclosed in an embodiment of the present application.
- an embodiment herein means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention.
- the appearances of this phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are they independent or alternative embodiments that are mutually exclusive with other embodiments. It is explicitly and implicitly understood by those skilled in the art that the embodiments described herein may be combined with other embodiments.
- the mobile terminal described in the embodiments of the present application includes, but is not limited to, other portable devices such as a mobile phone, a laptop computer, or a tablet computer with a touch-sensitive surface (for example, a touch screen display and / or a touch pad). .
- the mobile terminal supports various applications, such as one or more of the following: drawing applications, presentation applications, word processing applications, spreadsheet applications, gaming applications, phone applications, video conferencing applications, email Applications, instant messaging applications, exercise support applications, photo management applications, digital camera applications, digital camera applications, web browsing applications, digital music player applications, and / or digital video player applications.
- applications such as one or more of the following: drawing applications, presentation applications, word processing applications, spreadsheet applications, gaming applications, phone applications, video conferencing applications, email Applications, instant messaging applications, exercise support applications, photo management applications, digital camera applications, digital camera applications, web browsing applications, digital music player applications, and / or digital video player applications.
- the wireless earphone mentioned in the embodiment of the present application is that the middle earphone cable is replaced by radio waves, and is connected from the audio outlet of the audio playback device to the transmitting end, and then transmitted by the transmitting end to the earphone of the receiving end through radio waves.
- the receiving end is equivalent to a radio.
- Wireless headsets can be divided into infrared wireless headsets, Mibo wireless headsets (FM FM headsets) and decimeter wireless headsets (Bluetooth headsets).
- FIG. 1 is a schematic flowchart of a wireless earphone volume control method disclosed in an embodiment of the present application. As shown in FIG. 1, the wireless earphone volume control method is applied to a mobile terminal and includes the following steps:
- the mobile terminal When the mobile terminal is connected to a wireless headset in an in-ear state, the mobile terminal acquires a target playback volume interval of the wireless headset.
- the wireless headset in the embodiment of the present application may be a Bluetooth headset, and may be connected to a mobile terminal through Bluetooth technology.
- Bluetooth is a wireless technology standard that enables short-range data exchange between fixed devices, mobile devices, and building personal area networks.
- the wireless headset may include a sensor, a microphone, a speaker, and a wireless communication module (for example, a Bluetooth module).
- a wireless communication module for example, a Bluetooth module
- the wireless earphone can detect whether the wireless earphone is in the ear state through a built-in sensor (a pressure sensor on the surface of the earphone or an air pressure sensor provided in the earphone shell).
- a built-in sensor a pressure sensor on the surface of the earphone or an air pressure sensor provided in the earphone shell.
- the mobile terminal may store a target playback volume interval.
- the above target playback volume interval can be understood as a volume interval commonly used by users.
- the local end of the wireless earphone can record the volume value set by the user, and the mobile terminal can obtain the historical volume value recorded by the wireless earphone described above, and the statistical analysis obtains the volume range adapted for the in-ear state, that is, the target playback volume range.
- the method for obtaining the target playback volume interval may specifically include: obtaining, by the mobile terminal, the minimum volume value and the maximum volume value of the playback volume of the wireless headset in the first period of time, as the minimum value and the maximum value of the target playback volume interval, respectively.
- the first time period indicates a time period in which the mobile terminal can collect historical playback volume. For example, the first time period is 2 weeks, and the mobile terminal can obtain the minimum volume value and the maximum volume of the playback volume of the wireless headset in the last two weeks. The volume value to obtain the target playback volume interval.
- the method further includes:
- the mobile terminal receives the external noise volume collected by the wireless headset
- the obtaining the target playback volume interval of the wireless headset includes: (12) the mobile terminal determines a target playback volume interval corresponding to the external noise volume according to a mapping relationship between the noise volume and the playback volume interval.
- step (12) When the wireless headset is in the in-ear state, you can collect external noise through the microphone at the local end of the headset, determine the external noise volume, and send the external noise volume to the connected mobile terminal.
- the mobile terminal can pair with the wireless headset to establish a communication connection. After that, the external noise volume collected by the wireless headset can be received, and then step (12) is performed.
- the mobile terminal may store the mapping relationship between the noise volume and the playback volume range, for example, in the form of a mapping relationship table. It can be understood that, when the noise volume is known, the noise can be found from the mapping relationship.
- the playback volume interval corresponding to the volume is the target playback volume interval.
- the above-mentioned mapping relationship between the noise volume and the playback volume interval can be obtained statistically by the mobile terminal.
- the wireless headset When the wireless headset is in the ear state and connected to the mobile terminal, the wireless headset can collect the external noise volume, and the user can adjust the playback volume of the wireless headset according to his own needs in different environments to achieve the most suitable playback effect.
- the above noise volume can be understood.
- the noise volume condition can be measured by the noise volume interval or the noise volume level.
- the playback volume interval corresponding to the noise volume interval [a, b) is [x, y), where x and y can be expressed as a percentage of the maximum playback volume.
- x can be 15% of the maximum playback volume.
- the mobile terminal can record the playback volume value of the wireless headset set by the user.
- the playback volume value can be two or more.
- the mobile terminal uses the maximum and minimum playback volume.
- the above-mentioned playback volume interval can be calculated, that is, the playback volume interval corresponding to the noise volume is obtained.
- multiple playback volume intervals corresponding to multiple noise volumes can be obtained, and the mobile terminal obtains the mapping relationship between the above-mentioned noise volume and playback volume interval.
- the playback volume interval can be understood as a playback volume interval commonly used by users.
- the mapping relationship between the noise volume and the playback volume interval can be set by the user. For example, multiple noise volume levels can be set in a mobile terminal (the higher the noise volume level, the larger or smaller the noise volume) and the corresponding playback volume interval. The user can select a suitable playback volume interval for a certain noise volume level. As the playback volume interval corresponding to the noise volume level, after the setting is completed, the mobile terminal obtains the mapping relationship between the noise volume and the playback volume interval. In general, the higher the noise level, the higher the playback volume setting.
- the usage time of each playback volume value can also be counted, and the playback volume value with the longest usage time under the current noise volume condition is the midpoint of the playback volume range.
- the above-mentioned playback volume interval is obtained.
- the mapping relationship between the above-mentioned noise volume and the playback volume interval in the embodiment of the present application can be obtained through various methods of statistics or calculation.
- the mobile terminal can use various big data calculation methods or artificial intelligence algorithms to calculate the external noise volume collected by the wireless headset. And the set playback volume to get the above mapping relationship, which will not be repeated here.
- mapping relationship between noise volume and playback volume interval is not fixed. Can be determined based on historical statistics. For example, when it is detected that the environmental noise changes from the first noise volume to the second noise volume, and the earphone volume is manually adjusted from the first volume to the second volume, a mapping relationship between the second noise volume and the second volume may be established.
- the mobile terminal can find the playback volume interval corresponding to the external noise volume in the mapping relationship between the noise volume and the playback volume interval, and determine it as the target playback volume interval.
- the wireless headset playback volume is adjusted to the target playback volume interval. Value, you can automatically set the playback volume of the wireless headset suitable for the current environment.
- step 102 may be performed.
- the mobile terminal adjusts a playback volume of the wireless headset within the target playback volume range.
- the mobile terminal can adjust the playback volume of the wireless headset and dynamically adjust the playback volume of the wireless headset within the target playback volume range.
- the current volume can be set to the playback volume. Any one of the volume values in the interval, the wireless earphone can output audio signals with the above volume value.
- the above step 102 may include the step (1) the mobile terminal may adjust the playback volume of the wireless headset from small to large or from large to small within the target playback volume range;
- the mobile terminal can dynamically adjust the playback volume of the wireless headset.
- the above adjustment from small to large refers to the process in which the mobile terminal gradually increases the playback volume within the target playback volume range.
- the target playback volume range is the maximum playback volume. 20% -30%
- the mobile terminal can set the playback volume of the wireless headset to 20% of the maximum playback volume, and then gradually increase the volume, up to 30% of the maximum playback volume.
- the above adjustment from small to large refers to the process in which the mobile terminal gradually decreases the playback volume within the target playback volume range.
- the target playback volume range is 20% -30% of the maximum playback volume.
- the mobile terminal can Set the playback volume of the wireless headset to 30% of the maximum playback volume, and then gradually reduce the volume to a minimum of 20% of the maximum playback volume.
- step 103 may be performed.
- the mobile terminal receives the volume determination information from the wireless headset, determine that the playback volume of the wireless headset at the moment when the volume determination information is received is a target volume value.
- the user can select the playback volume to be set at any time.
- the user can trigger the above-mentioned determination instruction through the interactive operation with the wireless headset to set the playback volume of the wireless headset.
- the above interactive operations may include operations such as tapping, tapping, and pressing on the wireless headset.
- the user triggers the determination by performing a specified tapping operation on the wireless headset (such as tapping one or two times).
- the wireless headset detects the aforementioned tapping operation, and may send the volume determination information to the mobile terminal to determine the current playback volume as the target volume value; for another example, during step 102, the user performs a touch operation on the wireless headset , The above-mentioned determination instruction is triggered, and the wireless headset detects the touch operation, and may send the above-mentioned volume determination information to the mobile terminal.
- the interactive operation may also be a pressing operation.
- the wireless headset detects a pressing operation on the wireless headset, it may detect whether the pressure value of the pressing operation is greater than a preset pressure threshold. If the pressure value is greater than that, a determination instruction is triggered. The headset sends the volume determination information to the mobile terminal.
- the wireless earphone may include a first wireless earphone and a second wireless earphone, and the interaction with the wireless earphone may include an interaction with the first wireless earphone to select a volume of the first wireless earphone.
- the interactive operation with the second wireless headset is to select the volume of the second wireless headset, that is, the two wireless headsets can communicate with the mobile terminal and set the playback volume respectively.
- the first wireless headset can communicate with the mobile terminal
- the second wireless headset communicates with the first wireless headset
- the interaction with the wireless headset is mainly directed to the first wireless headset.
- the playback volume of the two wireless headsets is adjusted through interactive operations with the primary headset.
- the wireless headset may send volume determination information to the mobile terminal. After receiving the volume determination information, the wireless headset may determine that the playback volume value of the wireless headset at the moment when the volume determination information is received is the target volume value.
- step 102 if the playback volume of the wireless headset has used the volume value of the entire target playback volume range, but the above-mentioned volume determination information has not been received, the mobile terminal may continue to perform step 102, that is, the above adjustment may be repeated. In the process, the playback volume is changed within the target playback volume interval until the volume determination information is received, and then steps 103 and 104 are performed.
- the mobile terminal does not receive the volume determination information sent by the wireless headset within the first duration threshold after performing the adjustment step 102, the following steps may be performed:
- the mobile terminal determines that a first volume value in the target playback volume interval is the target volume value, and the first volume value is a volume value that is most frequently used in the target playback volume interval.
- the mobile terminal may store the above-mentioned first duration threshold, and the mobile terminal may simultaneously detect the duration of executing step 102. If the duration of executing step 102 exceeds the first duration threshold, it indicates that the user has not performed the operation of selecting the target volume, and the mobile terminal may automatically After selecting the target volume value, if the first volume value in the target playback volume interval is determined, the target volume value is determined.
- the mobile terminal can also count the frequency of use of each playback volume value, and can use the volume value with the highest frequency in the target playback volume range as the first volume value. storage. If the mobile terminal does not receive the volume determination information within the first duration threshold after performing the adjustment step 102, it may determine that the most frequently used volume value in the target playback volume interval is the target volume value.
- the mobile terminal may also randomly select a volume value within the target playback volume interval as the target volume value, or select a previous volume value within the target playback volume interval as the target volume value.
- Step 104 is performed after the target volume value is determined.
- the playback volume of the wireless headset is adjusted within a target playback volume range, and when the volume determination information from the wireless headset is received, it is determined to receive the After the volume is determined, the playback volume value of the wireless headset is the target volume value, and then the playback volume of the wireless headset is adjusted to the target volume value.
- the playback volume range of the wireless headset can be automatically selected (which can be understood as the volume range commonly used by users). , Let users choose the most suitable playback volume, can automatically set the user's applicable wireless headset playback volume, and facilitate the user's own needs to accurately set the wireless headset playback volume.
- FIG. 2 is a schematic flowchart of another method for controlling a volume of a wireless earphone disclosed in an embodiment of the present application.
- the wireless earphone volume control method is applied to a wireless earphone and includes the following steps:
- the playback volume of the wireless headset is controlled by the mobile terminal and adjusted within a target playback volume interval.
- the wireless earphone can detect whether the wireless earphone is in the ear state through a built-in sensor (a pressure sensor on the surface of the earphone or an air pressure sensor provided in the earphone shell).
- a built-in sensor a pressure sensor on the surface of the earphone or an air pressure sensor provided in the earphone shell.
- the wireless headset When the wireless headset detects a determination instruction for determining a target volume, the wireless headset sends volume determination information to the mobile terminal; the volume determination information is used by the mobile terminal to determine a playback volume value of the wireless headset when the volume determination information is received. Is the target volume value, and the playback volume of the wireless headset is adjusted to the target volume value.
- the user can select the playback volume to be set at any time.
- the user can trigger the above-mentioned determination instruction through the interactive operation with the wireless headset to set the playback volume of the wireless headset.
- the above-mentioned interactive operations may include operations such as tapping, tapping, and pressing on the wireless headset.
- the wireless headset may send volume determination information to the mobile terminal.
- the mobile terminal receives the volume determination information, it may determine that the playback volume value of the wireless headset when the volume determination information is received is a target volume value, and may be executed. Step 203.
- the method further includes: (21) the wireless earphone collects external noise volume when the wireless earphone is in an ear state and connected to a mobile terminal;
- the above step 202 may include: (22) the wireless headset sends the external noise volume to the mobile terminal, so that the mobile terminal determines a target playback volume interval corresponding to the external noise volume according to a mapping relationship between the noise volume and the playback volume interval, and The mobile terminal adjusts the playback volume of the wireless headset to a volume value within the target playback volume interval.
- the wireless earphone can detect whether the wireless earphone is in the ear state through a built-in sensor (a pressure sensor on the earphone surface or an air pressure sensor provided in the earphone shell), and is connected to the wireless earphone in a mobile terminal, and the wireless earphone is in the ear state.
- the wireless earphone can collect external noise through the microphone at the local end of the earphone, send the external noise to the mobile terminal connected to the wireless earphone, and the mobile terminal determines the volume of the external noise.
- the mobile terminal can be paired with the wireless headset, and after establishing a communication connection, it can receive the external noise volume collected by the wireless headset.
- the wireless earphone uses a microphone to collect the external noise volume, which may be periodic.
- the wireless earphone may collect the external noise volume every detection interval threshold. It should be noted that, because the ambient noise does not usually change much within a period of time, the detection can be performed at a time threshold (for example, 30 seconds) every time the detection interval is described above.
- the volume of external noise collected When the volume of the external noise collected last time is the same, step (22) can be omitted, and the above steps can save the power of the wireless headset.
- the wireless headset After collecting the external noise volume, the wireless headset can send the external noise volume to the connected mobile terminal.
- the adjustment process after the mobile terminal receives the external noise volume refer to steps (11) and (11) in the embodiment shown in FIG. 1 The detailed description in 12) will not be repeated here.
- the wireless headset plays audio at the target volume value.
- the wireless earphone When the wireless earphone is in the ear state and connected to the mobile terminal, the external noise volume is collected, and the external noise volume is sent to the mobile terminal, so that the mobile terminal determines the corresponding external noise volume according to the mapping relationship between the noise volume and the playback volume interval.
- the target playback volume range and enable the mobile terminal to adjust the playback volume of the wireless headset to the volume value in the target playback volume range, and then play the audio with the volume value in the target playback volume range, without the need for the user to manually adjust, enabling mobile by
- the terminal automatically sets the playback volume of the wireless headset suitable for the current environment.
- the playback volume of the wireless headset is controlled by the mobile terminal to be adjusted within the target playback volume range.
- Send volume determination information to the mobile terminal, where the volume determination information is used by the mobile terminal to determine the playback volume value of the wireless headset when the volume determination information is received, and to adjust the playback volume of the wireless headset to the target volume value.
- the audio can be played at the target volume value, and the user does not need to manually adjust it multiple times to automatically and quickly set the user-friendly wireless headset playback volume.
- FIG. 3 is a schematic flowchart of another volume control method for a wireless earphone disclosed in an embodiment of the present application.
- FIG. 3 is further optimized based on FIG. 1 and FIG. 2.
- the wireless headset volume control method is applicable to the interaction process between a wireless headset and a mobile terminal, and includes the following steps:
- the wireless earphone can collect the external noise through the microphone of the earphone of the earphone, determine the volume of the external noise, and send the above external noise volume to the mobile terminal connected to the wireless earphone.
- the mobile terminal can pair with the wireless earphone, and after establishing the communication connection, can receive the wireless earphone
- the collected external noise volume is then performed in step 302.
- the wireless headset sends the external noise volume to the mobile terminal.
- steps 301 and 302 reference may be made to the detailed descriptions of steps (21) and (22) in the embodiment shown in FIG. 2, respectively, and details are not described herein again.
- the above-mentioned fitting degree of the earphone refers to the fitting degree of the earphone to the user's ear. Generally speaking, the higher the fitting degree, the higher the energy transmitted from the earphone's speaker to the ear. Therefore, when determining the playback volume based on the noise volume, the fit of the headphones can also be considered.
- the fit degree of the earphone can be detected by a pressure sensor provided on the surface of the wireless earphone, and can also be detected by an air pressure sensor provided in the earphone case of the wireless earphone.
- the wireless earphone detecting the fit degree of the earphone may be periodic, and after detecting the fit degree of the earphone, the fit degree feedback information may be sent to the mobile terminal.
- the mobile terminal determines a target playback volume interval corresponding to the external noise volume and the current fit degree according to a mapping relationship between the noise volume, the fit degree, and the playback volume range.
- the mobile terminal may receive the fitting degree feedback information from the wireless headset to determine the current fitting degree of the wireless headset.
- the mobile terminal can store the mapping relationship between the above-mentioned noise volume, fit degree, and playback volume interval, for example, in the form of a mapping relationship table. It can be understood that, given the known noise volume and the current fit degree of the headset, The corresponding playback volume interval is found in the mapping relationship, and is the target playback volume interval. In general, when the known noise volume is determined, the higher the current fit of the headset, the smaller the corresponding playback volume interval; when the current fit of the headset is determined, the higher the known noise, The larger the volume of the corresponding playback volume section.
- the above-mentioned mapping relationship between the noise volume and the playback volume interval can be obtained statistically by the mobile terminal.
- the wireless headset When the wireless headset is in the ear state and connected to the mobile terminal, the wireless headset can collect the external noise volume, and the user can adjust the playback volume of the wireless headset according to his own needs in different environments to achieve the most suitable playback effect.
- the above noise volume can be understood.
- the noise volume condition can be measured by the noise volume interval or the noise volume level.
- the playback volume interval corresponding to the noise volume interval [a, b) is [x, y), where x and y can be expressed as a percentage of the maximum playback volume.
- x can be 15% of the maximum playback volume.
- the mobile terminal can record the playback volume value of the wireless headset set by the user.
- the playback volume value can be two or more.
- the mobile terminal uses the maximum and minimum playback volume.
- the above-mentioned playback volume interval can be calculated, that is, the playback volume interval corresponding to the noise volume is obtained.
- multiple playback volume intervals corresponding to multiple noise volumes can be obtained, and the mobile terminal obtains the mapping relationship between the above-mentioned noise volume and playback volume interval.
- the playback volume interval can be understood as a playback volume interval commonly used by users.
- the mapping relationship between the noise volume and the playback volume interval can be set by the user. For example, multiple noise volume levels can be set in a mobile terminal (the higher the noise volume level, the larger or smaller the noise volume) and the corresponding playback volume interval. The user can select a suitable playback volume interval for a certain noise volume level. As the playback volume interval corresponding to the noise volume level, after the setting is completed, the mobile terminal obtains the mapping relationship between the noise volume and the playback volume interval. In general, the higher the noise level, the higher the playback volume setting.
- the mobile terminal may first determine the playback volume interval corresponding to the external noise volume through the mapping relationship between the noise volume and the playback volume interval, and further determine the target playback volume interval in combination with the headset fit.
- the external noise volume level is 3, and the fit degree of the headset is 60%, and the corresponding target playback volume range is 32% -40% of the maximum playback volume. If the fit degree of the headset is 80% at the same external noise volume, the corresponding The target playback volume range can be 25% -33% of the maximum playback volume.
- the actual volume received by the user through the headset will be greatly affected, and it will also be affected differently by external noise.
- by judging the fit of the earphones it is possible to more accurately determine the energy situation of the wireless earphones received by the user ’s ears.
- determining the playback volume only by the external noise volume it is possible to more accurately obtain the wireless that is most suitable for the current environment and suitable for the user.
- the playback volume of the headset is possible to more accurately obtain the wireless that is most suitable for the current environment and suitable for the user.
- mapping relationship between the noise volume and the playback volume interval includes the mapping relationship between the noise volume and the playback volume interval of the application type.
- Step 304 may also be:
- the application type playback volume interval corresponding to the external noise volume is determined.
- the playback volume of the wireless earphones commonly used by users may be different, so it may be considered to detect the type of the application that currently generates the audio signal to determine the playback volume.
- the mobile terminal can store the mapping relationship between the above-mentioned noise volume and application type playback volume interval, for example, in the form of a mapping relationship table. It can be understood that, given the known noise volume and the type of application that currently generates the audio signal, The corresponding playback volume interval is found in the mapping relationship, and is the playback volume interval of the application type.
- the mobile terminal can store the mapping relationship between the noise volume corresponding to different application types and the playback volume interval of the application type, that is, under the same noise volume condition, if the current application that generates the audio signal is different, the set playback volume may be different.
- the mobile terminal can classify applications, which can be divided by the type of the application itself, such as game applications, video playback applications, and music playback applications; or the user can set the application type, such as the first application type. Includes application 1, application 2, and the second type of application includes application 3.
- Each type of application type has a corresponding noise volume and application type playback volume interval.
- the mobile terminal may first determine the application type that currently generates the audio signal, and then obtain the mapping relationship between the noise volume corresponding to the application type that currently generates the audio signal and the application type playback volume interval, and then determine the application type playback volume interval.
- the user uses a mobile terminal
- the application 2 is running and belongs to the first application type.
- the audio played through the wireless headset comes from the application 2.
- the mobile terminal determines that the application type currently generating the audio signal is the first application type, that is, the noise corresponding to the current first application type can be obtained.
- the mapping relationship between the volume and the playback volume interval of the application type determines the playback volume interval of the application type. Generally speaking, you can set the higher the noise volume, the higher the corresponding playback volume interval.
- step 305 may be performed.
- the mobile terminal adjusts the playback volume of the wireless headset from small to large or from large to small within the target playback volume range.
- the wireless headset When the wireless headset detects a determination instruction for determining a target volume, the wireless headset sends volume determination information to the mobile terminal.
- the mobile terminal determines that the playback volume value of the wireless headset when the volume determination information is received is a target volume value.
- the mobile terminal adjusts the playback volume of the wireless headset to the target volume value.
- the wireless headset plays audio at the foregoing target volume value.
- steps 305, 307, and 308 reference may be made to the detailed description in steps 102 and 103 of the embodiment shown in FIG. 1, and the foregoing step 306 may refer to the detailed description in step 202 of the embodiment shown in FIG. 2. I will not repeat them here.
- the wireless earphone includes a first wireless earphone and a second wireless earphone.
- the first wireless earphone sends low-battery notification information to the mobile terminal.
- the wireless headset in the embodiment of the present application may include a first wireless headset and a second wireless headset.
- the first wireless headset and the second wireless headset may be connected to a mobile terminal, respectively, or the mobile terminal is communicatively connected to the first wireless headset.
- the headset is communicatively connected with the second wireless headset.
- the mobile terminal can implement the playback volume adjustment function of the first wireless headset and the second wireless headset, respectively, and is particularly suitable for users with different listening habits on the left and right ears, or large differences in external noise volume on both sides of the ears.
- the above steps can be performed separately to determine the target playback volume interval of each wireless headset, so that the playback volume of the first wireless headset and the second wireless headset are automatically set respectively for the current environment. Play volume.
- the first wireless headset may store a first power threshold, for example, 20% of the total power.
- a first power threshold for example, 20% of the total power.
- the first wireless headset may send low-battery notification information to the mobile terminal, and then step 311 may be performed.
- the mobile terminal adjusts the playback volume of the first wireless headset to a minimum volume value within the target playback volume interval.
- the mobile terminal may adjust the playback volume of the first wireless headset to a minimum volume value within the target playback volume interval.
- the above-mentioned first wireless headset may store two or more power thresholds.
- it may send corresponding notification information to the mobile terminal. For different notification information, adjust the volume value of the first wireless headset.
- the embodiment of the present application can save the power of the wireless earphones while ensuring the listening effect of the wireless earphones.
- the wireless earphone when the wireless earphone is in the ear state and is connected to a mobile terminal, the external noise volume is collected, the wireless earphone sends the external noise volume to the mobile terminal, and the wireless earphone can also detect the wireless through the sensor of the wireless earphone.
- the current fitting degree between the earphone and the ear sends the fitting degree feedback information indicating the current fitting degree to the mobile terminal, and the mobile terminal determines the relationship with the external noise according to the mapping relationship between the noise volume, the fitting degree, and the playback volume interval.
- the volume of the target playback volume corresponding to the current fit degree is adjusted, and then the playback volume of the wireless headset is adjusted from small to large or from large to small within the target playback volume range.
- Wireless headphones can The target volume value plays audio; the wireless earphone may include a first wireless earphone and a second wireless earphone, and when the power of the first wireless earphone is lower than a first power threshold, the first wireless earphone may send to the mobile terminal.
- the low-battery notification information enables the mobile terminal to adjust the playback volume of the first wireless headset to a minimum volume value within a target playback volume interval to save power.
- the embodiment of the present application can automatically adjust the playback volume of a wireless headset suitable for the current environment without requiring manual adjustment by the user.
- the mobile terminal 400 may include an obtaining unit 410, an adjusting unit 420, and a determining unit 430, where:
- the acquiring unit 410 is configured to acquire a target playback volume interval of the wireless headset when the mobile terminal is connected to the wireless headset in an in-ear state;
- the adjustment unit 420 is configured to adjust the playback volume of the wireless headset within the target playback volume range
- the determining unit 430 is configured to determine, when receiving the volume determination information from the wireless headset, a playback volume of the wireless headset at the moment when the volume determination information is received as a target volume value;
- the adjustment unit 420 is further configured to adjust the playback volume of the wireless headset to the target volume value.
- the obtaining unit 410 is specifically configured to obtain a minimum volume value and a maximum volume value of the playback volume of the wireless headset in the first time period, as the minimum and maximum values of the target playback volume interval, respectively.
- the mobile terminal 400 further includes a receiving unit 440 for receiving the external noise volume collected by the wireless headset;
- the obtaining unit 410 is specifically configured to determine a target playback volume interval corresponding to the external noise volume according to a mapping relationship between the noise volume and the playback volume interval.
- the adjustment unit 420 is specifically configured to adjust the playback volume of the wireless headset from small to large or from large to small within the target playback volume range;
- the determining unit 430 is further configured to: if the wireless volume is not received within the first duration threshold after performing the step of adjusting the playback volume of the wireless headset in the target playback volume range from small to large or from large to small, The volume determination information sent by the headset determines that a first volume value in the target playback volume interval is the target volume value, and the first volume value is a volume value that is most frequently used in the target playback volume interval.
- mapping relationship between the noise volume and the playback volume interval includes the mapping relationship between the noise volume and the playback volume interval of the application type.
- the determining unit 430 is further configured to:
- the determining unit 430 is configured to determine a target playback volume interval corresponding to the external noise volume according to a mapping relationship between the noise volume and the playback volume interval.
- the specific manner includes:
- mapping relationship between the noise volume and the playback volume interval includes the mapping relationship between the noise volume and the fit degree and the playback volume interval.
- the receiving unit 440 is further configured to:
- the determining unit 430 is configured to determine a target playback volume interval corresponding to the external noise volume according to a mapping relationship between the noise volume and the playback volume interval.
- the specific manner includes:
- a target playback volume interval corresponding to the external noise volume and the current fit degree is determined according to a mapping relationship between the noise volume and the fit degree and the playback volume zone.
- the wireless earphone includes a first wireless earphone and a second wireless earphone
- the adjustment unit 420 is further configured to:
- the receiving unit 440 detects the low-battery notification information sent by the first wireless headset, and adjusts the playback volume of the first wireless headset to a minimum volume value within the target playback volume interval, the low-battery notification information is used to prompt the first
- the power of a wireless headset is lower than a first power threshold.
- the mobile terminal 400 in the embodiment of the present application obtains a target playback volume interval of the wireless headset when the mobile terminal 400 is connected to the wireless headset in the ear state, and adjusts the playback volume of the wireless headset within the target playback volume interval.
- the volume determination information from the wireless headset is received
- the playback volume of the wireless headset at the time when the volume determination information is received is determined as the target volume value, and then the playback volume of the wireless headset is adjusted to the above target volume value, and the user may not be required
- Multiple manual adjustments can automatically and quickly set the user-friendly wireless headset playback volume.
- the wireless headset 500 may include a volume adjustment unit 510, a volume determination unit 520, a transmission unit 530, and a playback unit 540, where:
- the volume adjustment unit 510 is configured to adjust the playback volume of the wireless headset in the target playback volume range when the wireless headset is in the ear state and is connected to a mobile terminal;
- the above-mentioned volume determination unit 520 is configured to detect a determination instruction for determining a target volume
- the transmission unit 530 is configured to send volume determination information to the mobile terminal when the volume determination unit detects a determination instruction for determining a target volume; the volume determination information is used to make the mobile terminal determine to receive the volume determination information
- the playback volume value of the wireless headset at the time is a target volume value, and the playback volume of the wireless headset is adjusted to the target volume value;
- the playback unit 540 is configured to play audio at the foregoing target volume value.
- the minimum value and the maximum value of the target playback volume interval are the minimum volume value and the maximum volume value of the playback volume of the wireless headset set by the user in the first period, respectively.
- the wireless earphone 500 further includes a collection unit 550 for collecting external noise volume when the wireless earphone 500 is in an ear state and connected to a mobile terminal;
- the transmission unit 520 is further configured to send the external noise volume to the mobile terminal, so that the mobile terminal determines a target playback volume interval corresponding to the external noise volume according to a mapping relationship between the noise volume and the playback volume interval;
- the transmission unit 520 is further configured to:
- volume determination information When a determination instruction for determining a target volume is detected, send volume determination information to the mobile terminal, where the volume determination information is used to determine a playback volume value of the wireless headset 500 at the moment when the volume determination information is received, and Causing the mobile terminal to adjust the playback volume of the wireless headset 500 to the target volume value;
- the playback unit 530 is specifically configured to play audio at the target volume value.
- the wireless headset 500 further includes a detection unit 560 for detecting a current fitting degree between the wireless headset and the ear through a sensor of the wireless headset, and the transmission unit 520 is configured to send an instruction to the mobile terminal to indicate a current fit.
- Fitness feedback information is configured to send an instruction to the mobile terminal to indicate a current fit.
- the wireless earphone 500 may include a first wireless earphone and a second wireless earphone;
- the first wireless headset may include all units included in the wireless headset 500 described above; further optionally, the transmission unit is further configured to: when the power of the first wireless headset is lower than a first power threshold In the case of sending, the low-battery notification information is sent to the mobile terminal, and the low-battery notification information is used to enable the mobile terminal to adjust the playback volume of the first wireless headset to a minimum volume value within the target playback volume interval.
- the wireless earphone 500 in the embodiment of the present application can adjust the playback volume of the wireless earphone 500 in the target playback volume range by the mobile terminal when the wireless earphone 500 is in the ear state and connected to the mobile terminal.
- the volume determination information is sent to the mobile terminal, where the volume determination information is used by the mobile terminal to determine the playback volume value of the wireless headset 500 at the moment when the volume determination information is received, and play the wireless headset 500.
- the volume is adjusted to the above-mentioned target volume value.
- the wireless earphone 500 can play audio at the target volume value, and does not require multiple manual adjustments by the user to automatically and quickly set the user-applicable wireless earphone playback volume.
- FIG. 6 is a schematic structural diagram of another mobile terminal disclosed in an embodiment of the present application.
- the mobile terminal 600 includes a processor 601 and a memory 602.
- the mobile terminal 600 may further include a bus 603.
- the processor 601 and the memory 602 may be connected to each other through the bus 603, and the bus 603 may be a peripheral component to each other.
- PCI Peripheral Component Interconnect
- EISA extended industry standard architecture
- the bus 603 can be divided into an address bus, a data bus, a control bus, and the like. For ease of representation, only a thick line is used in FIG. 6, but it does not mean that there is only one bus or one type of bus.
- the mobile terminal 600 may further include an input-output device 604, and the input-output device 604 may include a display screen, such as a liquid crystal display screen.
- the memory 602 is configured to store one or more programs containing instructions; the processor 601 is configured to call the instructions stored in the memory 602 to execute some or all of the method steps performed by the mobile terminal mentioned in the embodiment of FIG. 1 or FIG. 3.
- FIG. 7 is a schematic structural diagram of another wireless headset disclosed in the embodiment of the present application.
- the wireless headset 700 includes a processor 701 and a memory 702.
- the wireless headset 700 may further include a bus 703, and the processor 701 and the memory 702 may be connected to each other through the bus 703.
- PCI Peripheral Component Interconnect
- EISA extended industry standard architecture
- the bus 703 can be divided into an address bus, a data bus, a control bus, and the like. For ease of representation, only one thick line is used in FIG. 7, but it does not mean that there is only one bus or one type of bus.
- the wireless headset 700 may further include an input-output device 704, and the input-output device 704 may include a display screen, such as a liquid crystal display screen.
- the memory 702 is configured to store one or more programs containing instructions; the processor 701 is configured to call the instructions stored in the memory 702 to execute some or all of the method steps performed by the wireless headset mentioned in the embodiment shown in FIG. 2 or FIG. 3.
- An embodiment of the present application further provides a computer storage medium, wherein the computer storage medium stores a computer program for electronic data exchange, and the computer program causes the mobile terminal to perform any one of the wireless headset volume control described in the foregoing method embodiments. Part or all of the steps of a method.
- An embodiment of the present application further provides a computer storage medium, wherein the computer storage medium stores a computer program for electronic data exchange, and the computer program causes the wireless headset to perform any one of the wireless headset volume controls described in the foregoing method embodiments. Part or all of the steps of a method.
- the disclosed device may be implemented in other ways.
- the device embodiments described above are only schematic.
- the division of the unit is only a logical function division.
- multiple units or components may be combined or may be combined. Integration into another system, or some features can be ignored or not implemented.
- the displayed or discussed mutual coupling or direct coupling or communication connection may be indirect coupling or communication connection through some interfaces, devices or units, and may be electrical or other forms.
- the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the units may be selected according to actual needs to achieve the objective of the solution of this embodiment.
- each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist separately physically, or two or more units may be integrated into one unit.
- the above integrated unit may be implemented in the form of hardware or in the form of software functional unit.
- the integrated unit When the integrated unit is implemented in the form of a software functional unit and sold or used as an independent product, it may be stored in a computer-readable memory.
- the technical solution of the present invention essentially or part that contributes to the existing technology or all or part of the technical solution can be embodied in the form of a software product, which is stored in a memory.
- a computer device which may be a personal computer, a server, or a network device, etc.
- the foregoing memory includes: a U disk, a read-only memory (ROM), a random access memory (RAM), a mobile hard disk, a magnetic disk, or an optical disk, and other media that can store program codes.
- the program may be stored in a computer-readable memory, and the memory may include a flash disk , Read-only memory, random access device, disk or optical disk, etc.
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Abstract
本申请实施例公开了一种无线耳机音量控制方法、无线耳机及移动终端,其中方法包括:在所述移动终端与处于入耳状态的无线耳机连接的情况下,获取所述无线耳机的目标播放音量区间;将所述无线耳机的播放音量在所述目标播放音量区间内调节;在接收到来自所述无线耳机的音量确定信息的情况下,确定接收到所述音量确定信息时刻的所述无线耳机的播放音量为目标音量值;将所述无线耳机的播放音量调整为所述目标音量值,可以实现自动快速地设置用户适用的无线耳机的播放音量。
Description
本申请涉及通信技术领域,具体涉及一种无线耳机音量控制方法、无线耳机及移动终端。
随着移动终端的飞速发展,耳机的音质也越来越高,越来越多的用户喜欢通过耳机进行移动终端的音频和视频音效的播放,在各种场景中通过耳机享受多媒体播放的乐趣。
通过耳机收听多媒体的音频内容时,因个人习惯或者由于处于不同环境中,存在说话、车辆行走等外部噪声,用户一般通过在移动终端中调整整体播放音量,来设置最合适的耳机播放音量。
发明内容
本申请实施例提供了一种无线耳机音量控制方法、无线耳机及移动终端,可以自动快速地设置用户适用的无线耳机的播放音量。
本申请实施例第一方面提供一种无线耳机音量控制方法,所述方法应用于移动终端,包括:
在所述移动终端与处于入耳状态的无线耳机连接的情况下,获取所述无线耳机的目标播放音量区间;
将所述无线耳机的播放音量在所述目标播放音量区间内调节;
在接收到来自所述无线耳机的音量确定信息的情况下,确定接收到所述音量确定信息时刻的所述无线耳机的播放音量为目标音量值;
将所述无线耳机的播放音量调整为所述目标音量值。
在一种可选的实施方式中,所述获取所述无线耳机的目标播放音量区间包括:
获取第一时间段内所述无线耳机的播放音量的最小音量值和最大音量值,分别作为所述目标播放音量区间的最小值和最大值。
在一种可选的实施方式中,所述方法还包括:
接收所述无线耳机采集的外界噪音音量;
所述获取所述无线耳机的目标播放音量区间包括:
根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间。
在一种可选的实施方式中,所述将所述无线耳机的播放音量在所述目标播放音量区间内调节包括:
将所述无线耳机的播放音量在所述目标播放音量区间内由小到大或者由大到小进行调节;
所述方法还包括:
若在执行所述将所述无线耳机的播放音量在所述目标播放音量区间内由小到大或者由大到小进行调节步骤之后的第一时长阈值内未接收到所述无线耳机发送的音量确定信息,确定所述目标播放音量区间内的第一音量值为所述目标音量值,所述第一音量值为所述目标播放音量区间内使用频率最高的音量值。
在一种可选的实施方式中,所述噪音音量与播放音量区间的映射关系包括噪音音量与应用类型播放音量区间的映射关系;所述根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间之前,所述方法还包括:
确定所述移动终端当前产生音频信号的应用类型;
所述根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间,包括:
根据噪音音量与应用类型播放音量区间的映射关系确定与所述外界噪音音量对应的应用类型播放音量区间。
在一种可选的实施方式中,所述噪音音量与播放音量区间的映射关系包括噪音音量与贴合度以及播放音量区间的映射关系;所述根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间之前,所述方法还包括:
接收所述无线耳机发送的贴合度反馈信息,所述贴合度反馈信息用于指示所述无线耳机与耳朵之间的当前贴合度;
所述根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间,包括:
根据噪音音量与贴合度以及播放音量区间的映射关系确定与所述外界噪音音量和所述当前贴合度对应的目标播放音量区间。
在一种可选的实施方式中,所述无线耳机包括第一无线耳机和第二无线耳机,所述将所述无线耳机的播放音量调整为所述目标播放音量区间内的音量值之后,所述方法还包括:
若检测到所述第一无线耳机发送的低电量通知信息,将所述第一无线耳机的播放音量调整为所述目标播放音量区间内的最小音量值,所述低电量通知信息用于提示所述第一无线耳机的电量低于第一电量阈值。
本申请实施例第二方面提供另一种无线耳机音量控制方法,所述方法应用于无线耳机,所述方法包括:
在所述无线耳机处于入耳状态并且与移动终端连接的情况下,所述无线耳机的播放音量由所述移动终端控制在目标播放音量区间内调节;
在检测到用于确定目标音量的确定指令时,向所述移动终端发送音量确定信息;所述音量确定信息用于所述移动终端确定接收到所述音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将所述无线耳机播放音量调整为所述目标音量值。
在一种可选的实施方式中,所述目标播放音量区间的最小值和最大值分别为第一时间段内用户设置的所述无线耳机的播放音量的最小音量值和最大音量值。
在一种可选的实施方式中,所述无线耳机包括第一无线耳机和第二无线耳机,所述方法还包括:
所述第一无线耳机的电量低于第一电量阈值的情况下,所述第一无线耳机向所述移动终端发送低电量通知信息,所述低电量通知信息用于通知所述移动终端将所述第一无线耳机的播放音量调整为所述目标播放音量区间内的最小音量值。
在一种可选的实施方式中,所述方法还包括:
通过所述无线耳机的传感器检测所述无线耳机与耳朵之间的当前贴合度,向所述移动终端发送指示所述当前贴合度的贴合度反馈信息。
本申请实施例第三方面提供一种移动终端,包括获取单元、调节单元和确定单元,其中:
所述获取单元,用于在所述移动终端与处于入耳状态的无线耳机连接的情况下,获取所述无线耳机的目标播放音量区间;
所述调节单元,用于将所述无线耳机的播放音量在所述目标播放音量区间内调节;
所述确定单元,用于在接收到来自所述无线耳机的音量确定信息的情况下,确定接收到所述音量确定信息时刻的所述无线耳机的播放音量为目标音量值;
所述调节单元,还用于将所述无线耳机的播放音量调整为所述目标音量值。
本申请实施例第四方面提供一种无线耳机,包括:音量调节单元、音量确定单元、传输单元和播放单元,其中:
所述音量调节单元,用于在所述无线耳机处于入耳状态并且与移动终端连接的情况下,所述无线耳机的播放音量由所述移动终端控制在目标播放音量区间内调节;
所述音量确定单元,用于检测用于确定目标音量的确定指令;
所述传输单元,用于在所述音量确定单元检测到用于确定目标音量的确定指令时,向所述移动终端发送音量确定信息;所述音量确定信息用于使所述移动终端确定接收到所述音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将所述无线耳机播放音量调整为所述目标音量值;
播放单元,用于以所述目标音量值播放音频。
本申请实施例第五方面提供另一种移动终端,包括处理器、存储器、通信接口,以及一个或多个程序,所述一个或多个程序被存储在所述存储器中,并且被配置由所述处理器执行,所述程序包括用于执行如第一方面所述的方法中的步骤的指令。
本申请实施例第六方面提供一种计算机可读存储介质,存储用于电子数据交换的计算机程序,其中,所述计算机程序使得移动终端执行如第一方面所述的方法。
本申请实施例第七方面提供另一种无线耳机,包括处理器、扬声器、存储器、通信接口,以及一个或多个程序,所述一个或多个程序被存储在所述存储器中,并且被配置由所述处理器执行,所述程序包括用于执行如第二方面所述的方法中的步骤的指令。
本申请实施例第八方面提供一种计算机可读存储介质,存储用于电子数据交换的计算机程序,其中,所述计算机程序使得移动终端执行如第二方面所述的方法。
本申请实施例通过在移动终端与处于入耳状态的无线耳机连接的情况下,获取无线耳机的目标播放音量区间,将无线耳机的播放音量在目标播放音量区间内调节,在接收到来自无线耳机的音量确定信息的情况下,确定接收到音量确定信息时刻的无线耳机的播放音量为目标音量值,再将无线耳机的播放音量调整为上述目标音量值,可以不需要用户多次手动调节,就能实现自动快速地设置用户适用的无线耳机播放音量。
本申请实施例还通过在无线耳机处于入耳状态并且与移动终端连接的情况下,无线耳机的播放音量由移动终端控制在目标播放音量区间内调节,在检测到用于确定目标音量的确定指令时,向移动终端发送音量确定信息,其中音量确定信息用于移动终端确定接收到音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将无线耳机播放音量调整为上述目标音量值,无线耳机可以以目标音量值播放音频,不需要用户多次手动调节,就能实现自动快速地设置用户适用的无线耳机播放音量。
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍。
图1是本申请实施例公开的一种无线耳机音量控制方法的流程示意图;
图2是本申请实施例公开的另一种无线耳机音量控制方法的流程示意图;
图3是本申请实施例公开的又一种无线耳机音量控制方法的流程示意图;
图4是本申请实施例公开的一种移动终端的结构示意图;
图5是本申请实施例公开的一种无线耳机的结构示意图;
图6是本申请实施例公开的另一种移动终端的结构示意图;
图7是本申请实施例公开的另一种无线耳机的结构示意图。
为了使本技术领域的人员更好地理解本发明方案,下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
本发明的说明书和权利要求书及上述附图中的术语“第一”、“第二”等是用于区别不同对象,而不是用于描述特定顺序。此外,术语“包括”和“具有”以及它们任何变形,意图在于覆盖不排他的包含。例如包含了一系列步骤或单元的过程、方法、系统、产品或设备没有限定于已列出的步骤或单元,而是可选地还包括没有列出的步骤或单元,或可选地还包括对于这些过程、方法、产品或设备固有的其他步骤或单元。
还应当进一步理解,在本发明说明书和所附权利要求书中使用的术语“和/或”是指相关联列出的项中的一个或多个的任何组合以及所有可能组合,并且包括这些组合。
在本文中提及“实施例”意味着,结合实施例描述的特定特征、结构或特性可以包含在本发明的至少一个实施例中。在说明书中的各个位置出现该短语并不一定均是指相同的实施例,也不是与其它实施例互斥的独立的或备选的实施例。本领域技术人员显式地和隐式地理解的是,本文所描述的实施例可以与其它实施例相结合。
具体实现中,本申请实施例中描述的移动终端包括但不限于诸如具有触摸敏感表面(例如,触摸屏显示器和/或触摸板)的移动电话、膝上型计算机或平板计算机之类的其它便携式设备。
移动终端支持各种应用程序,例如以下中的一个或多个:绘图应用程序、演示应用程序、文字处理应用程序、电子表格应用程序、游戏应用程序、电话应用程序、视频会议应用程序、电子邮件应用程序、即时消息收发应用程序、锻炼支持应用程序、照片管理应用程序、数码相机应用程序、数字摄影机应用程序、web浏览应用程序、数字音乐播放器应用程序和/或数字视频播放器应用程序。
本申请实施例中提到的无线耳机是中间的耳机线被电波代替,是从音频播放设备的音频出口连接到发射端,再由发射端通过电波发送到接受端的耳机中,接受端相当于是一个收音机。无线耳机可分为红外线无线耳机、米波无线耳机(FM调频耳机)和分米波无线耳机(蓝牙耳机)。
下面对本申请实施例进行详细介绍。
请参阅图1,图1是本申请实施例公开的一种无线耳机音量控制方法的流程示意图,如图1所示,该无线耳机音量控制方法应用于移动终端,包括如下步骤:
101、在移动终端与处于入耳状态的无线耳机连接的情况下,移动终端获取上述无线耳机的目标播放音量区间。
本申请实施例中的无线耳机可以是蓝牙(Bluetooth)耳机,可以通过蓝牙技术与移动终端连接。蓝牙是一种无线技术标准,可实现固定设备、移动设备和楼宇个人域网之间的短距离数据交换。
其中,无线耳机可以包括传感器、麦克风、扬声器和无线通信模块(比如,蓝牙模块)。
无线耳机可以通过自带的传感器(耳机表面的压力传感器或者设置在耳机壳内的气压传感器)检测该无线耳机是否处于入耳状态。
移动终端可以存储有目标播放音量区间。上述目标播放音量区间可以理解为用户常用的音量区间。无线耳机本端可以对用户设置过的音量值进行记录,移动终端可以获取上述通过无线耳机记录的历史音量值,统计分析得到入耳状态时适配的音量区间,即目标播放音量区间。
上述目标播放音量区间的获得方式,具体可以包括:移动终端获取第一时间段内上述无线耳机的播放音量的最小音量值和最大音量值,分别作为上述目标播放音量区间的最小 值和最大值。上述第一时间段表示移动终端可以对历史播放音量进行统计的时间段,比如第一时间段为2周,则移动终端可以获取最近两周内的上述无线耳机的播放音量的最小音量值和最大音量值,从而获得上述目标播放音量区间。
可选的,该方法还包括:
(11)移动终端接收上述无线耳机采集的外界噪音音量;
上述获取无线耳机的目标播放音量区间包括:(12)移动终端根据噪音音量与播放音量区间的映射关系,确定与上述外界噪音音量对应的目标播放音量区间。
无线耳机处于入耳状态的情况下,可以通过耳机本端的麦克风采集外界噪声,确定外界噪音音量,向与之连接的移动终端发送上述外界噪音音量,移动终端可以与上述无线耳机进行配对,建立通信连接后,可以接收上述无线耳机采集的外界噪音音量,再执行步骤(12)。
具体的,移动终端中可以存储上述噪音音量与播放音量区间的映射关系,比如以映射关系表的形式存储,可以理解为,在已知噪音音量的情况下,可以从上述映射关系中找到该噪音音量对应的播放音量区间,为上述目标播放音量区间。
上述噪音音量与播放音量区间的映射关系,可以由移动终端统计获得。在无线耳机处于入耳状态并且与移动终端连接时,无线耳机可以采集外界噪音音量,而用户可以在不同环境中根据自身需求调节无线耳机的播放音量,达到最合适的播放效果,上述噪音音量可以理解为噪音音量条件,可以通过噪音音量区间或者噪音音量等级来衡量,比如噪音音量区间[a,b)对应的播放音量区间为[x,y),其中x和y可以用最大播放音量的百分比表示,例如x可以为最大播放音量的15%。在某一噪音音量条件下,移动终端可以记录用户设置的无线耳机的播放音量值,该播放音量值可以是两个或以上,播放音量值的集合中,通过最大和最小的播放音量,移动终端可计算出上述播放音量区间,即获得该噪音音量对应的播放音量区间,相同的,可以获得多个噪音音量对应的播放音量区间,则移动终端获得上述噪音音量与播放音量区间的映射关系。
其中,播放音量区间可以理解为用户常用的播放音量区间,可选的,上述噪音音量与播放音量区间的映射关系,可以是用户设置的。比如移动终端中可以设置多个噪音音量等级(噪音音量等级越高,噪音音量越大或者越小),以及对应的播放音量区间,用户可以针对某一噪音音量等级,选择合适的播放音量区间,做为该噪音音量等级对应的播放音量区间,设置完毕,则移动终端获得上述噪音音量与播放音量区间的映射关系。一般而言,噪音音量越高,设置的播放音量越高。
在移动终端记录用户设置的无线耳机的播放音量值时,还可以统计每个播放音量值的使用时长,以在当前噪音音量条件下使用时长最长的播放音量值为播放音量区间的中点,从而获得上述播放音量区间。
本申请实施例中的上述噪音音量与播放音量区间的映射关系,可以通过多种方式统计或者计算获得,移动终端可以通过各种大数据计算方法或者人工智能算法等统计无线耳机采集的外界噪音音量和设置的播放音量,得到上述映射关系,此处不再赘述。
需要说明的是,噪音音量与播放音量区间的映射关系并不是固定不变的。可以根据历史统计的数据来确定。比如,当检测到环境噪声从第一噪声音量变为第二噪声音量后,耳机音量被手动从第一音量调整至第二音量,则可以建立第二噪声音量与第二音量的映射关系。
移动终端可以在噪音音量与播放音量区间的映射关系中,找到上述外界噪音音量对应的播放音量区间,确定为上述目标播放音量区间。
通过接收无线耳机采集的外界噪音音量,再根据噪音音量与播放音量区间的映射关系,确定与外界噪音音量对应的目标播放音量区间之后,将无线耳机的播放音量调整为目标播 放音量区间内的音量值,可以实现自动设置适用于当前环境的无线耳机播放音量。
移动终端获取上述目标播放音量区间之后,可以执行步骤102。
102、移动终端将上述无线耳机的播放音量在上述目标播放音量区间内调节。
在确定了上述目标播放音量区间之后,移动终端可以对无线耳机的播放音量进行调整,将上述无线耳机的播放音量在目标播放音量区间内动态调节,具体可以为,将当前音量设置为该播放音量区间内的任一一个音量值,则无线耳机可以以上述音量值输出音频信号。
可选的,上述步骤102可以包括步骤(1)移动终端可以将上述无线耳机的播放音量在上述目标播放音量区间内由小到大或者由大到小进行调节;
移动终端可以动态地调整无线耳机的播放音量,上述由小到大进行调节,指的是移动终端将播放音量在目标播放音量区间内逐渐升高的过程,比如目标播放音量区间为最大播放音量的20%-30%,移动终端可以将无线耳机的播放音量设置为最大播放音量的20%,再逐渐加大音量,最高可以到达最大播放音量的30%。而上述由小到大进行调节,指的是移动终端将播放音量在目标播放音量区间内逐渐降低的过程,同样的,比如目标播放音量区间为最大播放音量的20%-30%,移动终端可以将无线耳机的播放音量设置为最大播放音量的30%,再逐渐降低音量,最低可以到达最大播放音量的20%。
在执行步骤102之后,可以执行步骤103。
103、移动终端在接收到来自上述无线耳机的音量确定信息的情况下,确定接收到上述音量确定信息时刻的上述无线耳机的播放音量为目标音量值。
在移动终端调节无线耳机的播放音量的过程中,用户可以随时选定需要设置的播放音量,用户可以通过与无线耳机的交互操作,触发上述确定指令,设定无线耳机的播放音量。上述交互操作可以包括针对无线耳机的轻触、敲击、按压等操作,例如在执行步骤102的过程中,用户通过对无线耳机的指定敲击操作(比如敲击一下或者两下),触发确定指令,无线耳机检测到上述敲击操作,可以向移动终端发送上述音量确定信息,确定当前的播放音量为目标音量值;又如,在执行步骤102的过程中,用户通过对无线耳机的触摸操作,触发上述确定指令,无线耳机检测到触摸操作,可以向移动终端发送上述音量确定信息。
可选的,上述交互操作还可以为按压操作,当无线耳机检测到针对无线耳机的按压操作时,可以检测上述按压操作的压力值是否大于预设压力阈值,若大于,则触发确定指令,无线耳机向上述移动终端发送上述音量确定信息。
可选的,上述无线耳机可以包括第一无线耳机和第二无线耳机,其中,上述与无线耳机的交互操作,可以包括与第一无线耳机的交互操作,以选定上述第一无线耳机的音量,与第二无线耳机的交互操作,以选定上述第二无线耳机的音量,即两个无线耳机可以分别与移动终端进行连接通信,分别设置播放音量。可选的,还可以是第一无线耳机上述与移动终端进行连接通信,第二无线耳机与第一无线耳机进行连接通信,上述与无线耳机的交互操作,主要针对上述第一无线耳机,可以理解为第一无线耳机为主耳机,通过与主耳机的交互操作来调节两个无线耳机的播放音量。
无线耳机在接收到上述确定指令之后可以向移动终端发送音量确定信息,移动终端接收上述音量确定信息,则可以确定接收到上述音量确定信息时刻的上述无线耳机播放音量值为目标音量值。
在移动终端执行步骤102时,若无线耳机的播放音量已经使用过整个目标播放音量区间的音量值,但还未接收到上述音量确定信息,则移动终端可以继续执行步骤102,即可以重复上述调节过程,使播放音量在上述目标播放音量区间内变化,直到接收到上述音量确定信息,再执行步骤103和步骤104。
可选的,若移动终端在执行调节步骤102之后的第一时长阈值内未接收到上述无线耳机发送的音量确定信息,可以执行以下步骤:
移动终端确定上述目标播放音量区间内的第一音量值为上述目标音量值,上述第一音量值为上述目标播放音量区间内使用频率最高的音量值。
移动终端可以存储有上述第一时长阈值,移动终端可以同时检测执行步骤102的时长,若执行步骤102的时长超过了该第一时长阈值,表明用户没有进行选择目标音量的操作,移动终端可以自动选定目标音量值,如确定上述目标播放音量区间内的第一音量值为上述目标音量值。
移动终端在存储用户常用的音量值,以及统计目标播放音量区间的过程中,还可以统计各播放音量值的使用频率,可以将上述目标播放音量区间内使用频率最高的音量值作为第一音量值存储。若移动终端在执行调节步骤102之后的第一时长阈值内未接收到上述音量确定信息,可以确定上述目标播放音量区间内使用频率最高的音量值为上述目标音量值。
可选的,移动终端也可以在上述目标播放音量区间内随机选取音量值为目标音量值,或者在目标播放音量区间内上一次选取的音量值为目标音量值。在确定目标音量值之后执行步骤104。
104、将上述无线耳机的播放音量调整为上述目标音量值。
本申请实施例通过在移动终端与处于入耳状态的无线耳机连接的情况下,将无线耳机的播放音量在目标播放音量区间内进行调节,在接收到来自无线耳机的音量确定信息时,确定接收到音量确定信息时刻的无线耳机播放音量值为目标音量值,再将无线耳机的播放音量调整为目标音量值,可以初步自动选定无线耳机的播放音量区间(可以理解为用户常用的音量区间)之后,让用户选择最适合的播放音量,可以实现自动设置用户适用的无线耳机播放音量,且便于结合用户自身需求准确设置无线耳机的播放音量。
请参阅图2,图2是本申请实施例公开的另一种无线耳机音量控制方法的流程示意图。如图2所示,该无线耳机音量控制方法应用于无线耳机,包括如下步骤:
201、在无线耳机处于入耳状态并且与移动终端连接的情况下,无线耳机的播放音量由上述移动终端控制在目标播放音量区间内调节。
无线耳机可以通过自带的传感器(耳机表面的压力传感器或者设置在耳机壳内的气压传感器)检测该无线耳机是否处于入耳状态。其中,移动终端控制无线耳机在目标播放音量区间内调节的过程,可以参考图1所示的实施例的步骤101和步骤102中的具体描述,此处不再赘述。
202、无线耳机在检测到用于确定目标音量的确定指令时,向上述移动终端发送音量确定信息;上述音量确定信息用于上述移动终端确定接收到上述音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将上述无线耳机播放音量调整为上述目标音量值。
在移动终端调节无线耳机的播放音量的过程中,用户可以随时选定需要设置的播放音量,用户可以通过与无线耳机的交互操作,触发上述确定指令,设定无线耳机的播放音量。上述交互操作可以包括针对无线耳机的轻触、敲击、按压等操作,其中上述交互操作可以参考图1所示的实施例的步骤103中的具体描述,此处不再赘述。
无线耳机在检测到上述确定指令之后可以向移动终端发送音量确定信息,移动终端接收上述音量确定信息,则可以确定接收到上述音量确定信息时刻的上述无线耳机播放音量值为目标音量值,可以执行步骤203。
可选的,该方法还包括:(21)无线耳机在无线耳机处于入耳状态并且与移动终端连接的情况下,采集外界噪音音量;
上述步骤202可包括:(22)无线耳机向上述移动终端发送上述外界噪音音量,使上述移动终端根据噪音音量与播放音量区间的映射关系,确定上述外界噪音音量对应的目标播放音量区间,以及使上述移动终端将上述无线耳机的播放音量调整为上述目标播放音量区间内的音量值。
无线耳机可以通过自带的传感器(耳机表面的压力传感器或者设置在耳机壳内的气压传感器)检测该无线耳机是否处于入耳状态,在移动终端与该无线耳机连接,并且该无线耳机处于入耳状态的情况下,无线耳机可以通过耳机本端的麦克风采集外界噪音,向与之连接的移动终端发送上述外界噪音,移动终端确定上述外界噪音的音量。可选的,移动终端可以与上述无线耳机进行配对,建立通信连接后,可以接收上述无线耳机采集的外界噪音音量。
无线耳机利用麦克风采集上述外界噪音音量,可以是周期性的,无线耳机可以每隔检测间隔时长阈值采集一次外界噪音音量。需说明的是,由于环境噪音通常在一段时间内不会发生太大的变化,因此,可以每隔上述检测间隔时长阈值(例如30秒)进行一次检测,可选的,在采集的外界噪音音量与上一次采集的外界噪音音量相同时,可以不再执行步骤(22),上述步骤能够节省无线耳机的电量。
无线耳机在采集到上述外界噪音音量之后,可以向连接的移动终端发送上述外界噪音音量,移动终端接收上述外界噪音音量后的调节过程,可以参考图1所示实施例的步骤(11)、(12)中的具体描述,此处不再赘述。
203、无线耳机以上述目标音量值播放音频。
通过在无线耳机处于入耳状态并且与移动终端连接的情况下,采集外界噪音音量,向移动终端发送所述外界噪音音量,使移动终端根据噪音音量与播放音量区间的映射关系,确定外界噪音音量对应的目标播放音量区间,以及使移动终端将无线耳机的播放音量调整为目标播放音量区间内的音量值,再以目标播放音量区间内的音量值播放音频,可以不需要用户手动调节,实现由移动终端自动设置适用于当前环境的无线耳机播放音量。
本申请实施例通过在无线耳机处于入耳状态并且与移动终端连接的情况下,无线耳机的播放音量由移动终端控制在目标播放音量区间内调节,在检测到用于确定目标音量的确定指令时,向移动终端发送音量确定信息,其中音量确定信息用于移动终端确定接收到音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将无线耳机播放音量调整为上述目标音量值,无线耳机可以以目标音量值播放音频,不需要用户多次手动调节,就能实现自动快速地设置用户适用的无线耳机播放音量。
请参阅图3,图3是本申请实施例公开的另一种无线耳机音量控制方法的流程示意图,图3是在图1和图2的基础上进一步优化得到的。如图2所示,该无线耳机音量控制方法适用于无线耳机和移动终端的交互过程,包括如下步骤:
301、在无线耳机处于入耳状态并且与移动终端连接的情况下,采集外界噪音音量。
无线耳机可以通过耳机本端的麦克风采集外界噪声,确定外界噪音音量,向与之连接的移动终端发送上述外界噪音音量,移动终端可以与上述无线耳机进行配对,建立通信连接后,可以接收上述无线耳机采集的外界噪音音量,再执行步骤302。
302、无线耳机向上述移动终端发送上述外界噪音音量。
其中,上述步骤301和步骤302可以分别参考图2所示实施例的步骤(21)和步骤(22)中的具体描述,此处不再赘述。
303、通过上述无线耳机的传感器检测上述无线耳机与耳朵之间的当前贴合度,向上述移动终端发送指示当前贴合度的贴合度反馈信息。
其中,上述耳机贴合度指的是耳机与用户耳朵的贴合程度,一般而言,贴合度越高,耳机的扬声器发出的声音传递到耳朵的能量越高。因此,在根据噪音音量确定播放音量时,还可以考虑耳机贴合度。
上述耳机贴合度可以通过设置在无线耳机表面的压力传感器来检测,还可以通过设置在无线耳机的耳机壳内的气压传感器来检测。
上述无线耳机检测耳机贴合度可以是周期性的,在检测到耳机贴合度后可以向上述移 动终端发送贴合度反馈信息。
304、移动终端根据噪音音量与贴合度以及播放音量区间的映射关系,确定与上述外界噪音音量和上述当前贴合度对应的目标播放音量区间。
具体的,移动终端可以接收来自无线耳机的贴合度反馈信息,以确定无线耳机的当前贴合度。移动终端中可以存储上述噪音音量与贴合度以及播放音量区间的映射关系,比如以映射关系表的形式存储,可以理解为,在已知噪音音量和当前耳机贴合度的情况下,可以从上述映射关系中找到对应的播放音量区间,为上述目标播放音量区间。一般而言,在已知噪音音量确定的情况下,当前耳机贴合度越高,对应的播放音量区间的音量越小;在当前耳机贴合度确定的情况下,已知噪音音量越高,对应的播放音量区间的音量越大。
上述噪音音量与播放音量区间的映射关系,可以由移动终端统计获得。在无线耳机处于入耳状态并且与移动终端连接时,无线耳机可以采集外界噪音音量,而用户可以在不同环境中根据自身需求调节无线耳机的播放音量,达到最合适的播放效果,上述噪音音量可以理解为噪音音量条件,可以通过噪音音量区间或者噪音音量等级来衡量,比如噪音音量区间[a,b)对应的播放音量区间为[x,y),其中x和y可以用最大播放音量的百分比表示,例如x可以为最大播放音量的15%。在某一噪音音量条件下,移动终端可以记录用户设置的无线耳机的播放音量值,该播放音量值可以是两个或以上,播放音量值的集合中,通过最大和最小的播放音量,移动终端可计算出上述播放音量区间,即获得该噪音音量对应的播放音量区间,相同的,可以获得多个噪音音量对应的播放音量区间,则移动终端获得上述噪音音量与播放音量区间的映射关系。
其中,播放音量区间可以理解为用户常用的播放音量区间,可选的,上述噪音音量与播放音量区间的映射关系,可以是用户设置的。比如移动终端中可以设置多个噪音音量等级(噪音音量等级越高,噪音音量越大或者越小),以及对应的播放音量区间,用户可以针对某一噪音音量等级,选择合适的播放音量区间,做为该噪音音量等级对应的播放音量区间,设置完毕,则移动终端获得上述噪音音量与播放音量区间的映射关系。一般而言,噪音音量越高,设置的播放音量越高。
在步骤304中,移动终端可以首先通过噪音音量与播放音量区间的映射关系初步确定上述外界噪音音量对应的播放音量区间,再结合上述耳机贴合度,进一步确定上述目标播放音量区间。一般而言,可以设置噪音音量越高,对应的播放音量区间越高;耳机贴合度越高,对应的播放音量区间越低。比如外界噪音音量等级为3,上述耳机贴合度为60%,对应的目标播放音量区间为最大播放音量的32%-40%,若相同外界噪音音量下耳机贴合度为80%,则对应的目标播放音量区间可以为最大播放音量的25%-33%。
由于存在用户佩戴耳机的情况不同,耳机贴合度不同时,对用户通过耳机接收到的实际音量大小会有很大的影响,并且受到外界噪音的影响也不同。本申请实施例通过判断耳机贴合度,能够更准确地判断用户耳朵接收无线耳机能量情况,与仅通过外界噪音音量确定播放音量相比,能够更加准确地获得最适合当前环境并且用户适用的无线耳机的播放音量。
可选的,上述噪音音量与播放音量区间的映射关系包括噪音音量与应用类型播放音量区间的映射关系,步骤304还可以为:
确定上述移动终端当前产生音频信号的应用类型;
根据噪音音量与应用类型播放音量区间的映射关系确定与上述外界噪音音量对应的应用类型播放音量区间。
具体的,在使用移动终端的不同应用程序的时候,用户常用的无线耳机的播放音量可能是不同的,因此可以考虑检测当前产生音频信号的应用类型,从而确定播放音量。移动终端中可以存储上述噪音音量与应用类型播放音量区间的映射关系,比如以映射关系表的 形式存储,可以理解为,在已知噪音音量和当前产生音频信号的应用类型的情况下,可以从上述映射关系中找到对应的播放音量区间,为上述应用类型播放音量区间。
移动终端可以存储不同应用类型对应的噪音音量与应用类型播放音量区间的映射关系,即在相同的噪音音量条件下,若当前产生音频信号的应用不同,设置的播放音量可以不同。移动终端中可以对应用程序进行分类,可以通过应用程序自身的类型进行划分,比如游戏类应用、视频播放类应用和音乐播放类应用等;也可以由用户自行设置应用类型,如第一应用类型包括应用程序1、应用程序2,第二类应用类型包括应用程序3。每一类应用类型都有与之对应的噪音音量与应用类型播放音量区间。移动终端可以首先确定当前产生音频信号的应用类型,再获取当前产生音频信号的应用类型对应的噪音音量与应用类型播放音量区间的映射关系,进而确定上述应用类型播放音量区间,比如用户使用移动终端正在运行应用程序2,属于第一应用类型,通过无线耳机播放的音频来自应用程序2,移动终端确定当前产生音频信号的应用类型为第一应用类型,即可以获取当前第一应用类型对应的噪音音量与应用类型播放音量区间的映射关系,确定上述应用类型播放音量区间。一般而言,可以设置噪音音量越高,对应的播放音量区间越高。
在确定上述目标播放音量区间之后,可以执行步骤305。
305、移动终端将上述无线耳机的播放音量在上述目标播放音量区间内由小到大或者由大到小进行调节。
306、无线耳机在检测到用于确定目标音量的确定指令时,向上述移动终端发送音量确定信息。
307、移动终端确定接收到上述音量确定信息时刻的上述无线耳机播放音量值为目标音量值。
308、移动终端将上述无线耳机的播放音量调整为上述目标音量值。
309、无线耳机以上述目标音量值播放音频。
其中,上述步骤305、步骤307和步骤308可以参考图1所示实施例的步骤102和步骤103中的具体描述,上述步骤306可以参考图2所示实施例的步骤202中的具体描述,此处不再赘述。
310、上述无线耳机包括第一无线耳机和第二无线耳机,上述第一无线耳机的电量低于第一电量阈值的情况下,上述第一无线耳机向上述移动终端发送低电量通知信息。
本申请实施例中的无线耳机可以包括第一无线耳机和第二无线耳机,第一无线耳机和第二无线耳机可以分别与移动终端连接,或者移动终端与第一无线耳机通信连接,第一无线耳机与第二无线耳机通信连接。在本实施例中,移动终端可以分别实现对第一无线耳机和第二无线耳机的播放音量调节功能,尤其适用于左右耳收听习惯有差异的用户,或者耳朵两侧的外界噪音音量差异较大的情况,移动终端与两个无线耳机能够分别执行上述步骤,确定每个无线耳机的目标播放音量区间,从而分别自动设置适用于当前环境的第一无线耳机的播放音量,和第二无线耳机的播放音量。
以其中的第一无线耳机为例进行阐述,上述第一无线耳机可以存储有第一电量阈值,例如总电量的20%,在检测到上述第一无线耳机电量低于该第一电量阈值的情况下,上述第一无线耳机可以向上述移动终端发送低电量通知信息,进而可以执行步骤311。
311、移动终端将上述第一无线耳机的播放音量调整为上述目标播放音量区间内的最小音量值。
若移动终端检测到第一无线耳机发送的低电量通知信息,移动终端可以将上述第一无线耳机的播放音量调整为上述目标播放音量区间内的最小音量值。可选的,上述第一无线耳机可以存储两个或者两个以上的电量阈值,类似的,在检测到第一无线耳机处于不同电量时,可以向移动终端发送对应的通知信息,移动终端可以通过不同的通知信息,调整第 一无线耳机的音量值。本申请实施例在保证无线耳机收听效果的情况下,可以节省无线耳机的电量。
本申请实施例通过在无线耳机处于入耳状态并且与移动终端连接的情况下,采集外界噪音音量,无线耳机向上述移动终端发送上述外界噪音音量,无线耳机还可以通过上述无线耳机的传感器检测上述无线耳机与耳朵之间的当前贴合度,向上述移动终端发送指示当前贴合度的贴合度反馈信息,移动终端根据噪音音量与贴合度以及播放音量区间的映射关系,确定与上述外界噪音音量和上述当前贴合度对应的目标播放音量区间,再将上述无线耳机的播放音量在上述目标播放音量区间内由小到大或者由大到小进行调节,无线耳机在检测到用于确定目标音量的确定指令时,向上述移动终端发送音量确定信息,移动终端确定接收到上述音量确定信息时刻的上述无线耳机播放音量值为目标音量值,将上述无线耳机的播放音量调整为上述目标音量值,无线耳机可以以上述目标音量值播放音频;上述无线耳机可以包括第一无线耳机和第二无线耳机,上述第一无线耳机的电量低于第一电量阈值的情况下,上述第一无线耳机可以向上述移动终端发送低电量通知信息,使移动终端将第一无线耳机的播放音量调整为目标播放音量区间内的最小音量值,以节省电量。本申请实施例可以不需要用户手动调节,实现自动设置适用于当前环境的无线耳机播放音量。
如图4所示,为本申请实施例公开的一种移动终端的结构示意图,该移动终端400可包括获取单元410、调节单元420和确定单元430,其中:
上述获取单元410,用于在上述移动终端与处于入耳状态的无线耳机连接的情况下,获取上述无线耳机的目标播放音量区间;
上述调节单元420,用于将上述无线耳机的播放音量在上述目标播放音量区间内调节;
上述确定单元430,用于在接收到来自上述无线耳机的音量确定信息的情况下,确定接收到上述音量确定信息时刻的上述无线耳机的播放音量为目标音量值;
上述调节单元420,还用于将上述无线耳机的播放音量调整为上述目标音量值。
可选的,上述获取单元410,具体用于获取第一时间段内上述无线耳机的播放音量的最小音量值和最大音量值,分别作为上述目标播放音量区间的最小值和最大值。
可选的,上述移动终端400还包括接收单元440,用于接收上述无线耳机采集的外界噪音音量;
上述获取单元410,具体用于根据噪音音量与播放音量区间的映射关系,确定与上述外界噪音音量对应的目标播放音量区间。
可选的,上述调节单元420,具体用于将上述无线耳机的播放音量在上述目标播放音量区间内由小到大或者由大到小进行调节;
上述确定单元430还用于,若在执行上述将上述无线耳机的播放音量在上述目标播放音量区间内由小到大或者由大到小进行调节步骤之后的第一时长阈值内未接收到上述无线耳机发送的音量确定信息,确定上述目标播放音量区间内的第一音量值为上述目标音量值,上述第一音量值为上述目标播放音量区间内使用频率最高的音量值。
可选的,上述噪音音量与播放音量区间的映射关系包括噪音音量与应用类型播放音量区间的映射关系;上述确定单元430还用于:
确定上述移动终端当前产生音频信号的应用类型;
上述确定单元430,用于根据噪音音量与播放音量区间的映射关系,确定与上述外界噪音音量对应的目标播放音量区间的具体方式包括:
用于根据噪音音量与应用类型播放音量区间的映射关系确定与上述外界噪音音量对应的应用类型播放音量区间。
可选的,上述噪音音量与播放音量区间的映射关系包括噪音音量与贴合度以及播放音量区间的映射关系;上述接收单元440还用于:
接收上述无线耳机发送的贴合度反馈信息,上述贴合度反馈信息用于指示上述无线耳机与耳朵之间的当前贴合度;
上述确定单元430,用于根据噪音音量与播放音量区间的映射关系,确定与上述外界噪音音量对应的目标播放音量区间的具体方式包括:
根据噪音音量与贴合度以及播放音量区间的映射关系确定与上述外界噪音音量和上述当前贴合度对应的目标播放音量区间。
可选的,上述无线耳机包括第一无线耳机和第二无线耳机,上述调节单元420还用于:
若接收单元440检测到上述第一无线耳机发送的低电量通知信息,将上述第一无线耳机的播放音量调整为上述目标播放音量区间内的最小音量值,上述低电量通知信息用于提示上述第一无线耳机的电量低于第一电量阈值。
本申请实施例中的移动终端400,通过在移动终端400与处于入耳状态的无线耳机连接的情况下,获取无线耳机的目标播放音量区间,将无线耳机的播放音量在目标播放音量区间内调节,在接收到来自无线耳机的音量确定信息的情况下,确定接收到音量确定信息时刻的无线耳机的播放音量为目标音量值,再将无线耳机的播放音量调整为上述目标音量值,可以不需要用户多次手动调节,就能实现自动快速地设置用户适用的无线耳机播放音量。
如图5所示,为本申请实施例公开的一种无线耳机的结构示意图,该无线耳机500可包括音量调节单元510、音量确定单元520、传输单元530和播放单元540,其中:
上述音量调节单元510,用于在上述无线耳机处于入耳状态并且与移动终端连接的情况下,上述无线耳机的播放音量由上述移动终端控制在目标播放音量区间内调节;
上述音量确定单元520,用于检测用于确定目标音量的确定指令;
上述传输单元530,用于在上述音量确定单元检测到用于确定目标音量的确定指令时,向上述移动终端发送音量确定信息;上述音量确定信息用于使上述移动终端确定接收到上述音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将上述无线耳机播放音量调整为上述目标音量值;
播放单元540,用于以上述目标音量值播放音频。
可选的,上述目标播放音量区间的最小值和最大值分别为第一时间段内用户设置的上述无线耳机的播放音量的最小音量值和最大音量值。
可选的,上述无线耳机500还包括采集单元550,用于上述无线耳机500处于入耳状态并且与移动终端连接的情况下,采集外界噪音音量;
上述传输单元520,还用于向上述移动终端发送上述外界噪音音量,使上述移动终端根据噪音音量与播放音量区间的映射关系,确定上述外界噪音音量对应的目标播放音量区间;
可选的,上述传输单元520还用于:
在检测到用于确定目标音量的确定指令时,向上述移动终端发送音量确定信息,上述音量确定信息用于确定接收到上述音量确定信息时刻的无线耳机500的播放音量值为目标音量值,并使上述移动终端将上述无线耳机500播放音量调整为上述目标音量值;
上述播放单元530具体用于,以上述目标音量值播放音频。
可选的,上述无线耳机500还包括检测单元560,用于通过上述无线耳机的传感器检测上述无线耳机与耳朵之间的当前贴合度,上述传输单元520用于向上述移动终端发送指示当前贴合度的贴合度反馈信息。
可选的,上述无线耳机500可包括第一无线耳机和第二无线耳机;
以第一无线耳机为例,第一无线耳机可以包括上述无线耳机500所包括的全部单元;进一步可选的,上述传输单元,还用于在上述第一无线耳机的电量低于第一电量阈值的情 况下,向上述移动终端发送低电量通知信息,上述低电量通知信息用于使上述移动终端将上述第一无线耳机的播放音量调整为上述目标播放音量区间内的最小音量值。
本申请实施例中的无线耳机500,通过在无线耳机500处于入耳状态并且与移动终端连接的情况下,无线耳机500的播放音量由移动终端控制在目标播放音量区间内调节,在检测到用于确定目标音量的确定指令时,向移动终端发送音量确定信息,其中音量确定信息用于移动终端确定接收到音量确定信息时刻的无线耳机500的播放音量值为目标音量值,并将无线耳机500播放音量调整为上述目标音量值,无线耳机500可以以目标音量值播放音频,不需要用户多次手动调节,就能实现自动快速地设置用户适用的无线耳机播放音量。
请参阅图6,图6是本申请实施例公开的另一种移动终端的结构示意图。如图6所示,该移动终端600包括处理器601和存储器602,其中,移动终端600还可以包括总线603,处理器601和存储器602可以通过总线603相互连接,总线603可以是外设部件互连标准(Peripheral Component Interconnect,简称PCI)总线或扩展工业标准结构(Extended Industry Standard Architecture,简称EISA)总线等。总线603可以分为地址总线、数据总线、控制总线等。为便于表示,图6中仅用一条粗线表示,但并不表示仅有一根总线或一种类型的总线。其中,移动终端600还可以包括输入输出设备604,输入输出设备604可以包括显示屏,例如液晶显示屏。存储器602用于存储包含指令的一个或多个程序;处理器601用于调用存储在存储器602中的指令执行上述图1或图3实施例中提到的移动终端执行的部分或全部方法步骤。
请参阅图7,图7是本申请实施例公开的另一种无线耳机的结构示意图。如图7所示,该无线耳机700包括处理器701和存储器702,其中,无线耳机700还可以包括总线703,处理器701和存储器702可以通过总线703相互连接,总线703可以是外设部件互连标准(Peripheral Component Interconnect,简称PCI)总线或扩展工业标准结构(Extended Industry Standard Architecture,简称EISA)总线等。总线703可以分为地址总线、数据总线、控制总线等。为便于表示,图7中仅用一条粗线表示,但并不表示仅有一根总线或一种类型的总线。其中,无线耳机700还可以包括输入输出设备704,输入输出设备704可以包括显示屏,例如液晶显示屏。存储器702用于存储包含指令的一个或多个程序;处理器701用于调用存储在存储器702中的指令执行上述图2或图3实施例中提到的无线耳机执行的部分或全部方法步骤。
本申请实施例还提供一种计算机存储介质,其中,该计算机存储介质存储用于电子数据交换的计算机程序,该计算机程序使得移动终端执行如上述方法实施例中记载的任何一种无线耳机音量控制方法的部分或全部步骤。
本申请实施例还提供一种计算机存储介质,其中,该计算机存储介质存储用于电子数据交换的计算机程序,该计算机程序使得无线耳机执行如上述方法实施例中记载的任何一种无线耳机音量控制方法的部分或全部步骤。
需要说明的是,对于前述的各方法实施例,为了简单描述,故将其都表述为一系列的动作组合,但是本领域技术人员应该知悉,本发明并不受所描述的动作顺序的限制,因为依据本发明,某些步骤可以采用其他顺序或者同时进行。其次,本领域技术人员也应该知悉,说明书中所描述的实施例均属于优选实施例,所涉及的动作和模块并不一定是本发明所必须的。
在上述实施例中,对各个实施例的描述都各有侧重,某个实施例中没有详述的部分,可以参见其他实施例的相关描述。
在本申请所提供的几个实施例中,应该理解到,所揭露的装置,可通过其它的方式实现。例如,以上所描述的装置实施例仅仅是示意性的,例如所述单元的划分,仅仅为一种 逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,装置或单元的间接耦合或通信连接,可以是电性或其它的形式。
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。
另外,在本发明各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理存在,也可以两个或两个以上单元集成在一个单元中。上述集成的单元既可以采用硬件的形式实现,也可以采用软件功能单元的形式实现。
所述集成的单元如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储器中。基于这样的理解,本发明的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的全部或部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储器中,包括若干指令用以使得一台计算机设备(可为个人计算机、服务器或者网络设备等)执行本发明各个实施例所述方法的全部或部分步骤。而前述的存储器包括:U盘、只读存储器(Read-Only Memory,ROM)、随机存取存储器(Random Access Memory,RAM)、移动硬盘、磁碟或者光盘等各种可以存储程序代码的介质。
本领域普通技术人员可以理解上述实施例的各种方法中的全部或部分步骤是可以通过程序来指令相关的硬件来完成,该程序可以存储于一计算机可读存储器中,存储器可以包括:闪存盘、只读存储器、随机存取器、磁盘或光盘等。
以上对本申请实施例进行了详细介绍,本文中应用了具体个例对本发明的原理及实施方式进行了阐述,以上实施例的说明只是用于帮助理解本发明的方法及其核心思想;同时,对于本领域的一般技术人员,依据本发明的思想,在具体实施方式及应用范围上均会有改变之处,综上所述,本说明书内容不应理解为对本发明的限制。
Claims (20)
- 一种无线耳机音量控制方法,其特征在于,所述方法应用于移动终端,所述方法包括:在所述移动终端与处于入耳状态的无线耳机连接的情况下,获取所述无线耳机的目标播放音量区间;将所述无线耳机的播放音量在所述目标播放音量区间内调节;在接收到来自所述无线耳机的音量确定信息的情况下,确定接收到所述音量确定信息时刻的所述无线耳机的播放音量为目标音量值;将所述无线耳机的播放音量调整为所述目标音量值。
- 根据权利要求1所述的无线耳机音量控制方法,其特征在于,所述获取所述无线耳机的目标播放音量区间包括:获取第一时间段内所述无线耳机的播放音量的最小音量值和最大音量值,分别作为所述目标播放音量区间的最小值和最大值。
- 根据权利要求1所述的无线耳机音量控制方法,其特征在于,所述方法还包括:接收所述无线耳机采集的外界噪音音量;所述获取所述无线耳机的目标播放音量区间包括:根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间。
- 根据权利要求3任一项所述的无线耳机音量控制方法,其特征在于,所述将所述无线耳机的播放音量在所述目标播放音量区间内调节包括:将所述无线耳机的播放音量在所述目标播放音量区间内由小到大或者由大到小进行调节;所述方法还包括:若在执行所述将所述无线耳机的播放音量在所述目标播放音量区间内由小到大或者由大到小进行调节步骤之后的第一时长阈值内未接收到所述无线耳机发送的音量确定信息,确定所述目标播放音量区间内的第一音量值为所述目标音量值,所述第一音量值为所述目标播放音量区间内使用频率最高的音量值。
- 根据权利要求3所述的无线耳机音量控制方法,其特征在于,所述噪音音量与播放音量区间的映射关系包括噪音音量与应用类型播放音量区间的映射关系;所述根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间之前,所述方法还包括:确定所述移动终端当前产生音频信号的应用类型;所述根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间,包括:根据噪音音量与应用类型播放音量区间的映射关系确定与所述外界噪音音量对应的应用类型播放音量区间。
- 根据权利要求3所述的无线耳机音量控制方法,其特征在于,所述噪音音量与播放音量区间的映射关系包括噪音音量与贴合度以及播放音量区间的映射关系;所述根据噪音 音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间之前,所述方法还包括:接收所述无线耳机发送的贴合度反馈信息,所述贴合度反馈信息用于指示所述无线耳机与耳朵之间的当前贴合度;所述根据噪音音量与播放音量区间的映射关系,确定与所述外界噪音音量对应的目标播放音量区间,包括:根据噪音音量与贴合度以及播放音量区间的映射关系确定与所述外界噪音音量和所述当前贴合度对应的目标播放音量区间。
- 根据权利要求1所述的无线耳机音量控制方法,其特征在于,所述无线耳机包括第一无线耳机和第二无线耳机,所述将所述无线耳机的播放音量调整为所述目标播放音量区间内的音量值之后,所述方法还包括:若检测到所述第一无线耳机发送的低电量通知信息,将所述第一无线耳机的播放音量调整为所述目标播放音量区间内的最小音量值,所述低电量通知信息用于提示所述第一无线耳机的电量低于第一电量阈值。
- 一种无线耳机音量控制方法,其特征在于,所述方法应用于无线耳机,所述方法包括:在所述无线耳机处于入耳状态并且与移动终端连接的情况下,所述无线耳机的播放音量由所述移动终端控制在目标播放音量区间内调节;在检测到用于确定目标音量的确定指令时,向所述移动终端发送音量确定信息;所述音量确定信息用于所述移动终端确定接收到所述音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将所述无线耳机播放音量调整为所述目标音量值。
- 根据权利要求8所述的无线耳机音量控制方法,其特征在于,所述目标播放音量区间的最小值和最大值分别为第一时间段内用户设置的所述无线耳机的播放音量的最小音量值和最大音量值。
- 根据权利要求9所述的无线耳机音量控制方法,其特征在于,所述无线耳机包括第一无线耳机和第二无线耳机,所述方法还包括:所述第一无线耳机的电量低于第一电量阈值的情况下,所述第一无线耳机向所述移动终端发送低电量通知信息,所述低电量通知信息用于通知所述移动终端将所述第一无线耳机的播放音量调整为所述目标播放音量区间内的最小音量值。
- 根据权利要求8或9所述的无线耳机音量控制方法,其特征在于,所述方法还包括:通过所述无线耳机的传感器检测所述无线耳机与耳朵之间的当前贴合度,向所述移动终端发送指示所述当前贴合度的贴合度反馈信息。
- 根据权利要求8所述的无线耳机音量控制方法,其特征在于,所述方法还包括:在所述无线耳机处于入耳状态并且与移动终端连接的情况下,所述无线耳机采集的外界噪音音量,将所述外界噪音音量发送至所述移动终端。
- 一种移动终端,其特征在于,包括获取单元、调节单元和确定单元,其中:所述获取单元,用于在所述移动终端与处于入耳状态的无线耳机连接的情况下,获取所述无线耳机的目标播放音量区间;所述调节单元,用于将所述无线耳机的播放音量在所述目标播放音量区间内调节;所述确定单元,用于在接收到来自所述无线耳机的音量确定信息的情况下,确定接收到所述音量确定信息时刻的所述无线耳机的播放音量为目标音量值;所述调节单元,还用于将所述无线耳机的播放音量调整为所述目标音量值。
- 根据权利要求13所述的移动终端,其特征在于,所述获取单元获取所述无线耳机的目标播放音量区间,具体为:所述获取单元获取第一时间段内所述无线耳机的播放音量的最小音量值和最大音量值,分别作为所述目标播放音量区间的最小值和最大值。
- 一种无线耳机,其特征在于,包括:音量调节单元、音量确定单元、传输单元和播放单元,其中:所述音量调节单元,用于在所述无线耳机处于入耳状态并且与移动终端连接的情况下,所述无线耳机的播放音量由所述移动终端控制在目标播放音量区间内调节;所述音量确定单元,用于检测用于确定目标音量的确定指令;所述传输单元,用于在所述音量确定单元检测到用于确定目标音量的确定指令时,向所述移动终端发送音量确定信息;所述音量确定信息用于使所述移动终端确定接收到所述音量确定信息时刻的无线耳机的播放音量值为目标音量值,并将所述无线耳机播放音量调整为所述目标音量值;播放单元,用于以所述目标音量值播放音频。
- 根据权利要求15所述的移动终端,其特征在于,所述目标播放音量区间的最小值和最大值分别为第一时间段内用户设置的所述无线耳机的播放音量的最小音量值和最大音量值。
- 一种移动终端,其特征在于,包括处理器、存储器、通信接口,以及一个或多个程序,所述一个或多个程序被存储在所述存储器中,并且被配置由所述处理器执行,所述程序包括用于执行如权利要求1-7任一项所述的方法中的步骤的指令。
- 一种计算机可读存储介质,其特征在于,存储用于电子数据交换的计算机程序,其中,所述计算机程序使得移动终端执行如权利要求1-7任一项所述的方法。
- 一种无线耳机,其特征在于,包括处理器、扬声器、存储器、通信接口,以及一个或多个程序,所述一个或多个程序被存储在所述存储器中,并且被配置由所述处理器执行,所述程序包括用于执行如权利要求8-12任一项所述的方法中的步骤的指令。
- 一种计算机可读存储介质,其特征在于,存储用于电子数据交换的计算机程序,其中,所述计算机程序使得无线耳机执行如权利要求8-12任一项所述的方法。
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2018
- 2018-07-27 CN CN202010093244.4A patent/CN111277929B/zh not_active Expired - Fee Related
- 2018-07-27 CN CN201810844509.2A patent/CN109151634B/zh not_active Expired - Fee Related
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2019
- 2019-05-23 WO PCT/CN2019/088164 patent/WO2020019846A1/zh unknown
- 2019-05-23 EP EP19841510.1A patent/EP3823299A4/en not_active Withdrawn
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CN113986183B (zh) * | 2021-09-30 | 2024-03-22 | 青岛海尔科技有限公司 | 智能家居设备的音量调节方法及装置 |
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EP3823299A1 (en) | 2021-05-19 |
EP3823299A4 (en) | 2021-09-15 |
US11632621B2 (en) | 2023-04-18 |
CN111277929B (zh) | 2022-01-14 |
CN111277929A (zh) | 2020-06-12 |
US20210144463A1 (en) | 2021-05-13 |
CN109151634B (zh) | 2020-03-10 |
CN109151634A (zh) | 2019-01-04 |
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