KR20220102448A - Communication method between multi devices and electronic device therefor - Google Patents

Abstract

Disclosed is an electronic device comprising: an audio reception circuit; an audio output circuit; a communication circuit for establishing a second wireless communication link with an opponent electronic device, which is distinguished from a first wireless communication link with an external electronic device; a processor; and a memory for storing instructions, wherein when the instructions are executed by the processor, the processor is configured to execute a speech recognition function through the audio reception circuit, to identify a change in a wearing state of at least one electronic device form among the electronic device or the opponent electronic device while the speech recognition function is executed, and to exchange the roles of the electronic device and the opponent electronic device through the second wireless communication link on the basis of identification of the change in the wearing state. Various other embodiments understood through the specification are possible. Therefore, the functions of a first wireless audio device and a second wireless audio device can be exchanged.

Description

Multi-device communication method and electronic device therefor

Various embodiments disclosed in this document relate to a communication method between multiple devices and an electronic device therefor.

The Bluetooth standard technology defined by the Bluetooth special interest group (SIG) defines a protocol for short-range wireless communication between electronic devices. In a Bluetooth network environment, electronic devices may transmit or receive data packets including content such as text, voice, image, or video in a designated frequency band (eg, about 2.4 gigahertz (GHz)).

For example, a user equipment (UE) such as a smartphone, tablet, desktop computer, or laptop computer may transmit data packets to other user terminals or accessory devices. have. The accessory device may include, for example, at least one of an earphone, a headset, a speaker, a mouse, a keyboard, and a display device.

A topology representing a Bluetooth network environment may include one user device (eg, a device under test (DUT)) transmitting data packets and a plurality of devices receiving data packets from the user device. For example, when the earphone (or headset) is connected to the smartphone, the earphone worn on the user's left ear and the earphone worn on the user's right ear may receive the data packet from the smartphone.

In this case, one earphone of the left earphone and the right earphone may be primary equipment (PE), and the other earphone may be secondary equipment (SE).

When the first wireless audio device and the second wireless audio device configure a Bluetooth network environment with the user device, the first wireless audio device and the user device create a first wireless communication link, and the second wireless audio device establishes a first wireless communication link. and create a second wireless communication link with the audio device. The second wireless audio device may receive information on the first wireless communication link from the first wireless audio device through the second wireless communication link, and monitor the first wireless communication link based on the received information. In such a network environment, in order for the second wireless audio device to transmit a large amount of data to the user device, the second wireless audio device needs to transmit data to the user device through the first wireless audio device. Accordingly, in a situation where the second wireless audio device has to transmit a large amount of data to the user device, the amount of data communication within the network may increase.

An electronic device according to an embodiment disclosed in this document includes an audio receiving circuit, an audio output circuit, and a communication circuit for establishing a second wireless communication link distinguished from a first wireless communication link between the counterpart electronic device and an external electronic device , a processor and a memory storing instructions, wherein the instructions, when executed by the processor, cause the processor to execute a voice recognition function through the audio receiving circuit, and while the voice recognition function is being executed: A role between the electronic device and the counterpart electronic device through the second wireless communication link based on identifying a change in the wearing state of at least one of the device or the counterpart electronic device, and identifying the change in the wearing state may be configured to change with each other.

In a method of operating an electronic device according to an embodiment disclosed in this document, a second wireless communication link that is distinguished from a first wireless communication link between the counterpart electronic device and an external electronic device is configured using a communication circuit of the electronic device. Establishing, executing a voice recognition function through the audio receiving circuit of the electronic device, and while the voice recognition function is being executed The method may include an operation of changing roles between the electronic device and the counterpart electronic device through the second wireless communication link based on the identification operation and the identification of the change in the wearing state.

The technical problems to be achieved in the various embodiments of this document are not limited to the technical problems mentioned above, and other technical problems not mentioned are clear to those of ordinary skill in the art to which the present disclosure belongs from the description below. will be able to understand

According to various embodiments disclosed herein, roles between the first wireless audio device and the second wireless audio device may be changed.

According to various embodiments disclosed in this document, by changing roles between the first wireless audio device and the second wireless audio device, the amount of data communication within the network can be reduced.

Effects that can be obtained in various embodiments of the present disclosure are not limited to the above-mentioned effects, and other effects not mentioned are clearly to those of ordinary skill in the art to which the present disclosure belongs from the description below. can be understood

1 is a block diagram of an electronic device in a network environment, according to various embodiments of the present disclosure.
2 illustrates electronic devices of a Bluetooth network according to an embodiment.
3 is a block diagram of electronic devices according to an exemplary embodiment.
4 is a flowchart illustrating a signal for communication between electronic devices according to an embodiment.
5 is a flowchart illustrating an operation of at least one wireless audio device according to an embodiment.
6 is a flowchart illustrating an operation of at least one wireless audio device according to an embodiment.
7 is a flowchart illustrating an operation of at least one wireless audio device according to an embodiment.
In connection with the description of the drawings, the same or similar reference numerals may be used for the same or similar components.

1 is a block diagram of an electronic device 101 in a network environment 100 according to various embodiments of the present disclosure. Referring to FIG. 1 , in a network environment 100 , an electronic device 101 communicates with an electronic device 102 through a first network 198 (eg, a short-range wireless communication network) or a second network 199 . It may communicate with the electronic device 104 or the server 108 through (eg, a long-distance wireless communication network). According to an embodiment, the electronic device 101 may communicate with the electronic device 104 through the server 108 . According to an embodiment, the electronic device 101 includes a processor 120 , a memory 130 , an input module 150 , a sound output module 155 , a display module 160 , an audio module 170 , and a sensor module ( 176), interface 177, connection terminal 178, haptic module 179, camera module 180, power management module 188, battery 189, communication module 190, subscriber identification module 196 , or an antenna module 197 . In some embodiments, at least one of these components (eg, the connection terminal 178 ) may be omitted or one or more other components may be added to the electronic device 101 . In some embodiments, some of these components (eg, sensor module 176 , camera module 180 , or antenna module 197 ) are integrated into one component (eg, display module 160 ). can be

The processor 120, for example, executes software (eg, a program 140) to execute at least one other component (eg, a hardware or software component) of the electronic device 101 connected to the processor 120. It can control and perform various data processing or operations. According to an embodiment, as at least part of data processing or operation, the processor 120 stores a command or data received from another component (eg, the sensor module 176 or the communication module 190 ) into the volatile memory 132 . may be stored in , process commands or data stored in the volatile memory 132 , and store the result data in the non-volatile memory 134 . According to an embodiment, the processor 120 is a main processor 121 (eg, a central processing unit or an application processor) or a secondary processor 123 (eg, a graphic processing unit, a neural network processing unit) a neural processing unit (NPU), an image signal processor, a sensor hub processor, or a communication processor). For example, when the electronic device 101 includes the main processor 121 and the sub-processor 123 , the sub-processor 123 uses less power than the main processor 121 or is set to be specialized for a specified function. can The auxiliary processor 123 may be implemented separately from or as a part of the main processor 121 .

The secondary processor 123 may, for example, act on behalf of the main processor 121 while the main processor 121 is in an inactive (eg, sleep) state, or when the main processor 121 is active (eg, executing an application). ), together with the main processor 121, at least one of the components of the electronic device 101 (eg, the display module 160, the sensor module 176, or the communication module 190) It is possible to control at least some of the related functions or states. According to an embodiment, the auxiliary processor 123 (eg, image signal processor or communication processor) may be implemented as a part of another functionally related component (eg, camera module 180 or communication module 190). have. According to an embodiment, the auxiliary processor 123 (eg, a neural network processing device) may include a hardware structure specialized for processing an artificial intelligence model. Artificial intelligence models can be created through machine learning. Such learning may be performed, for example, in the electronic device 101 itself on which artificial intelligence is performed, or may be performed through a separate server (eg, the server 108). The learning algorithm may include, for example, supervised learning, unsupervised learning, semi-supervised learning, or reinforcement learning, but in the above example not limited The artificial intelligence model may include a plurality of artificial neural network layers. Artificial neural networks include deep neural networks (DNNs), convolutional neural networks (CNNs), recurrent neural networks (RNNs), restricted boltzmann machines (RBMs), deep belief networks (DBNs), bidirectional recurrent deep neural networks (BRDNNs), It may be one of deep Q-networks or a combination of two or more of the above, but is not limited to the above example. The artificial intelligence model may include, in addition to, or alternatively, a software structure in addition to the hardware structure.

The memory 130 may store various data used by at least one component (eg, the processor 120 or the sensor module 176 ) of the electronic device 101 . The data may include, for example, input data or output data for software (eg, the program 140 ) and instructions related thereto. The memory 130 may include a volatile memory 132 or a non-volatile memory 134 .

The program 140 may be stored as software in the memory 130 , and may include, for example, an operating system 142 , middleware 144 , or an application 146 .

The input module 150 may receive a command or data to be used by a component (eg, the processor 120 ) of the electronic device 101 from the outside (eg, a user) of the electronic device 101 . The input module 150 may include, for example, a microphone, a mouse, a keyboard, a key (eg, a button), or a digital pen (eg, a stylus pen).

The sound output module 155 may output a sound signal to the outside of the electronic device 101 . The sound output module 155 may include, for example, a speaker or a receiver. The speaker can be used for general purposes such as multimedia playback or recording playback. The receiver can be used to receive incoming calls. According to an embodiment, the receiver may be implemented separately from or as a part of the speaker.

The display module 160 may visually provide information to the outside (eg, a user) of the electronic device 101 . The display module 160 may include, for example, a control circuit for controlling a display, a hologram device, or a projector and a corresponding device. According to an embodiment, the display module 160 may include a touch sensor configured to sense a touch or a pressure sensor configured to measure the intensity of a force generated by the touch.

The audio module 170 may convert a sound into an electric signal or, conversely, convert an electric signal into a sound. According to an embodiment, the audio module 170 acquires a sound through the input module 150 , or an external electronic device (eg, a sound output module 155 ) connected directly or wirelessly with the electronic device 101 . The electronic device 102) (eg, a speaker or headphones) may output a sound.

The sensor module 176 detects an operating state (eg, power or temperature) of the electronic device 101 or an external environmental state (eg, a user state), and generates an electrical signal or data value corresponding to the sensed state. can do. According to an embodiment, the sensor module 176 may include, for example, a gesture sensor, a gyro sensor, a barometric pressure sensor, a magnetic sensor, an acceleration sensor, a grip sensor, a proximity sensor, a color sensor, an IR (infrared) sensor, a biometric sensor, It may include a temperature sensor, a humidity sensor, or an illuminance sensor.

The interface 177 may support one or more specified protocols that may be used by the electronic device 101 to directly or wirelessly connect with an external electronic device (eg, the electronic device 102 ). According to an embodiment, the interface 177 may include, for example, a high definition multimedia interface (HDMI), a universal serial bus (USB) interface, an SD card interface, or an audio interface.

The connection terminal 178 may include a connector through which the electronic device 101 can be physically connected to an external electronic device (eg, the electronic device 102 ). According to an embodiment, the connection terminal 178 may include, for example, an HDMI connector, a USB connector, an SD card connector, or an audio connector (eg, a headphone connector).

The haptic module 179 may convert an electrical signal into a mechanical stimulus (eg, vibration or movement) or an electrical stimulus that the user can perceive through tactile or kinesthetic sense. According to an embodiment, the haptic module 179 may include, for example, a motor, a piezoelectric element, or an electrical stimulation device.

The camera module 180 may capture still images and moving images. According to an embodiment, the camera module 180 may include one or more lenses, image sensors, image signal processors, or flashes.

The power management module 188 may manage power supplied to the electronic device 101 . According to an embodiment, the power management module 188 may be implemented as, for example, at least a part of a power management integrated circuit (PMIC).

The battery 189 may supply power to at least one component of the electronic device 101 . According to an embodiment, the battery 189 may include, for example, a non-rechargeable primary cell, a rechargeable secondary cell, or a fuel cell.

The communication module 190 is a direct (eg, wired) communication channel or a wireless communication channel between the electronic device 101 and an external electronic device (eg, the electronic device 102, the electronic device 104, or the server 108). It can support establishment and communication performance through the established communication channel. The communication module 190 may include one or more communication processors that operate independently of the processor 120 (eg, an application processor) and support direct (eg, wired) communication or wireless communication. According to an embodiment, the communication module 190 is a wireless communication module 192 (eg, a cellular communication module, a short-range wireless communication module, or a global navigation satellite system (GNSS) communication module) or a wired communication module 194 (eg, : It may include a local area network (LAN) communication module, or a power line communication module). A corresponding communication module among these communication modules is a first network 198 (eg, a short-range communication network such as Bluetooth, wireless fidelity (WiFi) direct, or infrared data association (IrDA)) or a second network 199 (eg, legacy It may communicate with the external electronic device 104 through a cellular network, a 5G network, a next-generation communication network, the Internet, or a computer network (eg, a telecommunication network such as a LAN or a WAN). These various types of communication modules may be integrated into one component (eg, a single chip) or may be implemented as a plurality of components (eg, multiple chips) separate from each other. The wireless communication module 192 uses subscriber information (eg, International Mobile Subscriber Identifier (IMSI)) stored in the subscriber identification module 196 within a communication network such as the first network 198 or the second network 199 . The electronic device 101 may be identified or authenticated.

The wireless communication module 192 may support a 5G network after a 4G network and a next-generation communication technology, for example, a new radio access technology (NR). NR access technology includes high-speed transmission of high-capacity data (eMBB (enhanced mobile broadband)), minimization of terminal power and access to multiple terminals (mMTC (massive machine type communications)), or high reliability and low latency (URLLC (ultra-reliable and low-latency) -latency communications)). The wireless communication module 192 may support a high frequency band (eg, mmWave band) to achieve a high data rate, for example. The wireless communication module 192 uses various techniques for securing performance in a high-frequency band, for example, beamforming, massive multiple-input and multiple-output (MIMO), all-dimensional multiplexing. It may support technologies such as full dimensional MIMO (FD-MIMO), an array antenna, analog beam-forming, or a large scale antenna. The wireless communication module 192 may support various requirements defined in the electronic device 101 , an external electronic device (eg, the electronic device 104 ), or a network system (eg, the second network 199 ). According to an embodiment, the wireless communication module 192 includes a peak data rate (eg, 20 Gbps or more) for realizing eMBB, loss coverage (eg, 164 dB or less) for realizing mMTC, or U-plane latency for realizing URLLC ( Example: Downlink (DL) and uplink (UL) each 0.5 ms or less, or round trip 1 ms or less) can be supported.

The antenna module 197 may transmit or receive a signal or power to the outside (eg, an external electronic device). According to an embodiment, the antenna module 197 may include an antenna including a conductor formed on a substrate (eg, a PCB) or a radiator formed of a conductive pattern. According to an embodiment, the antenna module 197 may include a plurality of antennas (eg, an array antenna). In this case, at least one antenna suitable for a communication method used in a communication network such as the first network 198 or the second network 199 is connected from the plurality of antennas by, for example, the communication module 190 . can be selected. A signal or power may be transmitted or received between the communication module 190 and an external electronic device through the selected at least one antenna. According to some embodiments, other components (eg, a radio frequency integrated circuit (RFIC)) other than the radiator may be additionally formed as a part of the antenna module 197 .

According to various embodiments, the antenna module 197 may form a mmWave antenna module. According to one embodiment, the mmWave antenna module comprises a printed circuit board, an RFIC disposed on or adjacent to a first side (eg, bottom side) of the printed circuit board and capable of supporting a designated high frequency band (eg, mmWave band); and a plurality of antennas (eg, an array antenna) disposed on or adjacent to a second side (eg, top or side) of the printed circuit board and capable of transmitting or receiving signals of the designated high frequency band. can do.

At least some of the components are connected to each other through a communication method between peripheral devices (eg, a bus, general purpose input and output (GPIO), serial peripheral interface (SPI), or mobile industry processor interface (MIPI)) and signal (eg commands or data) can be exchanged with each other.

According to an embodiment, the command or data may be transmitted or received between the electronic device 101 and the external electronic device 104 through the server 108 connected to the second network 199 . Each of the external electronic devices 102 or 104 may be the same as or different from the electronic device 101 . According to an embodiment, all or part of the operations executed by the electronic device 101 may be executed by one or more external electronic devices 102 , 104 , or 108 . For example, when the electronic device 101 needs to perform a function or service automatically or in response to a request from a user or other device, the electronic device 101 may perform the function or service itself instead of executing the function or service itself. Alternatively or additionally, one or more external electronic devices may be requested to perform at least a part of the function or the service. One or more external electronic devices that have received the request may execute at least a part of the requested function or service, or an additional function or service related to the request, and transmit a result of the execution to the electronic device 101 . The electronic device 101 may process the result as it is or additionally and provide it as at least a part of a response to the request. For this purpose, for example, cloud computing, distributed computing, mobile edge computing (MEC), or client-server computing technology may be used. The electronic device 101 may provide an ultra-low latency service using, for example, distributed computing or mobile edge computing. In another embodiment, the external electronic device 104 may include an Internet of things (IoT) device. The server 108 may be an intelligent server using machine learning and/or neural networks. According to an embodiment, the external electronic device 104 or the server 108 may be included in the second network 199 . The electronic device 101 may be applied to an intelligent service (eg, smart home, smart city, smart car, or health care) based on 5G communication technology and IoT-related technology.

2 illustrates a communication environment between the wireless audio device 202 and the electronic device 101 according to an embodiment.

Referring to FIG. 2 , an electronic device 201 and a wireless audio device 202 (eg, a first wireless audio device 202-1 and/or a second wireless audio device 202-2) are illustrated in FIG. 1 . At least a portion of the electronic device 101 may include the same or similar components, and at least some may perform the same or similar functions. Hereinafter, the term wireless audio device 202 refers to a first wireless audio device 202-1, a second wireless audio device 202-1, or first and second wireless audio devices 202, unless otherwise described. -1, 202-2). The electronic device 201 may include, for example, a user terminal such as a smartphone, a tablet, a desktop computer, or a laptop computer. The wireless audio device 202 may include, but is not limited to, wireless earphones, headsets, earbuds, or speakers. The wireless audio device 202 may include various types of devices (eg, a hearing aid or a portable sound device) that receive an audio signal and output the received audio signal. The term “wireless audio device” is used to distinguish it from the electronic device 201, and “wireless audio device” may also be referred to as an electronic device, a wireless earphone, an earbud, a true wireless stereo (TWS), or an earset. have.

For example, the electronic device 201 and the wireless audio device 202 may perform wireless communication in a short distance according to a Bluetooth network defined by a Bluetooth™ special interest group (SIG). The Bluetooth network may include, for example, a Bluetooth legacy network or a BLE network. According to an embodiment, the electronic device 201 and the wireless audio device 202 may perform wireless communication through one of a Bluetooth legacy network and a BLE network, or may perform wireless communication through two networks.

According to an embodiment, the electronic device 201 may function as a master device in the first link 205 and the wireless audio device 202 may function as a slave device. The number of devices performing the role of the slave device is not limited to the example shown in FIG. 2 . According to an embodiment, the role of the master device or the slave device may be determined in an operation in which a link (eg, 205 and/or 215 ) between devices is generated. According to another embodiment, in the second link 215 , one of the first wireless audio device 202-1 and the second wireless audio device 202-2 (eg, the first wireless audio device 202- 1)) may perform the role of the master device, and the other device may perform the role of the slave device.

According to an embodiment, the electronic device 201 may transmit a data packet including content such as text, audio, image, or video to the wireless audio device 202 . At least one of the wireless audio devices 202-1 and 202-2 of the wireless audio device 202 as well as the electronic device 201 may transmit the data packet to the electronic device 201 . For example, when music is played on the electronic device 201 , the electronic device 201 connects to the wireless audio device 202 through a generated link (eg, the first link 205 ) to provide content (eg, music data). It is possible to transmit a data packet including For example, at least one of the wireless audio devices 202 may transmit a data packet including content (eg, audio data) to the electronic device 201 through the generated link. When the electronic device 201 transmits a data packet, the electronic device 201 may be referred to as a source device, and the wireless audio device 202 may be referred to as a sink device.

The electronic device 201 may create or establish a link with at least one device 202-1 and/or 202-2 among the wireless audio devices 202 to transmit a data packet. . For example, the electronic device 201 may create a first link 205 with the first wireless audio device 202-1 based on a Bluetooth or BLE protocol.

In an embodiment, the electronic device 201 may create the first link 205 based on a synchronous connection protocol. For example, the synchronous connection protocol may include a protocol supporting real-time audio data exchange (eg, a protocol supporting hands-free profile (HFP)). The electronic device 201 may create a synchronous connection for exchanging real-time audio data.

In an embodiment, the electronic device 201 may generate the first link 205 based on the asynchronous connection protocol. For example, the asynchronous connection protocol may include a profile (eg, advanced audio distribution profile (A2DP) or serial port profile (SPP)) using an asynchronous connection-less (ACL) protocol.

In an embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 may create or establish a link. For example, the first wireless audio device 202-1 may create a second link 215 with the second wireless audio device 202-2 based on a Bluetooth or BLE protocol.

In an embodiment, the first wireless audio device 202-1 may create the second link 215 based on a synchronous connection protocol. In an embodiment, the first wireless audio device 202-1 may generate the second link 215 based on an asynchronous connection protocol.

In one embodiment, the first wireless audio device 202-1 may communicate with the second wireless audio device 202-2 via the second link 215 .

In one embodiment, the first wireless audio device 202-1 may transmit information related to the first link 205 to the second wireless audio device 202-2 via the second link 215 . The information related to the first link 205 includes address information (eg, a Bluetooth address of the master device of the first link 205 , a Bluetooth address of the electronic device 201 , and/or the first wireless audio device 202-1 ). ), piconet (eg, topology 200) clock information (eg, CLKN (clock native) of the master device of the first link 205), logical transport (LT) address information (eg, information allocated by the master device of the first link 205), used channel map information, link key information, SDP (service discovery protocol) information (eg, first link) service and/or profile information associated with 205 ), and/or supported feature information.

In an embodiment, the second wireless audio device 202 - 2 may be configured to monitor the first link 205 based on information associated with the first link 205 . In an embodiment, the second wireless audio device 202 - 2 monitors the first link 205 , so that the electronic device 201 is connected to the first wireless audio device 202-1 through the first link 205 . You can receive data sent by For example, the first wireless audio device 202-1 and the second wireless audio device 202-2 receive data transmitted by the electronic device 201 through the first link 205, and the received data may be output substantially simultaneously through speakers included in each of the first wireless audio device 202-1 and the second wireless audio device 202-2. When the second wireless audio device 202 - 2 monitors the first link 205 , the electronic device 201 is a device under test (DUT) and the first wireless audio device 202-1 is a primary earbud (PE). , or primary equipment), the second wireless audio device 202 - 2 may be referred to as a secondary earbud or secondary equipment (SE).

3 is a block diagram illustrating the wireless audio devices 202-1 and 202-2 and the electronic device 101 according to an embodiment.

The various electronic devices disclosed in this document (eg, the electronic device 201 , the first wireless audio device 202-1, and the second wireless audio device 202-2) are the electronic devices described above with reference to FIG. 1 . It may include at least some of the components (eg, the electronic device 101 of FIG. 1 ).

In FIG. 3 , with respect to the first link 205 , the electronic device 201 is a device under test (DUT), the first wireless audio device 202-1 is a primary earbud, or primary equipment (PE); It is assumed that the second wireless audio device 202 - 2 is a secondary earbud, or secondary equipment (SE). In FIG. 3 , with respect to the second link 215 , it is assumed that the first wireless audio device 202-1 is a master device and the second wireless audio device 202-2 is a slave device.

In an embodiment, the electronic device 201 includes a processor 320 (eg, the processor 120 of FIG. 1 ), a memory 330 (eg, the memory 130 of FIG. 1 ), and a display 360 (eg: Display module 160 of FIG. 1 ), first communication circuit 391 (eg, communication module 190 of FIG. 1 ), and/or second communication circuit 392 (eg, communication module 190 of FIG. 1 ) )) may be included.

In an embodiment, the second communication circuit 392 may be configured to support wireless communication based on a Bluetooth protocol (eg, legacy Bluetooth and/or BLE). The first communication circuit 391 may be configured to support communication based on a wireless communication standard (eg, cellular and/or Wi-Fi) excluding the Bluetooth protocol.

In an embodiment, the electronic device 201 may be communicatively connected to the first wireless audio device 202-1 through the first link 205 . For example, the electronic device 201 and the first wireless audio device 202-1 have time slots set based on the clock of the master device (eg, the electronic device 201) of the first link 205 . ) can be communicated. One time slot may be set so that the master device transmits data to the slave device (eg, the first wireless audio device 202-1) or the slave device transmits data to the master device. One time slot may have a length of 625 μs (micro second).

In an embodiment, the electronic device 201 may acquire an audio signal through the first wireless audio device 202-1 and/or the second wireless audio device 202-2. For example, when a voice recognition function is performed, the electronic device 201 may acquire an audio signal through the first wireless audio device 202-1 and/or the second wireless audio device 202-2. . In an embodiment, the electronic device 201 may perform a voice recognition function based on an audio signal. In an embodiment, the electronic device 201 provides a user interface (UI) for inquiring whether to use the voice recognition function, and based on an input to the UI, one wireless audio device 202-1 and/or Alternatively, the second wireless audio device 202 - 2 may request whether the voice recognition function is executed. Thereafter, the electronic device 201 may perform a voice recognition function based on an audio signal obtained through the first wireless audio device 202-1 and/or the second wireless audio device 202-2.

In an embodiment, the first wireless audio device 202-1 includes a processor 321 (eg, the processor 120 of FIG. 1 ), a memory 331 (eg, the memory 130 of FIG. 1 ), and a sensor circuit. 351 (eg, the sensor module 176 of FIG. 1 ), an audio output circuit 371 (eg, the audio module 170 of FIG. 1 ), an audio receiving circuit 381 (eg, the audio module of FIG. 1 ) 170 ), and/or communication circuitry 393 (eg, communication module 190 of FIG. 1 ).

In an embodiment, the first wireless audio device 202-1 may be communicatively connected to the second wireless audio device 202-2 through a second link 215 . For example, the first wireless audio device 202-1 may establish a second link 215 with the second wireless audio device 202-2.

In an embodiment, the first wireless audio device 202-1 may share information related to the first link 205 to the first wireless audio device 202-2 through the second link 215 . . In an embodiment, the first wireless audio device 202-1 may transmit information related to the first link to the second wireless audio device 202-2 through the second link 215 .

In an embodiment, the information associated with the first link 205 includes address information (eg, the Bluetooth address of the master device of the first link 205 , the Bluetooth address of the electronic device 201 , and/or the first wireless audio device). Bluetooth address of (202-1)), piconet (eg topology 200) clock information (eg CLKN of master device of first link 205), logical transport address information (eg first link 205) information assigned by the master device), channel map information used, link key information, SDP information (eg, service and/or profile information associated with the first link 205), and/or support feature information. have.

In an embodiment, the sensor circuit 351 may detect information on a wearing state of the first wireless audio device 202-1, biometric information of the wearer, and/or movement. For example, the sensor circuit 351 may include a proximity sensor for detecting a wearing state, a biometric sensor (eg, heart rate sensor) for detecting biometric information, and/or a motion sensor (eg, an acceleration sensor) for detecting motion. can In one example, the sensor circuit 351 may further include at least one of a bone conduction sensor and an acceleration sensor. In another embodiment, the acceleration sensor may be disposed close to the skin to detect bone conduction.

The audio output circuit 371 may be set to output sound. The audio receiving circuit 383 may include one or a plurality of microphones. The audio receiving circuit 381 may be configured to acquire an audio signal using one or a plurality of microphones. In an embodiment, each of the plurality of microphones may correspond to a different audio reception path. For example, when the audio receiving circuit 381 includes the first microphone and the second microphone, the audio signal obtained by the first microphone and the audio signal by the second microphone may be referred to as different audio channels. .

In an embodiment, the processor 321 may acquire an audio signal by using at least one of a plurality of microphones connected to the audio receiving circuit 381 . The processor 321 may, for example, dynamically select or determine at least one microphone for acquiring an audio signal from among a plurality of microphones.

In an embodiment, the processor 322 may store the audio signal acquired through the audio receiving circuit 382 in the memory 342 . In an embodiment, the processor 322 may store the audio signal periodically acquired through the audio receiving circuit 382 in the memory 342 . In an embodiment, the processor 322 may store the audio signal of a specified length obtained through the audio receiving circuit 382 in the memory 342 .

In an embodiment, the processor 321 may execute a voice recognition function. In an embodiment, the voice recognition function may be executed based on an input obtained through the first wireless audio device 202-1. For example, the processor 321 may determine whether to execute the voice recognition function based on the user's movement or touch identified through the sensor circuit 351 . In an embodiment, the voice recognition function may be executed based on a request obtained from the electronic device 201 . For example, the electronic device 201 provides a UI for inquiring whether to use the voice recognition function to the user, and executes the voice recognition function to the first wireless audio device 202-1 based on an input for the UI. You can ask whether Thereafter, the processor 321 may determine whether to execute the voice recognition function based on a request obtained from the electronic device 201 . In an embodiment, the electronic device 201 may display a UI for inquiring whether to use the voice recognition function through the display 360 based on the establishment of the first link 205 . In an embodiment, the UI for inquiring whether to use the voice recognition function is an application for changing setting information of the first wireless audio device 202-1 and/or the second wireless audio device 202-2 (eg: It may be included in the execution screen of the application 146 of FIG. 1 ).

In an embodiment, the processor 321 may recognize whether a wearer (eg, a user) speaks based on an audio signal obtained through the audio receiving circuit 381 . For example, the processor 321 may recognize whether a wearer (eg, a user) speaks based on an audio signal (eg, a voice signal) of a specified size or more in a specified band (eg, a human voice range). have. In an embodiment, the processor 321 may identify a movement due to the wearer's utterance through the sensor circuit 351 . According to an embodiment, the processor 321 may acquire information on the start time and end time of the wearer's utterance based on the specified movement and voice signal. While a voice signal is sensed, simultaneously or substantially simultaneously, if a designated motion is not detected, the processor 321 performs an outsider utterance based on the voice signal (eg, a utterance of a person other than the wearer (eg, an outsider or a counterpart)). can detect The processor 321 may acquire information on the start time and end time of an outsider's utterance based on the specified movement and voice signal.

In an embodiment, the processor 321 may recognize a specified utterance (eg, wake-up (eg, high Bixby)) from the utterance of the wearer (eg, user). In an embodiment, the processor 321 may recognize a user's command (or query) (eg, how is the weather today, play an exciting song) from the wearer's (eg, user) utterance. In an embodiment, the processor 321 may simultaneously recognize the user's utterance and the user's query in the wearer's (eg, user) utterance.

In an embodiment, the processor 321 may transmit at least a partial audio signal of the audio signal obtained through the communication circuit 393 to the electronic device 201 . In an embodiment, the processor 321 may transmit at least some audio signals to the electronic device 201 through the first link 205 . In one embodiment, at least some audio signals are sent to the user's designated utterance (eg, wake up (eg, hi Bixby)) and/or the user's command (or query) (eg, how's the weather today, play an exciting song) can represent In an embodiment, the processor 321 may obtain a response corresponding to at least some audio signals from the electronic device 201 through the communication circuit 393 . In an embodiment, the processor 321 may obtain a response corresponding to at least some audio signals through the first link 205 . In an embodiment, the response corresponding to the at least some audio signal corresponds to an answer corresponding to a command (or query) of the user (eg, today's weather is sunny) and/or a response corresponding to a command (or query) of the user content (eg, sound source). In an embodiment, a response corresponding to at least some audio signals may be obtained by the electronic device 201 performing natural language processing on at least some data.

In an embodiment, the processor 321 may maintain the voice recognition function in an executed state. In an embodiment, while the voice recognition function is maintained in an executed state, the processor 321 may continuously identify the user's utterance from the audio signal acquired through the audio receiving circuit 383 .

In an embodiment, the processor 321 uses a voice recognition function to determine a user's designated utterance (eg, wake-up (eg, high Bixby)) and a user's command (or query) (eg, how is the weather today, After successively identifying the user's command (or query), the answer (eg, today's weather is sunny) and/or the content corresponding to the user's command (or query) For example, a sound source) can be provided to the user.

In another embodiment, the processor 321 obtains the user's specified utterance (eg, wake-up (eg, high Bixby)) using a voice recognition function and provides an answer corresponding to the user's specified utterance, After that, after obtaining the user's command (or query) (eg, how is the weather today, play a fun song), an answer corresponding to the user's command (or query) (eg, today's weather is sunny) and / Alternatively, content (eg, sound source) corresponding to the user's command (or query) may be provided to the user.

In one embodiment, the processor 321 sequentially responds to a user's designated utterance (eg, wake up (eg, Hi Bixby)) and a user's command (or query) (eg, how is the weather today, play an exciting song). or, after acquiring the user's designated utterance (eg, wake-up (eg, Hi Bixby)), provide an answer corresponding to the user's specified utterance, and then provide a user's command (or query) ( Example: How is the weather today, play an exciting song) can be determined by the settings. In an embodiment, the processor 321 may set based on a user input obtained from the first wireless audio device 202-1 and/or the electronic device 201 .

In an embodiment, the second wireless audio device 202 - 2 includes a processor 322 (eg, the processor 120 of FIG. 1 ), a memory 332 (eg, the memory 130 of FIG. 1 ), and a sensor circuit. 352 (eg, sensor module 175 of FIG. 1 ), audio output circuitry 372 (eg, audio module 170 of FIG. 1 ), audio receiving circuitry 382 , and/or communication circuitry 394 . (eg, the communication module 190 of FIG. 1 ).

In an embodiment, the sensor circuit 352 may detect information about a wearing state of the second wireless audio device 202 - 2 , biometric information of the wearer, and/or movement. For example, the sensor circuit 352 may include a proximity sensor for sensing a wearing state, a biometric sensor (eg, a heart rate sensor) for detecting biometric information, and/or a motion sensor (eg, an accelerometer) for detecting motion. can In one example, the sensor circuit 352 may further include at least one of a bone conduction sensor and an acceleration sensor. In another embodiment, the acceleration sensor may be disposed close to the skin to detect bone conduction.

In an embodiment, the audio output circuit 372 may be configured to output a sound. The audio receiving circuit 382 may include one or a plurality of microphones. The audio receiving circuit 382 may be configured to acquire an audio signal using one or a plurality of microphones. In an embodiment, each of the plurality of microphones may correspond to a different audio reception path. For example, when the audio receiving circuit 382 includes the first microphone and the second microphone, the audio signal obtained by the first microphone and the audio signal by the second microphone may be referred to as different audio channels. .

In an embodiment, the processor 322 may acquire an audio signal by using at least one of a plurality of microphones connected to the audio receiving circuit 382 . The processor 322 may dynamically select or determine, for example, at least one microphone for acquiring an audio signal from among a plurality of microphones.

In an embodiment, the processor 322 may execute a voice recognition function. In an embodiment, the voice recognition function may be executed based on an input obtained through the second wireless audio device 202 - 2 . For example, the processor 322 may determine whether to execute the voice recognition function based on the user's movement or touch identified through the sensor circuit 352 . In an embodiment, the voice recognition function may be executed based on a request obtained from the electronic device 201 . For example, the electronic device 201 provides the user with a UI for inquiring whether to use the voice recognition function, and executes the voice recognition function to the second wireless audio device 202 - 2 based on the input to the UI You can ask whether Thereafter, the processor 322 may determine whether to execute the voice recognition function based on a request obtained from the electronic device 201 . In an embodiment, the electronic device 201 may display a UI for inquiring whether to use the voice recognition function through the display 360 based on the establishment of the first link 205 . In an embodiment, the UI for inquiring whether to use the voice recognition function is an application for changing setting information of the first wireless audio device 202-1 and/or the second wireless audio device 202-2 (eg: It may be included in the execution screen of the application 146 of FIG. 1 ).

In an embodiment, the processor 322 may store the audio signal acquired through the audio receiving circuit 382 in the memory 342 . In an embodiment, the processor 322 may store the audio signal periodically acquired through the audio receiving circuit 382 in the memory 342 . In an embodiment, the processor 322 may store the audio signal of a specified length obtained through the audio receiving circuit 382 in the memory 342 .

In an embodiment, the processor 322 may recognize whether a wearer (eg, a user) speaks based on an audio signal obtained through the audio receiving circuit 382 . For example, the processor 322 may recognize whether a wearer (eg, a user) speaks based on an audio signal (eg, a voice signal) of a specified size or more in a specified band (eg, a human voice range). have. In an embodiment, the processor 322 may identify a movement due to the wearer's utterance through the sensor circuit 352 . According to an embodiment, the processor 322 may obtain information on the start time and end time of the wearer's utterance based on the specified movement and voice signal. While a voice signal is sensed, simultaneously or substantially simultaneously, if a designated motion is not detected, the processor 322 may generate an outsider utterance based on the voice signal (eg, a utterance of a person other than the wearer (eg, an outsider or a counterpart)). can detect The processor 322 may acquire information on the start time and end time of an outsider's utterance based on the specified movement and voice signal.

According to an embodiment, the processor 322 may recognize a specified utterance (eg, wake-up) from the utterance of a wearer (eg, a user). In an embodiment, the processor 322 may recognize a user's command (or a query) from the wearer's (eg, user's) utterance. In an embodiment, the processor 322 may simultaneously recognize the user's utterance and the user's query from the wearer's (eg, user) utterance.

In an embodiment, the processor 322 may transmit at least a part of the audio signal of the audio signal to the first wireless audio device 202-1 through the communication circuit 394 . In an embodiment, the processor 322 may transmit at least a part of the audio signal of the audio signal to the first wireless audio device 202-1 through the second link 215 .

In an embodiment, the first wireless audio device 202-1 transmits at least some audio signals from the second wireless audio device 202-2 to the electronic device 201, and at least some of the audio signals from the electronic device 201 A response corresponding to the audio signal may be obtained. In an embodiment, the processor 322 may obtain a response corresponding to at least some audio signals by monitoring the first link 205 using the communication circuit 394 . In an embodiment, the processor 322 may obtain a response corresponding to at least some audio signals from the first wireless audio device 202-1 through the second link 215 using the communication circuit 394 . .

In an embodiment, the processor 322 may maintain the voice recognition function in a running state. In an embodiment, while the voice recognition function is maintained in an executed state, the processor 322 may continuously identify the user's utterance from the audio signal obtained through the audio receiving circuit 382 .

In an embodiment, the processor 322 continuously acquires the user's specified utterance (eg, wake-up) and the user's query using a voice recognition function, and then performs an answer corresponding to the user's query and/or the user's query It is possible to provide the content corresponding to the user.

In another embodiment, the processor 322 obtains the user's specified utterance (eg, wake-up) by using a voice recognition function, provides an answer corresponding to the user's specified utterance, and then acquires the user's query Then, an answer corresponding to the user's query and/or content corresponding to the user's query may be provided to the user.

In one embodiment, the processor 322 sequentially responds to the user's designated utterance (eg, wake up (eg, hi Bixby)) and the user's command (or query) (eg, how is the weather today, play an exciting song). or, after acquiring the user's designated utterance (eg, wake-up (eg, Hi Bixby)), provide an answer corresponding to the user's specified utterance, and then provide a user's command (or query) ( Example: How is the weather today, play an exciting song) can be determined by the settings. According to an embodiment, the processor 322 may set based on a user input obtained from the second wireless audio device 202 - 2 and/or the electronic device 201 .

Role change operation of the first wireless audio device 202-1

In an embodiment, the first wireless audio device 202-1 identifies a change in the wearing state of the first wireless audio device 202-1 and/or the second wireless audio device 202-2. can In an embodiment, the first wireless audio device 202-1 performs wireless communication with the electronic device 201 (eg, while the first wireless audio device 202-1 performs the role of a PE) , a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 may be identified. In an embodiment, the first wireless audio device 202-1 transmits/receives packets to and from the electronic device 201 through the first link 205 (eg, the first wireless audio device 202-1 is a PE while performing the role of ), a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 may be identified. In an embodiment, the first wireless audio device 202 - 1 performs wireless communication with the electronic device 201 while the second wireless audio device 202 - 2 performs wireless communication with the electronic device 201 (eg, the first wireless audio device 202-1 ). 1) while performing the role of SE), a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 may be identified. In an embodiment, the first wireless audio device 202-1 is configured to transmit/receive packets to and from the second wireless audio device 202-2 with the electronic device 201 through the first link 205 (eg, the second wireless audio device 202-1). Changes in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 (while the first wireless audio device 202-1 performs the role of the SE) can be identified. In an embodiment, the first wireless audio device 202-1 is a wearing state of the first wireless audio device 202-1 and/or the second wireless audio device 202-2 while the voice recognition function is being executed. A change in the wearing state can be identified.

In one embodiment, the first wireless audio device 202-1 is based on the state information of the first wireless audio device 202-1 obtained through the sensor circuit 351, the first wireless audio device 202-1 ) can be identified. For example, the processor 321 may periodically receive data for identifying the wearing state of the first wireless audio device 202-1 from the sensor circuit 351 . In an embodiment, the first wireless audio device 202-1 sends the first wireless audio device to the second wireless audio device 202-2 based on a change in the wearing state of the first wireless audio device 202-1. The device 202-1 may transmit status information.

In an embodiment, the first wireless audio device 202-1 is the second wireless audio device 202-1 based on the status information of the second wireless audio device 202-2 obtained through the second link 215. 2) the wearing state can be identified. For example, the first wireless audio device 202-1 requests status information from the second wireless audio device 202-2, and then based on the status information received from the second wireless audio device 202-2 Thus, the wearing state of the second wireless audio device 202 - 2 may be identified. In an embodiment, the first wireless audio device 202-1 requests status information from the second wireless audio device 202-2 based on a change in the wearing state of the first wireless audio device 202-1. The first wireless audio device 202-1 may acquire status information of the second wireless audio device 202-2. In an embodiment, the second wireless audio device 202-2 transmits state information to the first wireless audio device 202-1 based on a change in the wearing state of the second wireless audio device 202-2. The first wireless audio device 202-1 may acquire status information of the second wireless audio device 202-2. In an embodiment, the state information of the second wireless audio device 202 - 2 may be information obtained by the second wireless audio device 202 - 2 through the sensor circuit 352 .

In an embodiment, the first wireless audio device 202-1 is based on a wearing state of the first wireless audio device 202-1 and/or a wearing state of the second wireless audio device 202-2, It can be identified whether the change condition has been met. In an embodiment, the first wireless audio device 202-1 may identify whether a role change condition is satisfied while the first wireless audio device 202-1 performs the role of a PE. In one embodiment, the first wireless audio device 202-1 is a role change condition while the first wireless audio device 202-1 transmits/receives data to and from the electronic device 201 through the first link 205 It can be identified whether this has been met. In an embodiment, the first wireless audio device 202-1 may identify whether a role change condition is satisfied while the first wireless audio device 202-1 performs the role of the SE. In an embodiment, the first wireless audio device 202-1 may identify whether a role change condition is satisfied while the first wireless audio device 202-1 monitors the first link 205 . In one embodiment, the role change changes the subject that transmits to the electronic device 201 between the first wireless audio device 202-1 and the second wireless audio device 202-2 on the first link 205 . can mean doing In one embodiment, the role change includes changing the role of the PE and the role of the SE between the first wireless audio device 202-1 and the second wireless audio device 202-2 in the first link 205 to each other. can mean In an embodiment, the role change may be that the PE provides the SE with the authority to transmit/receive data with the electronic device 201 through the first link 205 among the roles of the PE, and monitors the first link 205 . have. In an embodiment, the role change is a role in which the first wireless audio device 202-1 and the second wireless audio device 202-2 monitor the first link 205 to receive data from the electronic device 201 It may mean changing roles of transmitting and receiving data with the electronic device 201 through the first link 205 with each other. In one embodiment, the role change is that the first wireless audio device 202 - 1 monitors the first link 205 to receive data from the electronic device 201 , and the second wireless audio device 202 - 2 monitors the first link 205 . It may mean transmitting/receiving data with the electronic device 201 through the first link 205 .

In an embodiment, in the first wireless audio device 202-1, the wearing state of the first wireless audio device 202-1 is changed from worn to unworn, and the second wireless audio device 202-2 is worn. If the status is maintained as worn, it can be identified that the condition for changing the role has been met.

In an embodiment, after the wearing state of the first wireless audio device 202-1 is changed from worn to unworn, the first wireless audio device 202-1 is When the worn state of the wireless audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, in the first wireless audio device 202-1, the wearing state of the first wireless audio device 202-1 is maintained as unworn, and the wearing state of the second wireless audio device 202-2 is maintained. When changing from wearing off to wearing, it can be identified that the role change condition is satisfied.

In an embodiment, the first wireless audio device 202-1 is configured to perform the first wireless audio device 202-2 for a specified time (eg, about 5 seconds) after the wearing state of the second wireless audio device 202-2 is changed from wearing off to wearing. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, if it is identified that the role change condition is satisfied, the first wireless audio device 202-1 and the second wireless audio device 202-2 may change the role of the PE and the role of the SE. In one embodiment, the role change changes the subject that transmits to the electronic device 201 between the first wireless audio device 202-1 and the second wireless audio device 202-2 on the first link 205 . can mean doing In an embodiment, the role change may be that the PE provides the SE with the authority to transmit/receive data with the electronic device 201 through the first link 205 among the roles of the PE and monitors the first link 205 . have. In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 serve to monitor the first link 205 and the electronic device 201 via the first link 205 ) and the role of sending and receiving data can be changed. In an embodiment, if it is identified that the role change condition is satisfied, the first wireless audio device 202-1 transmits a packet requesting the role change to the second wireless audio device 202-2, thereby changing the roles to each other. can be changed In an embodiment, the changed role may be maintained until the next role change. In one embodiment, the changed role may be maintained for a specified change time. In an embodiment, after the specified change time, the roles of the first wireless audio device 202-1 and the second wireless audio device 202-2 may be restored again. For example, after a specified change time, the first wireless audio device 202-1 performs a role of transmitting and receiving data with the electronic device 201 through the first link 205, and the second wireless audio device 202 -2) may be restored to a role of monitoring the first link 205 .

In an embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 may consider the load of the first link 205 and/or the second link 215 when changing roles. have. In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 are PE in a situation where the load of the first link 205 and/or the second link 215 is not high. The role of and the role of SE can be interchanged with each other. In one embodiment, the first wireless audio device 202 - 1 and the second wireless audio device 202 - 2 connect the first link 205 and/or the second link 215 after the role change condition is satisfied. If the load is not high, the role of the PE and the role of the SE can be exchanged with each other. In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 are first connected in a situation where the load of the first link 205 and/or the second link 215 is not high. The role of monitoring the first link 205 and the role of transmitting and receiving data with the electronic device 201 through the first link 205 may be changed.

In an embodiment, the first wireless audio device 202-1 performs data transmission/reception using a specified profile (eg, HFP, A2DP, or SPP) through the first link 205, the first link 205 ), it can be judged that the load is high. In an embodiment, when data is transmitted/received using the first link 205 , the first wireless audio device 202-1 may determine that the load on the first link 205 is high. In an embodiment, when the traffic amount of data used through the first link 205 exceeds a specified communication amount, the first wireless audio device 202-1 has a high load on the first link 205 can be judged to be

In an embodiment, the first wireless audio device 202-1 performs data transmission/reception using a specified profile (eg, HFP, A2DP, or SPP) through the second link 215 through the second link 215 . ), it can be judged that the load is high. In an embodiment, when data is transmitted/received using the second link 215 , the first wireless audio device 202-1 may determine that the load on the second link 215 is high. In an embodiment, when the communication amount of data used through the second link 215 exceeds the specified communication amount, the first wireless audio device 202-1 determines that the load of the second link 215 is high. can do.

In an embodiment, when the load of the first link 205 and/or the second link 215 is high, the first wireless audio device 202-1 may withhold the role change. In an embodiment, the first wireless audio device 202-1 may perform the role change again when the load of the first link 205 and/or the second link 215 decreases. In an embodiment, while the condition for changing the role is maintained, the first wireless audio device 202-1 plays a role when the load of the first link 205 and/or the second link 215 is lowered. Changes can be made again.

In one embodiment, after the role between the first wireless audio device 202-1 and the second wireless audio device 202-2 is changed, the new PE (eg, the second wireless audio device 202-2) is the first Direct communication with the electronic device 201 may be performed through the link 205 . In one embodiment, after the role between the first wireless audio device 202-1 and the second wireless audio device 202-2 is changed, the new SE (eg, the first wireless audio device 202-1) is the first Link 205 may be monitored.

Role change operation of the second wireless audio device 202-2

In an embodiment, the second wireless audio device 202-2 is configured to identify a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2. can In an embodiment, the second wireless audio device 202 - 2 performs wireless communication with the electronic device 201 (eg, while the second wireless audio device 202 - 2 performs the role of a PE). , a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 may be identified. In an embodiment, the second wireless audio device 202-2 transmits/receives packets to and from the electronic device 201 through the first link 205 (eg, the second wireless audio device 202-2 is a PE while performing the role of ), a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 may be identified. In an embodiment, the second wireless audio device 202 - 2 performs wireless communication with the electronic device 201 while the first wireless audio device 202-1 performs wireless communication with the electronic device 201 (eg, the second wireless audio device 202 - 2) while performing the role of SE), a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 may be identified. In an embodiment, the second wireless audio device 202 - 2 transmits and receives packets between the first wireless audio device 202 - 1 and the electronic device 201 through the first link 205 (eg, the first wireless audio device 202 - 1 ). 2 (while the wireless audio device 202-2 performs the role of SE), a change in the wearing state of the first wireless audio device 202-1 and/or the wearing state of the second wireless audio device 202-2 can be identified. In an embodiment, the second wireless audio device 202 - 2 performs the wearing state of the first wireless audio device 202-1 and/or the second wireless audio device 202-2 while the voice recognition function is being executed. A change in the wearing state can be identified.

In an embodiment, the second wireless audio device 202 - 2 is based on the state information of the second wireless audio device 202 - 2 obtained through the sensor circuit 352 , the second wireless audio device 202 - 2 ) can be identified. For example, the processor 322 may periodically receive data for identifying a wearing state of the second wireless audio device 202 - 2 from the sensor circuit 352 . In an embodiment, the second wireless audio device 202-2 sends the second wireless audio device to the first wireless audio device 202-1 based on a change in the wearing state of the second wireless audio device 202-2. It may transmit status information of the device 202 - 2 .

In one embodiment, the second wireless audio device 202 - 2 is based on the state information of the first wireless audio device 202-1 obtained through the second link 215 , the first wireless audio device 202 - 1) the wearing state can be identified. For example, the second wireless audio device 202-2 requests status information from the first wireless audio device 202-1, and then based on the status information received from the first wireless audio device 202-1. Thus, the wearing state of the first wireless audio device 202-1 may be identified. In an embodiment, the second wireless audio device 202-2 requests status information from the first wireless audio device 202-1 based on a change in the wearing state of the second wireless audio device 202-2. By doing so, the second wireless audio device 202-2 may acquire status information of the first wireless audio device 202-1. In an embodiment, the first wireless audio device 202-1 transmits state information to the second wireless audio device 202-2 based on a change in the wearing state of the first wireless audio device 202-1. The second wireless audio device 202 - 2 may acquire status information of the first wireless audio device 202 - 1 . In an embodiment, the state information of the first wireless audio device 202-1 may be information obtained by the first wireless audio device 202-1 through the sensor circuit 351 .

In an embodiment, the second wireless audio device 202 - 2 may identify whether a role change condition is satisfied. In an embodiment, the second wireless audio device 202 - 2 may identify whether a role change condition is satisfied while the voice recognition function is being executed. In an embodiment, the second wireless audio device 202 - 2 may identify whether a role change condition is satisfied while the second wireless audio device 202 - 2 performs the role of the PE. In an embodiment, the second wireless audio device 202 - 2 transmits/receives data to and from the electronic device 201 through the first link 205 while the second wireless audio device 202 - 2 transmits/receives data to and from the electronic device 201 It can be identified whether this has been met. In an embodiment, the second wireless audio device 202 - 2 may identify whether a role change condition is satisfied while the second wireless audio device 202 - 2 performs the role of the SE. In an embodiment, the second wireless audio device 202 - 2 may identify whether a role change condition is satisfied while the second wireless audio device 202 - 2 monitors the first link 205 . In one embodiment, the role change changes the subject that transmits to the electronic device 201 between the first wireless audio device 202-1 and the second wireless audio device 202-2 on the first link 205 . can mean doing In an embodiment, the role change may mean changing the role of the PE and the role of the SE between the first wireless audio device 202-1 and the second wireless audio device 202-2. In an embodiment, the role change may be that the PE provides the SE with the authority to transmit/receive data with the electronic device 201 through the first link 205 among the roles of the PE and monitors the first link 205 . have. In one embodiment, the role change includes the role of the first wireless audio device 202-1 and the second wireless audio device 202-2 monitoring the first link 205, and the role of the first wireless audio device 202-1 and the second wireless audio device 202-2 through the first link 205. It may mean changing roles of transmitting and receiving data with the electronic device 201 with each other. In one embodiment, the role change is that the first wireless audio device 202-1 monitors the first link 205 , and the second wireless audio device 202-2 connects to the electronic device via the first link 205 . (201) may mean transmitting and receiving data.

In an embodiment, in the second wireless audio device 202-2, the wearing state of the first wireless audio device 202-1 is changed from wearing to unworn, and the second wireless audio device 202-2 is worn. If the status is maintained as worn, it can be identified that the condition for changing the role has been met.

In an embodiment, the second wireless audio device 202 - 2 performs the first wireless audio device for a specified time (eg, about 5 seconds) after the wearing state of the first wireless audio device 202-1 is changed from worn to unworn. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, in the second wireless audio device 202-2, the wearing state of the first wireless audio device 202-1 is maintained as unworn, and the wearing state of the second wireless audio device 202-2 is maintained. When changing from wearing off to wearing, it can be identified that the role change condition is satisfied.

In an embodiment, the second wireless audio device 202-2 is configured to perform the first wireless audio device 202-2 for a specified period of time (eg, about 5 seconds) after the wearing state of the second wireless audio device 202-2 is changed from unworn to worn. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, if it is identified that the role change condition is satisfied, the first wireless audio device 202-1 and the second wireless audio device 202-2 may change the role of the PE and the role of the SE. In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 serve to monitor the first link 205 and the electronic device 201 via the first link 205 ) and the role of sending and receiving data can be changed. In an embodiment, if it is identified that the role change condition is satisfied, the second wireless audio device 202-2 transmits a packet requesting the role change to the first wireless audio device 202-1 to change roles to each other. can be changed In an embodiment, the changed role may be maintained until the next role change. In one embodiment, the changed role may be maintained for a specified change time. In an embodiment, after a specified change time, the roles of the first wireless audio device 202-1 and the second wireless audio device 202-2 may be restored again. For example, after a specified change time, the first wireless audio device 202-1 performs a role of transmitting and receiving data to and from the electronic device 201 through the first link 205, and the second wireless audio device 202 -2) may be restored to a role of monitoring the first link 205 .

In an embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 may consider the load of the first link 205 and/or the second link 215 when changing roles. have. In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 are PE in a situation where the load of the first link 205 and/or the second link 215 is not high. The role of and the role of SE can be interchanged with each other. In an embodiment, the first wireless audio device 202 - 1 and the second wireless audio device 202 - 2 connect the first link 205 and/or the second link 215 after the role change condition is satisfied. If the load is not high, the role of the PE and the role of the SE can be exchanged with each other. In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 are first connected in a situation where the load of the first link 205 and/or the second link 215 is not high. The role of monitoring the first link 205 and the role of transmitting and receiving data with the electronic device 201 through the first link 205 may be changed. In an embodiment, the second wireless audio device 202 - 2 may identify the degree of the load of the first link 205 by monitoring the first link 205 .

In an embodiment, the second wireless audio device 202 - 2 transmits/receives data using a specified profile (eg, HFP, A2DP, or SPP) through the first link 205 , the first link 205 . ), it can be judged that the load is high. In an embodiment, when data is transmitted/received using the first link 205 , the second wireless audio device 202 - 2 may determine that the load on the first link 205 is high. In an embodiment, when the communication amount of data used through the first link 205 exceeds the specified communication amount, the second wireless audio device 202-1 determines that the load of the first link 205 is high. can do.

In an embodiment, the second wireless audio device 202 - 2 transmits/receives data using a specified profile (eg, HFP, A2DP, or SPP) through the second link 215 , the second link 215 . ), it can be judged that the load is high. In an embodiment, when data is transmitted/received using the second link 215 , the second wireless audio device 202 - 2 may determine that the load on the second link 215 is high. In an embodiment, when the communication amount of data used through the second link 215 exceeds the specified communication amount, the second wireless audio device 202 - 2 determines that the load of the second link 215 is high. can do.

In an embodiment, when the load of the first link 205 and/or the second link 215 is high, the second wireless audio device 202 - 2 may withhold the role change. In an embodiment, the second wireless audio device 202 - 2 may perform the role change again when the load of the first link 205 and/or the second link 215 decreases. In an embodiment, while the role change condition is maintained, the second wireless audio device 202 - 2 plays a role when the load of the first link 205 and/or the second link 215 is lowered. Changes can be made again.

In one embodiment, after the role between the first wireless audio device 202-1 and the second wireless audio device 202-2 is changed, the new PE (eg, the second wireless audio device 202-2) is the first Direct communication with the electronic device 201 may be performed through the link 205 . In one embodiment, after the role between the first wireless audio device 202-1 and the second wireless audio device 202-2 is changed, the new SE (eg, the first wireless audio device 202-1) is the first Link 205 may be monitored.

Although it has been described above that the roles of the first wireless audio device 202-1 and/or the second wireless audio device 202-2 are changed based on a change in wearing state, this is only an example.

In one embodiment, the first wireless audio device 202-1 and/or the second wireless audio device 202-2 includes an audio receiving circuit (eg, an audio receiving circuit 381 and/or an audio receiving circuit 382). ), it is possible to determine whether to change the role based on the audio signal (or the strength of the audio signal) obtained from the .

In an embodiment, when the strength of the audio signal obtained from the audio receiving circuit of the worn device is greater than the strength of the audio signal obtained from the audio receiving circuit of the worn device, the first wireless audio device 202-1 and/or the second wireless audio device 202 - 2 may identify that the role change condition is not satisfied. For example, even if the wearing state of the first wireless audio device 202-1 is changed from wearing to unworn, and the wearing state of the second wireless audio device 202-2 is maintained as worn, the first wireless audio device When the strength of the audio signal obtained from the audio receiving circuit 381 of 202-1 is greater than the audio signal obtained from the audio receiving circuit 382 of the second wireless audio device 202-2, the first wireless The audio device 202-1 and/or the second wireless audio device 202-2 may identify that the role change condition is not satisfied.

In an embodiment, when the user's utterance is identified in the audio signal obtained from the audio receiving circuit of the unworn device, the first wireless audio device 202-1 may identify that the role change condition is not satisfied. . In an embodiment, the user's utterance is identified in the audio signal obtained from the audio receiving circuit of the unworn device, and the intensity of the audio signal obtained from the audio receiving circuit of the unworn device is determined from the audio receiving circuit of the worn device. If it is greater than the strength of the acquired audio signal, the first wireless audio device 202-1 and/or the second wireless audio device 202-2 may identify that the role change condition is not satisfied.

4 illustrates a signal flow diagram 400 for communication between electronic devices according to an embodiment.

Referring to FIG. 4 , in operation 405 , the electronic device 201 may establish a first link (eg, the first link 205 of FIG. 2 ) with the first wireless audio device 202-1. In an embodiment, the electronic device 201 may be communicatively connected to the first wireless audio device 202-1 through the first link 205 .

In operation 415 , the first wireless audio device 202-1 and the second wireless audio device 202-2 may establish a second link (eg, the second link 215 of FIG. 2 ). Generation of the second link 215 is exemplary, and various embodiments of the present document are not limited thereto. For example, the first wireless audio device 202-1 and the second wireless audio device 202-2 establish the second link 215 (eg, operation 405) before establishing the first link 205 (operation 405). Example: operation 415) can be performed. For another example, the first wireless audio device 202-1 and the second wireless audio device 202-2 may establish the second link 215 substantially simultaneously with the establishment of the first link 205 . .

In operation 420 , information associated with the first link 205 may be shared with the second wireless audio device 202 - 2 . In an embodiment, the first wireless audio device 202-1 may share information related to the first link 205 to the second wireless audio device 202-2. For example, the first wireless audio device 202-1 may transmit information related to the first link 205 to the second wireless audio device 202-2 via the second link 215 .

In an embodiment, the first wireless audio device 202-1 may determine whether to share information related to the first link 205 . For example, when the first wireless audio device 202 - 1 determines to share information related to the first link 205 , the second wireless audio device 202 - 2 provides information related to the first link 205 . can pass The information associated with the first link 205 may include, for example, at least one of address information, clock information, channel information, SDP result information, information about supported functions, key information, or support features.

In an embodiment, when information associated with the first link 205 is received, the second wireless audio device 202-2 monitors the first link 205, thereby connecting with the first wireless audio device 202-1. Data transmitted through the first link 205 between the electronic devices 201 may be acquired.

In operation 430, the first wireless audio device 202-1 and/or the second wireless audio device 202-2 may execute a voice recognition function. For example, the first wireless audio device 202-1 and/or the second wireless audio device 202-2 may be configured based on a user input (eg, voice input or touch input) or a request from the electronic device 201 . to execute the voice recognition function. In an embodiment, the first wireless audio device 202-1 and/or the second wireless audio device 202-2 may maintain a voice recognition function in a running state.

In an embodiment, the first wireless audio device 202-1 is a user's designated utterance (eg, wake-up) and / or the user's query may be recognized. In an embodiment, the first wireless audio device 202-1 transmits an audio signal representing a user's designated utterance (eg, wake-up) and/or a user's query through the first link 205 to the electronic device 201 . and may obtain a response corresponding to the audio signal from the electronic device 201 . In an embodiment, the first wireless audio device 202-1 may provide an answer corresponding to the user's query included in the response and/or content corresponding to the user's query to the user.

In an embodiment, the second wireless audio device 202 - 2 performs a user's specified utterance (eg, wake-up) and / or the user's query may be recognized. In an embodiment, the second wireless audio device 202-2 electronically transmits an audio signal representing a user's designated utterance (eg, wake-up) and/or a user's query through the first wireless audio device 202-1. It may transmit to the device 201 and obtain a response corresponding to the audio signal from the electronic device 201 . For example, the second wireless audio device 202-2 transmits an audio signal to the first wireless audio device 202-1 through the second link, and the first wireless audio device 202-1 sends the second An audio signal received from the wireless audio device 202 - 2 may be transmitted to the electronic device 201 through the first link. In an embodiment, the second wireless audio device 202 - 2 may provide an answer corresponding to the user's query included in the response and/or content corresponding to the user's query to the user.

In operation 440, the first wireless audio device 202-1 and/or the second wireless audio device 202-2 may identify whether a role change condition is satisfied. In an embodiment, the first wireless audio device 202-1 and/or the second wireless audio device 202-2 may identify whether a role change condition is satisfied while the voice recognition function is being executed. In FIG. 4 , the first wireless audio device 202-1 is shown to identify whether the role change condition is satisfied, but this is only an example. In an embodiment, the second wireless audio device 202 - 2 may identify whether a role change condition is satisfied. In an embodiment, both the first wireless audio device 202-1 and the second wireless audio device 202-2 may individually identify whether a role change condition is satisfied.

In an embodiment, the first wireless audio device 202-1 is based on a wearing state of the first wireless audio device 202-1 and/or a wearing state of the second wireless audio device 202-2, It can be identified whether the change conditions have been met. In one embodiment, the first wireless audio device 202-1 is based on the state information of the first wireless audio device 202-1 obtained through the sensor circuit 351, the first wireless audio device 202-1 ) can be identified. In an embodiment, the first wireless audio device 202-1 is the second wireless audio device 202-1 based on the status information of the second wireless audio device 202-2 obtained through the second link 215. 2) the wearing state can be identified. For example, the first wireless audio device 202-1 may periodically transmit a request signal for receiving status information of the second wireless audio device 202-2. As another example, the first wireless audio device 202-1 may transmit a signal requesting to periodically transmit status information to the second wireless audio device 202-2. In an embodiment, the state information of the second wireless audio device 202 - 2 may be information obtained by the second wireless audio device 202 - 2 through the sensor circuit 352 .

In an embodiment, in the first wireless audio device 202-1, the wearing state of the first wireless audio device 202-1 is changed from worn to unworn, and the second wireless audio device 202-2 is worn. If the status is maintained as worn, it can be identified that the condition for changing the role has been met.

In an embodiment, the first wireless audio device 202-1 may perform the first wireless audio device 202-1 for a specified period of time (eg, about 5 seconds) after the wearing state of the first wireless audio device 202-1 is changed from worn to unworn. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, in the first wireless audio device 202-1, the wearing state of the first wireless audio device 202-1 is maintained as unworn, and the wearing state of the second wireless audio device 202-2 is maintained. When changing from wearing off to wearing, it can be identified that the role change condition is satisfied.

In an embodiment, the first wireless audio device 202-1 is configured to perform the first wireless audio device 202-2 for a specified time (eg, about 5 seconds) after the wearing state of the second wireless audio device 202-2 is changed from wearing off to wearing. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, the second wireless audio device 202 - 2 plays a role based on the wearing state of the first wireless audio device 202 - 1 and/or the wearing state of the second wireless audio device 202 - 2 . It can be identified whether the change conditions have been met. In an embodiment, the second wireless audio device 202 - 2 is based on the state information of the second wireless audio device 202 - 2 obtained through the sensor circuit 352 , the second wireless audio device 202 - 2 ) can be identified. In one embodiment, the second wireless audio device 202 - 2 is based on the state information of the first wireless audio device 202-1 obtained through the second link 215 , the first wireless audio device 202 - 1) the wearing state can be identified. In an embodiment, the state information of the first wireless audio device 202-1 may be information obtained by the first wireless audio device 202-1 through the sensor circuit 351 .

In an embodiment, in the second wireless audio device 202-2, the wearing state of the first wireless audio device 202-1 is changed from wearing to unworn, and the second wireless audio device 202-2 is worn. If the status is maintained as worn, it can be identified that the condition for changing the role has been met.

In an embodiment, the second wireless audio device 202 - 2 performs the first wireless audio device for a specified time (eg, about 5 seconds) after the wearing state of the first wireless audio device 202-1 is changed from worn to unworn. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, in the second wireless audio device 202-2, the wearing state of the first wireless audio device 202-1 is maintained as unworn, and the wearing state of the second wireless audio device 202-2 is maintained. When changing from wearing off to wearing, it can be identified that the role change condition is satisfied.

In an embodiment, the second wireless audio device 202-2 is configured to perform the first wireless audio device 202-2 for a specified period of time (eg, about 5 seconds) after the wearing state of the second wireless audio device 202-2 is changed from unworn to worn. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In operation 450, the first wireless audio device 202-1 and the second wireless audio device 202-2 may change the role of the PE and the role of the SE. In one embodiment, the role change changes the subject that transmits to the electronic device 201 between the first wireless audio device 202-1 and the second wireless audio device 202-2 on the first link 205 . can mean doing In an embodiment, the role change may be that the PE provides the SE with the authority to transmit/receive data with the electronic device 201 through the first link 205 among the roles of the PE and monitors the first link 205 . have. In an embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 serve to monitor the first link 205, and via the first link 205, the electronic device ( 201) and the role of transmitting and receiving data can be changed.

In an embodiment, if it is identified that the role change condition is satisfied, the first wireless audio device 202-1 transmits a packet requesting the role change to the second wireless audio device 202-2, thereby changing roles to each other. can be changed In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 are PE in a situation where the load of the first link 205 and/or the second link 215 is not high. The role of and the role of SE can be interchanged with each other. In one embodiment, the first wireless audio device 202-1 and the second wireless audio device 202-2 are first connected in a situation where the load of the first link 205 and/or the second link 215 is not high. The role of monitoring the first link 205 and the role of transmitting and receiving data with the electronic device 201 through the first link 205 may be changed.

In an embodiment, the first wireless audio device 202-1 performs data transmission/reception using a specified profile (eg, HFP, A2DP, or SPP) through the first link 205, the first link 205 ), it can be judged that the load is high. In an embodiment, the second wireless audio device 202 - 2 may identify the degree of the load of the first link 205 by monitoring the first link 205 . In an embodiment, the second wireless audio device 202 - 2 transmits/receives data using a specified profile (eg, HFP, A2DP, or SPP) through the first link 205 , the first link 205 . ), it can be judged that the load is high. In an embodiment, when data is transmitted and received using the first wireless audio device 202-1 and the second wireless audio device 202-2 through the first link 205, It can be judged that the load is high. In an embodiment, when the communication amount of data used through the first link 205 exceeds a specified communication amount between the first wireless audio device 202-1 and the second wireless audio device 202-2, the first link It can be determined that the load of (205) is high.

In operation 460 , the second wireless audio device 202 - 2 may transmit/receive packets to and from the electronic device 201 through the first link 205 . In an embodiment, the second wireless audio device 202 - 2 may transmit a packet including an audio signal obtained using at least one microphone to the electronic device 201 . In an embodiment, the second wireless audio device 202 - 2 may receive at least one packet from the electronic device 201 .

In operation 465 , the first wireless audio device 202-1 may monitor the first link 205 . In an embodiment, the first wireless audio device 202-1 may acquire a packet transmitted/received through the first link 205 based on address information related to the first link 205 . In an embodiment, the first wireless audio device 202-1 may acquire a packet transmitted by the second wireless audio device 202-2 to the electronic device 201 by monitoring the first link 205 . . The first wireless audio device 202-1 acquires packets transmitted by the electronic device 201 and the second wireless audio device 202-2 through the first link 205 by monitoring the first link 205 can do. Monitoring in operation 465 may be referred to as sniffing, shadowing, listening, or snooping.

In operation 470 , the first wireless audio device 202-1 may transmit a packet to the second wireless audio device 202-2 through the second link 215 . In an embodiment, the first wireless audio device 202-1 may transmit a packet including an audio signal obtained using at least one microphone to the second wireless audio device 202-2.

In operation 480 , the second wireless audio device 202 - 2 may transmit at least a portion of the packet received from the first wireless audio device 202 - 1 to the electronic device 201 through the first link 205 . have.

In operation 485 , the first wireless audio device 202-1 may monitor the first link 205 . The first wireless audio device 202-1 may acquire the packet transmitted by the second wireless audio device 202-2 by monitoring the first link 205 . For example, the first wireless audio device 202 - 1 includes an audio signal transmitted to the second wireless audio device 202 - 2 via the second link 215 by monitoring the first link 205 . It may receive a response signal to the packet, and output a sound based on the received signal through the audio output circuit 372 .

5 is a flowchart illustrating an operation of at least one wireless audio device 202-1 and/or 202-2 according to an embodiment.

The operations of FIG. 5 may be performed by any one of the at least one wireless audio devices 202-1 and/or 202-2. Hereinafter, it is assumed that the operations of FIG. 5 are performed by the first wireless audio device 202-1. However, this assumption does not mean that the operations of FIG. 5 are not performed by the second wireless audio device 202 - 2 .

Referring to FIG. 5 , in operation 510 , the first wireless audio device 202-1 may execute a voice recognition function. In an embodiment, the first wireless audio device 202-1 may maintain the voice recognition function in a running state. In an embodiment, the voice recognition function may be executed based on an input obtained through the first wireless audio device 202-1. For example, the processor 321 may determine whether to execute the voice recognition function based on the user's movement or touch identified through the sensor circuit 351 . In an embodiment, the voice recognition function may be executed based on a request obtained from the electronic device 201 . For example, the electronic device 201 provides a user interface (UI) for inquiring whether to use the voice recognition function to the user, and gives a voice to the first wireless audio device 202-1 based on an input to the UI. It is possible to request whether the recognition function is executed or not. Thereafter, the processor 321 may determine whether to execute the voice recognition function based on a request obtained from the electronic device 201 .

In an embodiment, the first wireless audio device 202-1 may provide a response to the user through the audio output circuit 371 based on the audio signal obtained through the audio receiving circuit 381 . For example, the response provided to the user is obtained from the electronic device 201 by providing the first wireless audio device 202-1 with an audio signal acquired through the audio receiving circuit 381 to the electronic device 201 . it could be

In operation 520, it may be identified whether a role change condition is satisfied. In an embodiment, the first wireless audio device 202-1 may identify whether a role change condition is satisfied while the voice recognition function is being executed. In an embodiment, the first wireless audio device 202-1 may identify whether a role change condition is satisfied while the first wireless audio device 202-1 performs the role of a PE. In an embodiment, the first wireless audio device 202-1 is a role change condition while the first wireless audio device 202-1 transmits/receives data to and from the electronic device 201 through the first link 205 It can be identified whether this has been met. In an embodiment, the first wireless audio device 202-1 may identify whether a role change condition is satisfied while the first wireless audio device 202-1 performs the role of the SE. In an embodiment, the first wireless audio device 202-1 may identify whether a role change condition is satisfied while the first wireless audio device 202-1 monitors the first link 205 .

In an embodiment, the first wireless audio device 202-1 is based on a wearing state of the first wireless audio device 202-1 and/or a wearing state of the second wireless audio device 202-2, It can be identified whether the change conditions have been met. In one embodiment, the first wireless audio device 202-1 is based on the state information of the first wireless audio device 202-1 obtained through the sensor circuit 351, the first wireless audio device 202-1 ) can be identified. In an embodiment, the first wireless audio device 202-1 is the second wireless audio device 202-1 based on the status information of the second wireless audio device 202-2 obtained through the second link 215. 2) the wearing state can be identified. In an embodiment, the state information of the second wireless audio device 202 - 2 may be information obtained by the second wireless audio device 202 - 2 through the sensor circuit 352 .

In an embodiment, in the first wireless audio device 202-1, the wearing state of the first wireless audio device 202-1 is changed from worn to unworn, and the second wireless audio device 202-2 is worn. If the status is maintained as worn, it can be identified that the condition for changing the role has been met.

In an embodiment, the first wireless audio device 202-1 may perform the first wireless audio device 202-1 for a specified period of time (eg, about 5 seconds) after the wearing state of the first wireless audio device 202-1 is changed from worn to unworn. When the worn state of the audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

In an embodiment, in the first wireless audio device 202-1, the wearing state of the first wireless audio device 202-1 is maintained as unworn, and the wearing state of the second wireless audio device 202-2 is maintained. When changing from wearing off to wearing, it can be identified that the role change condition is satisfied.

In an embodiment, the first wireless audio device 202-1 is configured to perform the first operation for a specified time (eg, about 5 seconds) after the wearing state of the second wireless audio device 202-2 is changed from wearing off to wearing. When the worn state of the wireless audio device 202-1 is maintained as unworn and the worn state of the second wireless audio device 202-2 is maintained as worn, it may be identified that a role change condition is satisfied.

If it is determined in operation 520 that the role change condition is satisfied (determining 'yes'), the first wireless audio device 202-1 may perform operation 530 . If it is determined in operation 520 that the role change condition is not satisfied (determining 'No'), the first wireless audio device 202-1 may end the operations according to FIG. 5 . According to an embodiment, the first wireless audio device 202-1 may perform an operation (eg, operation 520) of confirming that the role change condition is satisfied at a specified period.

In operation 530, the first wireless audio device 202-1 may change roles with the second wireless audio device 202-2. In an embodiment, the first wireless audio device 202-1 transmits a packet requesting a role change to the second wireless audio device 202-2, whereby the first wireless audio device 202-1 plays a role. can change each other. In one embodiment, the role change includes changing the role of the PE and the role of the SE between the first wireless audio device 202-1 and the second wireless audio device 202-2 in the first link 205 to each other. can mean In one embodiment, the role change includes the role of the first wireless audio device 202-1 and the second wireless audio device 202-2 monitoring the first link 205, and the role of the first wireless audio device 202-1 and the second wireless audio device 202-2 through the first link 205. It may mean changing roles of transmitting and receiving data with the electronic device 201 with each other. In one embodiment, the role change is that the first wireless audio device 202-1 monitors the first link 205 , and the second wireless audio device 202-2 connects to the electronic device via the first link 205 . (201) may mean transmitting and receiving data.

6 is a flowchart illustrating the operation of at least one device 202-1 and/or 202-2 according to an embodiment.

The operations of FIG. 6 may be included in operation 520 of FIG. 5 .

The operations of FIG. 6 may be performed by any one of the one or more devices 202-1 and/or 202-2. Hereinafter, it is assumed that the operations of FIG. 6 are performed by the first wireless audio device 202-1. However, this assumption does not mean that the operations of FIG. 6 are not performed by the second wireless audio device 202 - 2 .

Referring to FIG. 6 , in operation 610 , the first wireless audio device 202-1 may identify wearing off of the first wireless audio device 202-1. In an embodiment, the first wireless audio device 202-1 may identify wearing off of the first wireless audio device 202-1 based on the state information of the first wireless audio device 202-1. .

In operation 620, the first wireless audio device 202-1 determines whether the wearing state of the first wireless audio device 202-1 is unworn and whether the wearing state of the second wireless audio device 202-2 is worn. can be identified. In an embodiment, the first wireless audio device 202-1 is configured to provide a first wireless audio device based on the status information of the first wireless audio device 202-1 and the status information of the second wireless audio device 202-2. Wearing of the device 202-1 and wearing of the second wireless audio device 202-2 may be identified.

If the first wireless audio device 202-1 is released and the second wireless audio device 202-2 is identified (YES) in operation 620, the first wireless audio device 202-1 is Operation 630 may be performed. In operation 620, if the first wireless audio device 202-1 is not worn or the second wireless audio device 202-2 is not identified ('no' determination), the first wireless audio device 202-1 may end the operations according to FIG. 6 . For example, in operation 620, if the first wireless audio device 202-1 is in a worn state or the second wireless audio device 202-2 is in a worn state, the operations according to FIG. 6 may be terminated. have. In an embodiment, the end of the operations according to FIG. 6 by the first wireless audio device 202-1 is shown in FIG. 5 according to the identification result in operation 520 of FIG. 5 by the first wireless audio device 202-1. It may mean terminating the following operations.

In operation 630, the first wireless audio device 202-1 may wait for a specified time (eg, about 5 seconds). 6 illustrates that the first wireless audio device 202-1 is on standby, but this is only an example. In one embodiment, the first wireless audio device 202-1 is to unworn the first wireless audio device 202-1 and the second wireless audio device 202-2 for a specified period of time (eg, about 5 seconds). It may be determined continuously (or at a specified period) whether wearing of

If the first wireless audio device 202-1 is released and the second wireless audio device 202-2 is identified (YES) in operation 640, the first wireless audio device 202-1 is Operation 530 may be performed. In operation 640, if the first wireless audio device 202-1 is not worn or the second wireless audio device 202-2 is not identified ('no' determination), the first wireless audio device 202-1 may end the operations according to FIG. 6 . For example, in operation 640 , if the first wireless audio device 202-1 is in a worn state or the second wireless audio device 202-2 is in an unworn state, the operations according to FIG. 6 may be terminated. have. In an embodiment, the end of the operations according to FIG. 6 by the first wireless audio device 202-1 is shown in FIG. 5 according to the identification result in operation 520 of FIG. 5 by the first wireless audio device 202-1. It may mean terminating the following operations.

7 is a flowchart illustrating the operation of at least one device 202-1 and/or 202-2 according to an embodiment.

The operations of FIG. 7 may be included in operation 520 of FIG. 5 .

The operations of FIG. 7 may be performed by any one of the one or more devices 202-1 and/or 202-2. Hereinafter, it is assumed that the operations of FIG. 7 are performed by the first wireless audio device 202-1. However, this assumption does not mean that the operations of FIG. 7 are not performed by the second wireless audio device 202 - 2 .

Referring to FIG. 7 , in operation 710 , the first wireless audio device 202-1 may identify wearing of the second wireless audio device 202-2. In an embodiment, the first wireless audio device 202-1 may identify wearing of the second wireless audio device 202-2 based on the state information of the second wireless audio device 202-2.

In operation 720, the first wireless audio device 202-1 determines whether the wearing state of the first wireless audio device 202-1 is unworn and whether the wearing state of the second wireless audio device 202-2 is worn. can be identified. In an embodiment, the first wireless audio device 202-1 is configured to provide a first wireless audio device based on the status information of the first wireless audio device 202-1 and the status information of the second wireless audio device 202-2. Wearing of the device 202-1 and wearing of the second wireless audio device 202-2 may be identified.

If the first wireless audio device 202-1 is released and the second wireless audio device 202-2 is identified (YES) in operation 720, the first wireless audio device 202-1 is Operation 730 may be performed. In operation 720, if the PE first wireless audio device 202-1 is not worn or the second wireless audio device 202-2 is not identified ('no' determination), the first wireless audio device 202-1 ) may end the operations according to FIG. 7 . In an embodiment, terminating the operations according to FIG. 7 by the first wireless audio device 202-1 is shown in FIG. 5 according to the identification result in operation 520 of FIG. 5 by the first wireless audio device 202-1. It may mean terminating the following operations.

In operation 730, the first wireless audio device 202-1 may wait for a specified time (eg, 5 seconds). 7 illustrates that the first wireless audio device 202-1 is waiting, but this is only an example. In an embodiment, the first wireless audio device 202-1 is configured to remove the wearing of the first wireless audio device 202-1 and the second wireless audio device 202-2 for a specified period of time (eg, 5 seconds). Whether the wear is identified may be determined continuously (or at a specified period).

If the first wireless audio device 202-1 is released and the second wireless audio device 202-2 is identified (YES) in operation 740, the first wireless audio device 202-1 is Operation 530 may be performed. In operation 740, if the first wireless audio device 202-1 is not worn or the second wireless audio device 202-2 is not identified ('no' determination), the first wireless audio device 202-1 may end the operations according to FIG. 7 . In an embodiment, terminating the operations according to FIG. 7 by the first wireless audio device 202-1 is shown in FIG. 5 according to the identification result in operation 520 of FIG. 5 by the first wireless audio device 202-1. It may mean terminating the following operations.

Although it has been described above that the roles of the first wireless audio device 202-1 and/or the second wireless audio device 202-2 are changed based on a change in wearing state, this is only an example.

In an embodiment, the role may be changed based on the user wearing the first wireless audio device 202-1 and/or the second wireless audio device 202-2. For example, when the first wireless audio device 202-1 is worn by the owner, and the second wireless audio device 202-2 is worn by people around the owner, the first wireless audio device 202-1 transmits/receives data to and from the electronic device 201 through the first link 205 , and the second wireless audio device 202 - 2 performs a role of monitoring the first link 205 , the first wireless audio device Roles between the 202-1 and the second wireless audio device 202-2 may be changed. In an embodiment, the distinction between the owner and the surrounding person may be determined based on the audio signal. For example, the electronic device 201 may distinguish the owner from the surrounding people based on the audio signal of the first wireless audio device 202-1 and the audio signal of the second wireless audio device 202-2. For example, the electronic device 201 may distinguish the owner from the surrounding people by comparing the characteristics of the owner's voice included in the audio signal and the voice characteristics of the surrounding people.

As another example, when the first wireless audio device 202-1 is worn by the owner and the second wireless audio device 202-2 is worn by people around the owner, the first wireless audio device 202-1 ) on the basis of the utterance included in the audio signal of the first wireless audio device 202-1 and the second wireless audio device 202- 2) You can change the role between the two. For example, the utterance included in the audio signal of the first wireless audio device 202-1 is the presence of a speaker role (eg, “you talk”) and/or of the second wireless audio device 202-2 When the utterance included in the audio signal is a command of the speaker role (“I will talk”), the first wireless audio device 202-1 transmits/receives data to and from the electronic device 201 through the first link 205, , play a role between the first wireless audio device 202-1 and the second wireless audio device 202-2, so that the second wireless audio device 202-2 serves to monitor the first link 205; can be changed

As another example, when the first wireless audio device 202-1 is worn by the owner, and the second wireless audio device 202-2 is worn by people around the owner, the first wireless audio device 202-1 The first wireless audio device 202-1 and the second wireless audio device 202-2 based on the user input obtained through 1) and/or the user input obtained through the second wireless audio device 202-2 ) can change roles. For example, when a user input (eg, a touch input) is obtained through the second wireless audio device 202 - 2 , the first wireless audio device 202 - 1 connects to the electronic device through the first link 205 . The first wireless audio device 202-1 and the second wireless audio device transmit and receive data to and from 201 , and the second wireless audio device 202-2 serves to monitor the first link 205 . The role between 202-2 can be changed. As another example, the first wireless audio device 202-1 is worn by the owner, and the second wireless audio device 202-2 is worn by people around the owner. When worn, a sensor (eg, a sensor circuit 351) included in the first wireless audio device 202-1 and/or a sensor (eg, a sensor circuit) included in the second wireless audio device 202-2 352)), the roles between the first wireless audio device 202-1 and the second wireless audio device 202-2 may be changed based on the user biometric information obtained through the method. For example, a sensor (eg, the sensor circuit 351 and/or the sensor circuit 352 ) that acquires user biometric information may include a heart rate sensor or an electrocardiogram sensor.

According to various embodiments, after the first wireless audio device 202-1 and the second wireless audio device 202-1 perform role change, the first wireless audio device 202-1 and the second wireless audio device If the wearing state of 202-1 is changed, the role change may be performed again. For example, after the wearing state of the first wireless audio device 202-1 operating as PE is changed to unworn and the role of the second wireless audio device 202-1 is changed as PE, the first wireless audio device 202-1 ( When the wearing state of 202-1) is changed from wearing off to wearing, the first wireless audio device 202-1 may request a role change from the second wireless audio device 202-1.

The electronic device (eg, the first wireless audio device 202-1) according to an embodiment of the present disclosure includes an audio receiving circuit (eg, an audio receiving circuit 381) and an audio output circuit (eg, an audio output circuit 371). )), a first wireless communication link (eg, the first link 205) between the counterpart electronic device (eg, the second wireless audio device 202-2) and an external electronic device (eg, the electronic device 201); A communication circuit (eg, communication circuit 394), a processor (eg, processor 321) for establishing a second wireless communication link (eg, the second link 215), a processor (eg, processor 321), and a memory (eg, for storing instructions) memory 331), and when the instructions are executed by the processor (eg, the processor 321), the processor (eg, the processor 321), the audio receiving circuit (eg, the audio receiving circuit ( 381)), and while the voice recognition function is running: the electronic device (eg, the first wireless audio device 202-1) or the counterpart electronic device (eg, the second wireless audio device) The device 202-2) identifies a change in the wearing state of at least one electronic device, and based on the identification of the change in the wearing state, the second wireless communication link (eg, the second link 215) is configured. Through this, roles between the electronic device (eg, the first wireless audio device 202-1) and the counterpart electronic device (eg, the second wireless audio device 202-2) may be changed to each other. In an embodiment, the first role among the roles includes the external electronic device (eg, the electronic device 201) through the first wireless communication link (eg, the first link 205) with the external electronic device (eg, the electronic device 201). Example: a role of communicating with the electronic device 201), and a second role among the roles may be a role of monitoring the first wireless communication link (eg, the first link 205).

In an embodiment, when the instructions are executed by the processor (eg, the processor 321), the processor (eg, the processor 321) based on the identification of the change in the wearing state, the electronic device ( Example: a first wearing state of the first wireless audio device 202-1) and a second wearing state of the counterpart electronic device (eg, the second wireless audio device 202-2) are checked, and the first wearing state is checked. Based on the state and the second wearing state, the second one of the electronic device (eg, the first wireless audio device 202-1) and the counterpart electronic device (eg, the second wireless audio device 202-2) The electronic device performing the first role and the electronic device performing the second role may be determined, and the roles may be changed based on determining the role.

In an embodiment, when the instructions are executed by the processor (eg, the processor 321 ), the processor (eg, the processor 321 ) causes the first worn state and the second worn state for a specified time period. Based on being maintained, it may be configured to change the roles to each other.

In an embodiment, when the instructions are executed by the processor (eg, the processor 321), the processor (eg, the processor 321) causes the electronic device (eg, the first wireless audio device 202-1) )) while performing the first role, identify that the first wearing state of the electronic device (eg, the first wireless audio device 202-1) is changed from wearing to wearing off, and the first wearing Based on the identification of the change in state, it may be configured to confirm the second wearing state.

In an embodiment, when the instructions are executed by the processor (eg, the processor 321 ), the processor (eg, the processor 321 ) causes the other party to perform the second role while the electronic device performs the second role. It is identified that the second wearing state of the electronic device (eg, the second wireless audio device 202 - 2 ) is changed from wearing off to wearing, and based on the identification of the change in the second wearing state, the first wear It may be configured to check the status.

In an embodiment, when the instructions are executed by the processor (eg, the processor 321), the processor (eg, the processor 321) causes the electronic device (eg, the first wireless audio device 202-1) )) to identify that the first wearing state is changed, and transmit information indicating that the first wearing state is changed to the counterpart electronic device (eg, the second wireless audio device 202-2). .

In an embodiment, when the instructions are executed by the processor (eg, the processor 321), the processor (eg, the processor 321) causes the electronic device (eg, the first wireless audio device 202-1) ))) is identified that the first wearing state is changed, and the second state information is transmitted to the counterpart electronic device (eg, the second wireless audio device 202-2) based on the change in the first wearing state. request, and receive information indicating the second wearing state from the counterpart electronic device (eg, the second wireless audio device 202 - 2 ).

In an embodiment, when the instructions are executed by the processor (eg, the processor 321 ), the processor (eg, the processor 321 ) further based on a load of the first wireless communication link, the electronic It may be configured to change roles between a device (eg, the first wireless audio device 202-1) and the counterpart electronic device (eg, the second wireless audio device 202-2).

In one embodiment, when the instructions are executed by the processor (eg, the processor 321), the processor (eg, the processor 321), the first wireless communication link (eg, the first link 205) ) is not performed or when the communication amount of data through the first wireless communication link (eg, the first link 205) is less than or equal to a specified communication amount, the electronic device (eg, the first wireless audio device ( 202-1)) and the counterpart electronic device (eg, the second wireless audio device 202-2) may be configured to change roles.

In an embodiment, when the instructions are executed by the processor (eg, the processor 321), the processor (eg, the processor 321) causes the electronic device (eg, the first wireless audio device 202-1) ))) and/or the strength of the audio signal acquired through the counterpart electronic device (eg, the second wireless audio device 202-2), the electronic device (eg: configured to change roles between the first wireless audio device 202-1) and the counterpart electronic device (eg, the second wireless audio device 202-2)

A method of operating an electronic device (eg, the first wireless audio device 202-1) according to an embodiment of the present disclosure includes a communication circuit (eg, the first wireless audio device 202-1) of the electronic device (eg, the first wireless audio device 202-1). : A first wireless communication link (eg, the first wireless communication link) between the counterpart electronic device (eg, the second wireless audio device 202-2) and an external electronic device (eg, the electronic device 201) using the communication circuit 394) The operation of establishing a second wireless communication link (eg, the second link 215) that is distinct from the first link 205), and executing a voice recognition function through the audio reception circuit (eg, the audio reception circuit 381) and while the voice recognition function is being executed: at least one of the electronic device (eg, the first wireless audio device 202-1) or the counterpart electronic device (eg, the second wireless audio device 202-2) Based on the operation of identifying a change in the wearing state of one electronic device, and the identification of the change in the wearing state, the electronic device (eg, through the second wireless communication link (eg, the second link 215 )) and changing roles between the first wireless audio device 202-1) and the counterpart electronic device (eg, the second wireless audio device 202-2). In an embodiment, the first role among the roles includes the external electronic device (eg, the electronic device 201) through the first wireless communication link (eg, the first link 205) with the external electronic device (eg, the electronic device 201). Example: a role of communicating with the electronic device 201), and a second role among the roles may be a role of monitoring the first wireless communication link (eg, the first link 205).

In an embodiment, the changing of the roles may include a first wearing state of the electronic device (eg, the first wireless audio device 202-1) and the counterpart electronic device based on the identification of a change in the wearing state. Based on the operation of checking the second wearing state of the device (eg, the second wireless audio device 202 - 2 ), the first wearing state and the second wearing state, Determining the electronic device performing the first role and the electronic device performing the second role among the device 202-1) and the counterpart electronic device (eg, the second wireless audio device 202-2) , and changing the roles to each other based on determining the roles.

In an embodiment, the operation of changing the roles may include changing the roles from each other based on the first wearing state and the second wearing state being maintained for a specified time.

In an embodiment, the operation of identifying the change in the wearing state may include performing the operation of the electronic device (eg, the first wireless audio device 202-1) while the electronic device (eg, the first wireless audio device 202-1) performs the first role. An operation of identifying that the first wearing state of the wireless audio device 202-1) is changed from wearing to unwearing, and an operation of confirming the second wearing state based on the identification of the change in the first wearing state may include

In an embodiment, the identifying of the change in the wearing state includes the second operation of the counterpart electronic device (eg, the second wireless audio device 202-2) while the electronic device performs the second role. It may include an operation of identifying that the wearing state is changed from wearing off to wearing, and an operation of confirming the first wearing state based on the identification of the change in the second wearing state.

In an embodiment, the operation of identifying the change in the wearing state includes the operation of identifying that the first wearing state of the electronic device (eg, the first wireless audio device 202-1) is changed, and the first wearing and transmitting information indicating that the state is changed to the counterpart electronic device (eg, the second wireless audio device 202-2).

In an embodiment, the operation of identifying the change in the wearing state includes the operation of identifying that the first wearing state of the electronic device (eg, the first wireless audio device 202-1) is changed, and the first wearing state an operation of requesting information indicating a change in the counterpart electronic device (eg, the second wireless audio device 202-2) from the counterpart electronic device (eg, the second wireless audio device 202-2) It may include an operation of receiving information indicating the second wearing state.

In an embodiment, the operation of changing the roles is further based on the load of the first wireless communication link, and the electronic device (eg, the first wireless audio device 202-1) and the counterpart electronic device (eg, the counterpart electronic device 202-1) : may include an operation of changing roles between the second wireless audio devices 202 - 2).

In an embodiment, the operation of changing the roles from each other may include not performing transmission/reception of data through the first wireless communication link (eg, the first link 205) or the first wireless communication link (eg, the first link 205). When the data communication amount through the link 205) is less than or equal to the specified communication amount, the electronic device (eg, the first wireless audio device 202-1) and the counterpart electronic device (eg, the second wireless audio device 202-2) )) may include an operation to change roles between each other.

In an embodiment, the operation of changing the roles from each other includes the strength of an audio signal acquired through the electronic device (eg, the first wireless audio device 202-1) and/or the counterpart electronic device (eg, the second wireless audio device 202-1). The electronic device (eg, the first wireless audio device 202-1) and the counterpart electronic device (eg, the second wireless It may include an operation of changing roles between the audio devices 202 - 2).

The electronic device according to the embodiments disclosed in this document may have various types of devices. The electronic device may include, for example, a portable communication device (eg, a smart phone), a computer device, a portable multimedia device, a portable medical device, a camera, a wearable device, or a home appliance device. The electronic device according to the embodiment of the present document is not limited to the above-described devices.

The embodiments of this document and the terms used therein are not intended to limit the technical features described in this document to specific embodiments, and should be understood to include various modifications, equivalents, or substitutions of the embodiments. In connection with the description of the drawings, like reference numerals may be used for similar or related components. The singular form of the noun corresponding to the item may include one or more of the item, unless the relevant context clearly dictates otherwise. As used herein, "A or B", "at least one of A and B", "at least one of A or B", "A, B or C", "at least one of A, B and C", and "A , B, or C," each of which may include any one of the items listed together in the corresponding one of the phrases, or all possible combinations thereof. Terms such as "first", "second", or "first" or "second" may simply be used to distinguish an element from other elements in question, and may refer elements to other aspects (e.g., importance or order) is not limited. It is said that one (eg, first) component is “coupled” or “connected” to another (eg, second) component, with or without the terms “functionally” or “communicatively”. When referenced, it means that one component can be connected to the other component directly (eg by wire), wirelessly, or through a third component.

The term “module” used in the embodiments of this document may include a unit implemented in hardware, software, or firmware, for example, and interchangeably with terms such as logic, logic block, component, or circuit. can be used A module may be an integrally formed part or a minimum unit or a part of the part that performs one or more functions. For example, according to an embodiment, the module may be implemented in the form of an application-specific integrated circuit (ASIC).

One or more instructions stored in a storage medium (eg, internal memory 136 or external memory 138) readable by a machine (eg, electronic device 101) may be implemented as software (eg, the program 140) including For example, the processor (eg, the processor 120 ) of the device (eg, the electronic device 101 ) may call at least one of the one or more instructions stored from the storage medium and execute it. This makes it possible for the device to be operated to perform at least one function according to the called at least one command. The one or more instructions may include code generated by a compiler or code executable by an interpreter. The device-readable storage medium may be provided in the form of a non-transitory storage medium. Here, 'non-transitory' only means that the storage medium is a tangible device and does not contain a signal (eg, electromagnetic wave), and this term is used in cases where data is semi-permanently stored in the storage medium and It does not distinguish between temporary storage cases.

According to an embodiment, the method according to the embodiments disclosed in this document may be provided by being included in a computer program product. Computer program products may be traded between sellers and buyers as commodities. The computer program product is distributed in the form of a device-readable storage medium (eg compact disc read only memory (CD-ROM)), or via an application store (eg Play Store™) or on two user devices ( It can be distributed (eg downloaded or uploaded) directly, online between smartphones (eg: smartphones). In the case of online distribution, at least a portion of the computer program product may be temporarily stored or temporarily generated in a machine-readable storage medium such as a memory of a server of a manufacturer, a server of an application store, or a memory of a relay server.

According to an embodiment, each component (eg, module or program) of the above-described components may include a singular or a plurality of entities, and some of the plurality of entities may be separately disposed in other components. . According to embodiments, one or more components or operations among the above-described corresponding components may be omitted, or one or more other components or operations may be added. Alternatively or additionally, a plurality of components (eg, a module or a program) may be integrated into one component. In this case, the integrated component may perform one or more functions of each component of the plurality of components identically or similarly to those performed by the corresponding component among the plurality of components prior to the integration. . According to embodiments, operations performed by a module, program, or other component are executed sequentially, in parallel, repeatedly, or heuristically, or one or more of the operations are executed in a different order, omitted, or , or one or more other operations may be added.

Claims (20)

In an electronic device,
audio receiving circuit;
audio output circuit;
a communication circuit for establishing a second wireless communication link that is distinguished from a first wireless communication link between the counterpart electronic device and an external electronic device;
processor; and
a memory for storing instructions, wherein the instructions, when executed by the processor, cause the processor to:
executing a voice recognition function through the audio receiving circuit;
While the voice recognition function is running:
identify a change in a wearing state of at least one of the electronic device and the counterpart electronic device;
configured to change roles between the electronic device and the counterpart electronic device through the second wireless communication link based on identifying the change in the wearing state,
A first role among the roles is a role of communicating with the external electronic device through the first wireless communication link with the external electronic device,
The second of the roles is a role of monitoring the first wireless communication link.
The method according to claim 1,
When the instructions are executed by the processor, the processor
Based on the identification of the change in the wearing state, a first wearing state of the electronic device and a second wearing state of the counterpart electronic device are identified;
determining an electronic device performing the first role and an electronic device performing the second role among the electronic device and the counterpart electronic device based on the first wearing state and the second wearing state;
an electronic device configured to change the roles to each other based on determining the role.
3. The method according to claim 2,
When the instructions are executed by the processor, the processor
The electronic device is configured to change the roles to each other based on the first wearing state and the second wearing state being maintained for a specified time.
3. The method according to claim 2,
When the instructions are executed by the processor, the processor
identifying that the first worn state of the electronic device is changed from worn to unworn while the electronic device performs the first role;
The electronic device is configured to confirm the second wearing state based on the identification of the change in the first wearing state.
3. The method according to claim 2,
When the instructions are executed by the processor, the processor
identifying that the second wearing state of the counterpart electronic device is changed from wearing off to wearing while the electronic device performs the second role;
The electronic device is configured to confirm the first wearing state based on the identification of the change in the second wearing state.
3. The method according to claim 2,
When the instructions are executed by the processor, the processor
Identifies that the first wearing state of the electronic device is changed,
The electronic device is configured to transmit information indicating that the first wearing state is changed to the counterpart electronic device.
3. The method according to claim 2,
When the instructions are executed by the processor, the processor
Identifies that the first wearing state of the electronic device is changed,
requesting the second state information from the counterpart electronic device based on a change in the first wearing state;
The electronic device is configured to receive information indicating the second wearing state from the counterpart electronic device.
The method according to claim 1,
When the instructions are executed by the processor, the processor
and change the roles to each other, further based on a load of the first wireless communication link.
9. The method of claim 8,
When the instructions are executed by the processor, the processor
and when data transmission/reception through the first wireless communication link is not performed or when a communication amount of data through the first wireless communication link is less than or equal to a specified communication amount, the electronic device is configured to change the roles.
The method according to claim 1,
When the instructions are executed by the processor, the processor
The electronic device is configured to change roles between the electronic device and the counterpart electronic device based on the strength of the audio signal acquired through the electronic device and/or the strength of the audio signal acquired through the counterpart electronic device.
A method of operating an electronic device, comprising:
establishing a second wireless communication link distinguished from a first wireless communication link between a counterpart electronic device and an external electronic device by using the communication circuit of the electronic device;
executing a voice recognition function through an audio receiving circuit of the electronic device; and
While the voice recognition function is running:
identifying a change in a wearing state of at least one of the electronic device and the counterpart electronic device; and
and changing roles between the electronic device and the counterpart electronic device through the second wireless communication link based on identifying the change in the wearing state;
A first role among the roles is a role of communicating with the external electronic device through the first wireless communication link with the external electronic device,
wherein a second of the roles is a role of monitoring the first wireless communication link.
12. The method of claim 11,
The operation of changing the roles to each other is
checking the first wearing state of the electronic device and the second wearing state of the counterpart electronic device based on the identification of the change in the wearing state;
determining an electronic device performing the first role and an electronic device performing the second role among the electronic device and the counterpart electronic device based on the first wearing state and the second wearing state; and
and changing the roles to each other based on determining the role.
13. The method of claim 12,
and changing the roles to each other based on the first wearing state and the second wearing state being maintained for a specified time, and changing the roles to each other.
13. The method of claim 12,
The operation of identifying the change in the wearing state is
identifying that the first worn state of the electronic device is changed from worn to unworn while the electronic device performs the first role; and
and confirming the second wearing state based on the identification of the change in the first wearing state.
13. The method of claim 12,
The operation of identifying the change in the wearing state is
identifying that the second wearing state of the counterpart electronic device is changed from wearing off to wearing while the electronic device performs the second role; and
and confirming the first wearing state based on the identification of the change in the second wearing state.
13. The method of claim 12,
The operation of identifying the change in the wearing state is
identifying that the first wearing state of the electronic device is changed; and
and transmitting information indicating that the first wearing state is changed to the counterpart electronic device.
13. The method of claim 12,
The operation of identifying the change in the wearing state is
identifying that the first wearing state of the electronic device is changed;
requesting the second state information from the counterpart electronic device based on the change in the first wearing state; and
and receiving information indicating the second wearing state from the counterpart electronic device.
12. The method of claim 11,
and changing the roles from each other further based on a load of the first wireless communication link, and changing the roles from one another.
19. The method of claim 18,
The operation of changing the roles to each other includes an operation of changing the roles to each other when transmission and reception of data through the first wireless communication link is not performed or when the communication amount of data through the first wireless communication link is less than or equal to a specified communication amount How to.
12. The method of claim 11,
The operation of changing the roles to each other is based on the strength of the audio signal acquired through the electronic device and/or the strength of the audio signal acquired through the counterpart electronic device, to determine the roles between the electronic device and the counterpart electronic device. A method that includes actions that change each other.

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