WO2018044100A1 - Radio communication method using wireless headset and device therefor - Google Patents

Abstract

Disclosed are a radio communication method using a wireless headset, and a device therefor. The present invention relates to: a radio communication method using a wireless headset, wherein authentication with a terminal is performed using information of a wireless headset, and radio data is transmitted by determining a radio communication target including at least one wireless headset among the authenticated wireless headsets according to a set prescribed operation mode; and a device therefor.

Description

Radio communication method using wireless headset and device therefor

The present embodiment relates to a radio communication method using a wireless headset and an apparatus therefor.

The contents described in this section merely provide background information on the present embodiment and do not constitute a prior art.

In general, a terminal such as a smart phone, a walkie-talkie and the like can be connected to a wireless earphone using a short-range communication method to transmit and receive data such as telephone voice, radio, etc., and this technology has been applied to various fields.

However, such short-range communication has to be connected to a specific product or a limited number of terminals, and since wireless communication is possible only within a certain distance, there is a problem that it is difficult to apply to a field requiring communication at a long distance such as a sports field.

There is an application installed and operated in the form of a radio application in the terminal for radio communication over a long distance. However, these applications simply implement the functionality of the radio in the terminal, i.e. simply enable radio communication between the radio and the radio between the terminal and the radio.

In the case of a terminal having such a radio application installed, the radio message can be transmitted to a remote target, but there is an inconvenience in that the other party must carry a terminal having the same application.

In particular, when a coach (caller) instructs a player (receiver) using a radio message in a sports field, there is a difficulty in applying such a radio system in reality because a player having a lot of movements must carry a terminal. In addition, in the case of a sports event with one manager (sender) and several players (receivers), it is difficult for the coach to select and change a player, so it is difficult to apply the radio system to the sports field. Therefore, there is a need for a new technology for applying the radio system in the sports field.

The present embodiment performs authentication with a terminal using information of a wireless headset, determines a radio target including at least one wireless headset according to a predetermined operation mode among certified wireless headsets, and transmits radio data. It is a main object to provide a radio communication method using a headset and an apparatus therefor.

According to an aspect of the embodiment, the communication unit for obtaining the headset information from the wireless headset; An authentication unit which transmits the terminal identification information and the headset information to the device authentication server, and obtains a linked headset list for the terminal identification information from the device authentication server; Set an operation mode for determining a radio target, generate radio candidate information based on the list of interworking headsets according to the operation mode, and generate a radio target including at least one radio target headset using the radio candidate information. An interlocking control unit to determine; And a radio communication unit converting a voice signal input from a user into radio data and transmitting the radio data to the radio target.

Further, according to another aspect of the present invention, a method for a radio communication device to perform radio communication using a wireless headset, the method comprising the steps of: obtaining a headset information from the wireless headset; An authentication process of transmitting the terminal identification information and the headset information to a device authentication server, and obtaining a linked headset list for the terminal identification information from the device authentication server; Set an operation mode for determining a radio target, generate radio candidate information based on the list of interworking headsets according to the operation mode, and generate a radio target including at least one radio target headset using the radio candidate information. Determining interlock control process; And a radio communication process for converting a voice signal input from a user into radio data and transmitting the radio data to the radio target.

As described above, according to the present embodiment, there is an effect that the receiver can be efficiently selected in one-to-n radio communication.

In addition, there is an effect that can perform a radio communication by setting a group suitable for a sport selected in various sports fields.

In addition, there is an effect that can prevent eavesdropping and hacking through authentication between the terminal and the wireless headset during the initial connection.

1 is a block diagram schematically illustrating a radio communication system according to the present embodiment.

2 is a block diagram schematically illustrating a terminal included in a radio communication system according to the present embodiment.

3 is a flowchart illustrating a radio communication control method according to the present embodiment.

4A and 4B are diagrams for describing an operation of controlling the interworking of the wireless headset in the first mode according to the present embodiment.

5A and 5B are diagrams for describing an operation of controlling the interworking of the wireless headset in the second mode according to the present embodiment.

6A and 6B are diagrams for describing an operation of controlling the interworking of the wireless headset in the third mode according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

The wireless communication system of the present embodiment is a system that can be used in the field of sports education, for example, a system for radio communication between a transmitting user (for example, educator, coach, coach, etc.) and a receiving user (trainer, athlete, student, trainee, etc.) For example, but is not limited thereto, and may be used in various fields to which radio communication between each other is applicable.

1 is a block diagram schematically illustrating a radio communication system according to the present embodiment.

The radio communication system according to the present embodiment includes a terminal 110, a wireless headset 120, and a device authentication server 130. In the radio communication system illustrated in FIG. 1, according to an embodiment, not all blocks illustrated in FIG. 1 are essential components. In another embodiment, some blocks included in the radio communication system may be added, changed, or deleted. have.

The terminal 110 refers to a terminal capable of transmitting and receiving various data by using an access point (AP), near field communication, a communication base station, etc. according to a user's key operation, and may include a tablet PC, a laptop, It may be any one of a personal computer (PC), a smart phone, a personal digital assistant (PDA), and a mobile communication terminal.

The terminal 110 is a terminal capable of wireless communication for transmitting and receiving radio data, and stores a program or protocol for communicating with the wireless headset 120, the device authentication server 130, etc. using an AP, short-range communication, a communication base station, and the like. A memory for a memory, a microprocessor for operating and controlling the program by executing the program, and the like.

The terminal 110 may drive the radio application 112 according to a user's manipulation for radio communication with the wireless headset 120. To describe the radio application in more detail, the radio application refers to an application that is installed after being downloaded through the application store when the terminal 110 is a smartphone, and a carrier when the terminal 110 is a feature phone. It refers to virtual machines and applications downloaded through the server.

The terminal 110 according to the present embodiment may use a base station (eg, 3G, 4G, 5G, etc.) for communication with the wireless headset 120, but is not limited thereto. May be used to communicate with the wireless headset 120. For example, when the power of the terminal 110 is turned on, the application 112 that is linked to the wireless headset 120 is driven, and the wireless headset 120 is connected to the wireless headset 120 using short-range communication without interworking with a separate base station. You can connect a communication session.

The terminal 110 according to the present embodiment preferably operates the radio application 112 to perform radio communication with the wireless headset 120, but is not necessarily limited thereto. The device may be implemented as, for example, the wireless communication device 200. In addition, the radio application 112 is preferably software installed in the terminal 110, but is not necessarily limited thereto, and may be implemented as a hardware device for radio communication.

Hereinafter, the operation of the terminal 110 for radio communication with the wireless headset 120 will be described.

In the initial connection with the wireless headset 120, the terminal 110 receives the headset information from the wireless headset 120, the terminal identification information and the headset information previously stored in the terminal 110 to the device authentication server 130 send. Here, the headset information includes a serial number for identifying the wireless headset 120, preset identification information, manufacturer information, and the like, and terminal identification information includes an outgoing telephone number, an International Mobile Subscriber Identify (IMSI), and a Mobile Identify Number (MIN). ), MDN (Mobile Diretory Number) and the like.

The terminal 110 processes authentication between the terminal 110 and the wireless headset 120 through the device authentication server 130, obtains and stores a list of interworking headsets from the device authentication server 130.

The terminal 110 sets one operation mode among a plurality of operation modes and determines a radio target for radio communication based on the set operation mode.

The terminal 110 sets one operation mode among a plurality of operation modes for radio communication based on a user's manipulation or input. The plurality of operation modes may be a manual operation mode, a headset based operation mode, a category based operation mode, or the like.

The terminal 110 generates radio candidate information based on the list of interworking headsets according to the set operation mode. Here, the radio candidate information may include information on each of the wireless headsets 120 capable of radio communication or group information including the plurality of wireless headsets 120.

The terminal 110 determines a radio target for radio communication with the terminal 110 based on radio candidate information generated according to an operation mode. Here, the terminal 110 may manually determine the radio target based on the radio candidate information, but may automatically determine the radio target for radio communication according to a preset threshold or condition.

The radio target determined by the terminal 110 may be a predetermined group including at least one wireless headset 120 or a plurality of wireless headsets 120.

The terminal 110 converts voice data input from a user into radio data and transmits the converted radio data to the determined radio target. The terminal 110 preferably transmits the radio data to the radio target through the communication base station, but is not necessarily limited thereto. The terminal 110 may transmit the radio data to the radio target using near field communication.

The wireless headset 120 refers to a device interworking with the terminal 110 for radio communication. The wireless headset 120 is a device worn by a user such as a trainee, an athlete, a student, a trainee, and outputs a voice for radio data. The wireless headset 120 may include a waterproof function and include various functions for use in a sports field.

The wireless headset 120 transmits headset information to the terminal 110. Here, the headset information may include a serial number for identifying the wireless headset 120, preset identification information, manufacturer information, interworking request signal, and the like.

The wireless headset 120 is implemented in a form including at least one sensor. For example, the wireless headset 120 may include an acceleration sensor, a gyro sensor, a position sensor, and the like.

The wireless headset 120 transmits state information including the position information, the moving speed information, the moving direction information, etc. of the wireless headset 120 measured through the sensor to the terminal 110.

On the other hand, the wireless headset 120 may be further provided with a body measurement sensor in the contact with the user's body. For example, the wireless headset 120 may measure and analyze the user's heart rate, activity amount, body composition, etc. using the body measurement sensor, and transmit the same to the terminal 110.

The wireless headset 120 includes a frame for fixing to the head of the user, and is configured to easily detach and carry the wireless head tax 120, in the form including an earphone unit (not shown) in close contact with the user's ear. It is composed.

In general, vibrations of sound transmitted to sound waves are transmitted to the eardrum in the ear. There are three bones in the tympanic membrane, and the vibrations of the tympanic membrane are transmitted to the screw-shaped cochlea. WoW is filled with a liquid called rinba liquid, and the vibration of the liquid is converted into an electrical signal and transmitted to the auditory nerve. In this way, the human brain recognizes sounds.

The wireless headset 120 according to the present embodiment outputs voice using a bone conduction method. The bone conduction method omits the process of the vibration passing through the eardrum and the bone bone in the sound recognition mechanism. By sending the vibration of the sound directly to the cochlea through the skull, the eardrum or the ear bones with abnormalities in the ear, even if the cochlear or auditory nerve is normal, you can hear the sound surely to the bone conduction. A speaker applying this principle is a bone conduction speaker, which is composed of a case, a permanent magnet, a coil, and an elastic member.

Although the wireless headset 120 according to the present embodiment is described as being limited to the bone conduction method, the wireless headset 120 is not limited thereto and may be implemented in other ways as long as it can deliver a voice to the user.

The wireless headset 120 has a power button for turning on / off the power on one side of the frame or body and at least one button for adjusting the volume or changing the communication frequency.

The wireless headset 120 receives radio data from the terminal 110 and outputs the received radio data through the earphone unit (bone conduction speaker).

In addition, the wireless headset 120 may further include a bone conduction microphone (not shown). The wireless headset 120 may transmit an acoustic message to the terminal 110 through the bone conduction microphone. Here, the bone conduction microphone refers to a device that is in close contact with a user and generates an acoustic message by converting a fine vibration into an electric signal so that only the user's voice can be transmitted regardless of the surrounding noise.

The wireless headset 120 according to the present embodiment is described as transmitting a voice message using a bone conduction microphone, but is not necessarily limited thereto, and may be implemented as a general boom microphone or a bellows microphone.

The wireless headset 120 according to the present embodiment is described as performing communication with the terminal 110 only through a base station (eg, 3G, 4G, 5G, etc.), but is not necessarily limited thereto. For example, when the power of the terminal 110 is turned on or an application installed in the terminal 110 is driven, various data may be transmitted and received using short-range communication.

The device authentication server 130 performs device authentication between the terminal 110 and the wireless headset 120.

The device authentication server 130 receives the terminal identification information and the headset information from the terminal 110, registers the headset information to be interlocked with the received terminal identification information, performs authentication, and generates a linked headset list for authentication. For example, in the case of the terminal identification information existing, the device authentication server 130 newly registers the wireless headset 120 in addition to the previously stored terminal identification information, and in the case of newly acquired terminal identification information, The terminal may newly register the terminal identification information, and may additionally register the wireless headset 120 in the registered terminal identification information.

That is, the device authentication server 130 registers and manages at least one wireless headset 120 that interworks with the terminal 110 based on the terminal identification information of the terminal 110. The interworking headset list for the wireless headset 120 interworking with the terminal 110 may be updated at a predetermined period and transmitted to the terminal 110.

2 is a block diagram schematically illustrating a terminal included in a radio communication system according to the present embodiment.

The radio communication apparatus 200 according to the present embodiment includes a communication unit 210, an authentication unit 220, an interworking control unit 230, a radio communication processing unit 260, and a voice input unit 270. The radio communication apparatus 200 shown in FIG. 2 is according to an embodiment, and not all blocks shown in FIG. 2 are essential components, and in another embodiment, some blocks included in the radio communication apparatus 200 are added. , Can be changed or deleted.

The radio communication device 200 is preferably implemented as a terminal 110 including the radio application 112, but is not necessarily limited thereto, and may be implemented as a separate device for performing radio communication with the wireless headset 120. It may be. Meanwhile, the radio communication apparatus 200 may be mounted on the terminal 110 and implemented as a software module using hardware of the terminal 110.

Hereinafter, the radio communication apparatus 200 will be described as the terminal 110, and each of the components included in the terminal 110 will be described.

The communication unit 210 transmits and receives various signals and data to and from external devices such as the wireless headset 120 and the device authentication server 130.

The communication unit 210 receives the headset information from the wireless headset 120 when the terminal 110 and the wireless headset 120 are initially connected, and stores the terminal identification information and the headset information stored in the terminal 110 in the device authentication server 130. To send). Here, the headset information includes a serial number for identifying the wireless headset 120, preset identification information, manufacturer information, and the like, and terminal identification information includes an outgoing telephone number, an International Mobile Subscriber Identify (IMSI), and a Mobile Identify Number (MIN). ), MDN (Mobile Diretory Number) and the like.

When the initial authentication between the terminal 110 and the wireless headset 120 is completed, the communication unit 210 receives an interworking request signal from the wireless headset 120 and handles radio communication with the wireless headset 120 at the terminal 110. do. Here, the interworking request signal may be a signal included in the headset information.

The communication unit 210 transmits a status request signal to the wireless headset 120 according to an operation mode of the terminal 110, or obtains status information from the wireless headset 120. Here, the state information means information on the current state of the wireless headset 120, and may include location information, moving speed information, moving direction information, and the like of the wireless headset 120.

The authentication unit 220 processes authentication between the terminal 110 and the wireless headset 120 and stores and manages a list of wireless headsets for which authentication has been completed.

The authentication unit 220 checks whether the authentication is based on the headset information on the wireless headset 120, and in the case of the uncertified wireless headset 120, the terminal identification information and the headset information through the communication unit 210, the device authentication server ( 130 to perform authentication.

The authentication unit 220 stores or updates the list of interworking headsets for the wireless headset 120 where authentication registration is completed from the device authentication server 130.

The authentication unit 220 checks whether or not authentication is performed based on the headset information on the wireless headset 120, and in the case of the previously authenticated wireless headset 120, transmits a pre-stored interworking headset list to the interworking control unit 230 to perform radio communication. Allow the target to be determined.

The interworking control unit 230 controls an interworking operation for radio communication between the terminal 110 and the wireless headset 120.

The interworking controller 230 sets one operation mode among a plurality of operation modes and determines a radio communication target for radio communication based on the set operation mode. Here, the radio communication target may be a radio target group including at least one wireless headset 120 or a plurality of wireless headsets 120.

The interlocking control unit 230 includes a mode setting unit 240 and a target determining unit 250. Hereinafter, each component included in the interlocking control unit 230 will be described.

The mode setting unit 240 sets one operation mode among a plurality of operation modes for radio communication based on a user's manipulation or input. The mode setting unit 240 generates radio candidate information based on the linked headset list according to the set operation mode. Here, the radio candidate information may include information on each of the wireless headsets 120 capable of radio communication or group information including a plurality of wireless headsets 120. The plurality of operation modes may include a manual operation mode and a headset-based operation. Mode, category-based operation mode, and the like.

When the manual operation mode is set, the mode setting unit 240 generates radio candidate information having a list or a map form to select each of the plurality of wireless headsets 120 included in the linked headset list. For example, in the manual operation mode, the mode setting unit 240 may select each of the plurality of wireless headsets 120 according to the authentication order, serial number order, initial authentication location (merchant), and the like based on the list of interworking headsets. Information can be generated.

When set to the headset-based operation mode, the mode setting unit 240 checks the status information on the current status, such as the position, the moving speed, the moving direction of the plurality of wireless headsets 120 included in the linked headset list, and the status information. Based on the wireless candidate 120 generates radio candidate information including group information clustering (Clustering). For example, in the headset based operation mode, the mode setting unit 240 may form a clustered group based on a predetermined position value or a predetermined moving speed range.

The mode setting unit 240 may form a group using only the position or movement speed of the wireless headset 120 in the headset-based operation mode, but is not necessarily limited thereto. The player number of the user wearing the wireless headset 120 may be used. The group may be formed by additionally using user information such as a previous training result sequence number.

When the category-based operation mode is set, the mode setting unit 240 selects a category according to a user's operation or input, and according to a rule set in the selected category, the plurality of wireless headsets 120 included in the linked headset list. Generate radio candidate information including group information clustered). Here, the category may be a sporting event, and may include, for example, swimming, golf, soccer, baseball, horse riding, and the like. In the category-based operation mode, a predetermined rule can be set for each category. For example, in the case of a swimming category, a group may be formed of a head group, a middle group, and a sub group. Can be formed into a defensive group or the like.

The mode setting unit 240 may change the operation mode from time to time according to the user's usage environment or needs.

The target determiner 250 performs an operation of determining a radio target for radio communication with the terminal 110 based on the radio candidate information generated by the mode setting unit 240.

The target determiner 250 may determine a radio target for radio communication manually or automatically based on radio candidate information. Here, the radio target may be a predetermined group including at least one wireless headset 120 or a plurality of wireless headsets 120. Hereinafter, an operation of determining the radio target by using the radio candidate information according to the operation mode in the target determination unit 250 will be described in accordance with the operation modes.

When using the radio candidate information generated in the manual operation mode, the target determination unit 250 outputs the radio candidate information in a form of separately displaying each of the at least one wireless headset 120, based on the user's operation or input Each of the selected wireless headsets 120 is determined as a radio target.

When using the radio candidate information generated in the headset-based operation mode, the target determination unit 250 outputs the radio candidate information in the form of displaying the group information formed based on the state information of the plurality of wireless headsets 120, the user Based on the manipulation or input of the at least one wireless headset 120 included in the selected group is determined as the radio target.

Meanwhile, in the headset-based operation mode, the target determination unit 250 describes that the radio target is determined by a user's manipulation or input, but is not necessarily limited thereto, and corresponds to a predetermined condition based on a preset state threshold. It is also possible to determine whether the corresponding group information as a radio target by determining whether or not.

When using the radio candidate information generated in the category-based operation mode, the target determination unit 250 outputs the radio candidate information in the form of displaying group information formed according to a preset rule of the selected category, and outputs the radio candidate information to a user's operation or input. Based on the at least one wireless headset 120 included in the selected group is determined as the radio target.

Meanwhile, in the category-based operation mode, the target determination unit 250 describes that the radio target is determined by a user's manipulation or input, but is not necessarily limited thereto. The corresponding group information can be determined as a radio target.

The radio communication processor 260 converts voice data into radio data and transmits the converted radio data to a radio target. The voice data refers to data input through the voice input unit 270, and the radio target for transmitting the radio data includes a wireless headset 120 or a plurality of wireless headsets 120 determined by the target determiner 250. Means a group.

The radio communication processor 260 preferably processes radio communication by transmitting radio data to a radio target through a communication base station. However, the radio communication processor 260 may transmit radio data to a radio target by using short-range communication.

In addition, the radio communication processor 260 may process radio communication by changing a communication base station or short-range communication according to a preset communication condition. For example, the radio communication processor 260 basically uses a method of transmitting radio data through a communication base station, but when the wireless headset 120, which is a radio target, exists within a predetermined distance based on the position of the terminal 110, the short range is short. Communication can be used to transmit radio data.

The radio communication processor 260 according to the present embodiment is described as one-way communication for transmitting radio data from the terminal 110 to the wireless headset 120, but is not necessarily limited thereto. For example, when the wireless headset 120 is provided with a voice input device (eg, a bone conduction microphone), the wireless communication processor 260 may receive and output an acoustic message (radio response message) from the wireless headset 120. Can be. Here, the acoustic message may be output by a sound output device (not shown) provided in the terminal 110 or an external output device (not shown) connected to the terminal 110.

The voice input unit 270 is a module for receiving a voice of a user and transmits voice data input by the user to the radio communication processor 260. Here, the voice input unit 270 may be a microphone provided at one side of the terminal 110, or may be a voice input device (not shown) connected to the terminal 110 separately.

3 is a flowchart illustrating a radio communication control method according to the present embodiment.

In case of initial connection between the terminal 110 and the wireless headset 120, the authentication process for radio communication is as follows.

The terminal 110 acquires the headset information for the wireless headset 120 (S310), and the terminal identification information and the headset information for the device authentication between the terminal 110 and the wireless headset 120. Transfer to (S312).

The device authentication server 130 registers the wireless headset 120 to the terminal 110 using the terminal identification information and the headset information (S320). In the case of the terminal identification information, the device authentication server 130 additionally registers the wireless headset 120 newly in the previously stored terminal identification information. Meanwhile, in the case of newly acquired terminal identification information, the device authentication server 130 may newly register terminal identification information and additionally register the wireless headset 120 in the registered terminal identification information.

The device authentication server 130 generates a linked headset list for the wireless headset 120 registered in the terminal 110 through device authentication and transmits the generated headset list to the terminal 110 (S330). Here, the interworking headset list includes headset information for each of the at least one wireless headset 120 interoperating with the terminal 110.

The terminal 110 stores the list of interworking headsets obtained from the device authentication server 130 (S332). When the radio communication is performed after step S332, the terminal 110 may perform the operation of step S350 based on the interworking request signal included in the previously acquired headset information. That is, when the power of the wireless headset 120 is turned on, the processes of steps S340 and S342 may be omitted.

After the device authentication between the terminal 110 and the wireless headset 120 is performed, the connection process for wireless communication is as follows.

When the power of the wireless headset 120 is turned on (S340) based on a user's manipulation or input (S340), the wireless headset 120 transmits an interworking request signal to the terminal 110 (S342).

The terminal 110 drives the radio application based on the interworking request signal (S350). Here, the terminal 110 is described as performing radio communication between the terminal 110 and the wireless headset 120 by driving the radio application, but is not necessarily limited thereto, and the terminal 110 and without driving the radio application. If wireless communication between the wireless headsets 120 is possible, step S350 may be omitted.

The terminal 110 sets an operation mode for interworking with the wireless headset 120 based on a user's manipulation or input (S360). The terminal 110 generates radio candidate information based on the list of interworking headsets according to the set operation mode. Here, the radio candidate information may include information on each of the wireless headsets 120 capable of radio communication or group information including a plurality of wireless headsets 120. The plurality of operation modes may include a manual operation mode and a headset-based operation. Mode, category-based operation mode, and the like.

When set to the manual operation mode, the terminal 110 generates radio candidate information having a list or map form so that each of the plurality of wireless headsets 120 included in the linked headset list can be selected.

When set to the headset-based operation mode, the terminal 110 checks the status information on the current status of the plurality of wireless headsets 120 included in the linked headset list, the moving speed, and the moving direction, and based on the status information. The radio candidate information including the group information clustering the plurality of wireless headsets 120 is generated.

When set to the category-based operation mode, the terminal 110 selects a category according to a user's operation or input, and selects a plurality of wireless headsets 120 included in the linked headset list according to a rule set in the selected category. Radio candidate information including clustered group information is generated.

The terminal 110 determines a radio target for performing radio communication on the basis of the operation mode set in step S360 (S370). In other words, the terminal 110 may determine a predetermined group including at least one wireless headset 120 or a plurality of wireless headsets 120 as a wireless target by using radio candidate information according to a set operation mode.

The terminal 110 receives voice data (S380) and converts the input voice data into radio data (S382). The terminal 110 transmits radio data to the wireless headset 120 determined in step S370 (S390).

As described above, the radio communication method using the wireless headset according to the present embodiment described in FIG. 3 may be implemented in a program and recorded in a computer-readable recording medium. A computer-readable recording medium for recording a program for implementing a wireless communication method using a wireless headset according to the present embodiment includes all kinds of recording devices for storing data that can be read by a computer system. Examples of such computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and are implemented in the form of a carrier wave (for example, transmission over the Internet). It includes being. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. Also, functional programs, codes, and code segments for implementing the present embodiment may be easily inferred by programmers in the art to which the present embodiment belongs.

4A and 4B are diagrams for describing an operation of controlling the interworking of the wireless headset in the first mode according to the present embodiment.

FIG. 4A is a flowchart for describing an interlock control operation of a wireless headset in a first mode, and FIG. 4B is an exemplary view showing wireless candidate information for determining a radio target in a first mode.

The operation illustrated in FIG. 4A embodies an operation of setting an operation mode in steps S360 to S390 of FIG. 3 and determining a radio target for radio communication. The first mode means a manual operation mode. Hereinafter, the first mode will be described as a manual operation mode.

The terminal 110 sets a manual operation mode based on a user's manipulation or input (S410).

The terminal 110 generates radio candidate information in a form that can select each of the plurality of wireless headsets 120 included in the linked headset list in the manual operation mode (S420). The terminal 110 generates and outputs radio candidate information having a form in which each of the at least one wireless headset 120 is separately displayed.

The terminal 110 determines each of the selected wireless headsets 120 as radio targets using radio candidate information based on a user's manipulation or input (S430). The terminal 110 converts the input voice data into radio data and transmits the converted radio data to a radio target (S440).

4A and 4B show radio candidate candidate information in a manual operation mode output to a terminal to determine a radio target.

4B illustrates radio candidate information for outputting each of the at least one wireless headset 120 in the form of a list. The user may select the wireless target by performing a selection for the wireless headset 120 on the list.

4B illustrates radio candidate information for outputting each of the at least one wireless headset 120 in the form of a map. The user may select the wireless target by performing a selection on the wireless headset 120 on the map.

5A and 5B are diagrams for describing an operation of controlling the interworking of the wireless headset in the second mode according to the present embodiment.

FIG. 5A is a flowchart illustrating an interlock control operation of a wireless headset in a second mode, and FIG. 5B is an exemplary diagram illustrating wireless candidate information for determining a radio target in a second mode.

The operation illustrated in FIG. 5A embodies an operation of setting an operation mode and determining a radio target for radio communication in steps S360 to S390 of FIG. 3, and the second mode refers to a headset-based operation mode. Hereinafter, the second mode will be described as a headset based operation mode.

The terminal 110 sets a headset based operation mode based on a user's manipulation or input (S510).

The terminal 110 checks state information on the wireless headset 120 in the headset based operation mode (S520). Here, the status information may include information about the position, the moving speed, the moving direction, etc. of each of the plurality of wireless headsets 120.

The terminal 110 forms a predetermined group in which the plurality of wireless headsets 120 are clustered based on the state information (S530), and generates radio candidate information including group information about the predetermined group (S530). S540). The terminal 110 generates and outputs radio candidate information in a form of displaying a predetermined group in which at least one wireless headset 120 is grouped based on a predetermined reference value.

The terminal 110 checks whether a preset state threshold is set (S550).

If the preset state threshold does not exist, the terminal 110 determines a predetermined group selected as the radio target by using the radio candidate information according to a user's manipulation or input (S560).

On the other hand, if a preset state threshold exists, the terminal 110 determines a group corresponding to a predetermined condition as a radio target based on the preset state threshold (S562).

The terminal 110 converts the input voice data into radio data and transmits the converted radio data to a radio target (S570).

5A and 5B illustrate radio candidate information of a headset-based operation mode output to the terminal 110 to determine a radio target.

As shown in (a) of FIG. 5B, the terminal 110 may include a first group 610, a second group 612, and a first group of clustering the plurality of wireless headsets 120 based on state information. Radio candidate information including three groups 613 may be generated. For example, the radio candidate information of the headset-based operation mode may include a plurality of groups grouped based on an adjacent position, a speed, and the like. The user may select a predetermined group from among a plurality of groups or determine a radio target for a group automatically selected by a preset state threshold.

FIG. 5B (b) shows radio candidate information for outputting a plurality of groups grouped using moving speed information among the state information of the wireless headset 120 in the form of a list. The user may select a radio target by performing a selection for a predetermined group on the list.

6A and 6B are diagrams for describing an operation of controlling the interworking of the wireless headset in the third mode according to the present embodiment.

FIG. 6A is a flowchart illustrating an interlock control operation of a wireless headset in a third mode, and FIG. 6B is an exemplary diagram illustrating wireless candidate information for determining a radio target in a third mode.

The operation illustrated in FIG. 6A embodies an operation of setting an operation mode in steps S360 to S390 of FIG. 3 and determining a radio target for radio communication. The third mode refers to a category-based operation mode. Hereinafter, the third mode will be described as a category-based operation mode.

The terminal 110 sets a category-based operation mode based on a user's manipulation or input (S610).

The terminal 110 selects a predetermined category in the category based operation mode (S612). Here, the category may be a sporting event, and may include, for example, swimming, golf, soccer, baseball, horse riding, and the like.

The terminal 110 checks the status information of the wireless headset 120 in the category-based operation mode (S614). Here, the status information may include information about the position, the moving speed, the moving direction, etc. of each of the plurality of wireless headsets 120.

The terminal 110 forms a predetermined group that clusters the plurality of wireless headsets 120 according to rules and state information preset in the selected category (S620), and includes a radio group including group information for the predetermined group. The candidate information is generated (S630).

The terminal 110 checks whether a preset priority selection value is set (S640).

If the preset priority value does not exist, the terminal 110 determines a predetermined group selected as the radio target by using the radio candidate information according to a user's manipulation or input (S650).

On the other hand, when a preset priority selection value exists, the terminal 110 determines a group corresponding to a predetermined condition as a radio target based on the preset priority selection value (S652).

The terminal 110 converts the input voice data into radio data and transmits the converted radio data to a radio target (S660).

FIG. 6B (a) shows radio candidate information for a swimming category, FIG. 6B (b) shows radio candidate information for a soccer category, and FIG. 6B (c) shows radio candidate information for a baseball category. .

As illustrated in (a) of FIG. 6B, the terminal 110 may use the plurality of wireless headsets 410, 412, 414, 416, and 418 according to a rule set in a swimming category according to a head group, a middle group, a sub group, and the like. Grouped radio candidate information can be generated.

As shown in (b) of FIG. 6B, the terminal 110 uses the plurality of wireless headsets 120 in the attack group 420, the midfielder group 422, and the defense group 424 according to a rule set in the soccer category. Radio candidate information grouped by "

As illustrated in (c) of FIG. 6B, the terminal 110 uses the plurality of wireless headsets 120 in the outfield group 430, the infield group 432, and the pitcher group 434 according to a rule preset to a baseball category. Radio candidate information grouped by the above can be generated.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which the present embodiment belongs may make various modifications and changes without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the present invention, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

<Description of the code>

110: terminal 112: radio application

120: wireless headset 130: device authentication server

200: radio communication device 210: communication unit

220: authentication unit 230: interlocking control unit

240: mode setting unit 250: target determination unit

260: radio communication processing unit 270: voice input unit

CROSS-REFERENCE TO RELATED APPLICATION

This patent application claims priority to US Patent Application No. 10-2016-0111301 filed with Korea on August 31, 2016, pursuant to Article 119 (a) (35 USC § 119 (a)). All content is incorporated by reference in this patent application. In addition, this patent application claims priority to countries other than the United States for the same reasons, all of which are incorporated herein by reference.

Claims (13)

1. A communication unit for obtaining headset information from a wireless headset;

   An authentication unit which transmits the terminal identification information and the headset information to the device authentication server, and obtains a linked headset list for the terminal identification information from the device authentication server;

   Set an operation mode for determining a radio target, generate radio candidate information based on the list of interworking headsets according to the operation mode, and generate a radio target including at least one radio target headset using the radio candidate information. An interlocking control unit to determine; And

   Radio communication unit for converting the voice signal input from the user into radio data and transmitting the radio data to the radio target

   Radio communication device comprising a.
2. The method of claim 1,

   The authentication unit,

   Initial authentication is performed by transmitting the terminal identification information and the headset information to the device authentication server only when the wireless headset is initially accessed.

   And when the initial authentication is completed, the communication unit obtains an interworking request signal from the wireless headset.
3. The method of claim 1,

   The interlocking control unit,

   A mode setting unit configured to set the operation mode of at least one of a manual operation mode, a headset based operation mode, and a category based operation mode, and generate the radio candidate information for the operation mode; And

   A target determination unit that determines the radio target by using the radio candidate information

   Radio communication device comprising a.
4. The method of claim 3,

   The mode setting unit,

   When the radio mode is set to the manual operation mode, the wireless candidate information for selecting each of the at least one wireless headset included in the interworking headset list is generated, and the target determination unit selects the wireless headset selected using the wireless candidate information as the wireless target. Radio communication device, characterized in that for determining.
5. The method of claim 3,

   The mode setting unit,

   In case of the headset-based operation mode, the wireless terminal candidate information including at least one wireless headset included in the interworking headset list is checked, and the wireless candidate information including group information about a predetermined group formed based on the status information is generated. Radio communication device, characterized in that.
6. The method of claim 5,

   The state information,

   And at least one of the position, the movement speed, and the movement direction of the wireless headset, wherein the radio candidate information includes the predetermined group formed by clustering the at least one wireless headset based on a predetermined reference value. Radio communication device, characterized in that.
7. The method of claim 5,

   The target determination unit,

   And when a predetermined group is selected from the radio candidate information by a user input, determining at least one radio target headset included in the selected group as the radio target.
8. The method of claim 5,

   The target determination unit,

   And a preset state threshold value, wherein the at least one radio target headset included in a group corresponding to a predetermined condition is determined as the radio target based on the state threshold value.
9. The method of claim 3,

   The mode setting unit,

   When a category-based operation mode is set, a predetermined category is selected, status information of at least one wireless headset included in the linked headset list is checked, and a group of a predetermined group formed based on the category and the status information. And generating the radio candidate information including the radio information.
10. The method of claim 9,

    The category is one of sports selected from the category, each of the categories include a predetermined rule (Rule),

    The radio candidate information includes the predetermined group formed by clustering the at least one wireless headset based on the preset rule and the state information.
11. The method of claim 9,

    The target determination unit,

    And when a predetermined group is selected from the radio candidate information by a user input, determining at least one radio target headset included in the selected group as the radio target.
12. The method of claim 9,

    The target determination unit,

    And when at least one preset priority value exists, determining at least one radio target headset included in a group corresponding to a predetermined condition as the radio target based on the priority selection value.
13. In the method for the radio communication device to perform radio communication using a wireless headset,

    A communication process of obtaining headset information from a wireless headset;

    An authentication process of transmitting the terminal identification information and the headset information to a device authentication server, and obtaining a linked headset list for the terminal identification information from the device authentication server;

    Set an operation mode for determining a radio target, generate radio candidate information based on the list of interworking headsets according to the operation mode, and generate a radio target including at least one radio target headset using the radio candidate information. Determining interlock control process; And

    Radio communication process of converting the voice signal input from the user into radio data and transmitting the radio data to the radio target

    Wireless communication method using a wireless headset comprising a.

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