CN110933710B

CN110933710B - Voice communication control method and system

Info

Publication number: CN110933710B
Application number: CN201811102142.3A
Authority: CN
Inventors: 徐海林; 李可; 陈伟
Original assignee: Hytera Communications Corp Ltd
Current assignee: Hytera Communications Corp Ltd
Priority date: 2018-09-20
Filing date: 2018-09-20
Publication date: 2023-01-17
Anticipated expiration: 2038-09-20
Also published as: CN110933710A

Abstract

The voice communication control method and the system provided by the invention are applied to a dual-mode communication terminal, the dual-mode communication terminal carries out first voice communication with a first terminal, wherein the first voice communication control method comprises the steps of receiving and outputting first voice information sent by the first terminal, determining the priority of second voice communication and the first voice communication when receiving an access request of second voice communication initiated by a second terminal, receiving and outputting the first voice information sent by the first terminal and/or the second voice information sent by the second terminal according to the priority of the second voice communication and the first voice communication, thereby realizing the intelligent switching of different voice communication services under a dual-mode communication environment and solving the problem of the mutual conflict of voice output between public network voice communication and narrow-band voice communication of the current dual-mode communication terminal.

Description

Voice communication control method and system

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and a system for controlling voice communications.

Background

With the rapid development of private network communication technology, under the condition of no base station relay, the communication is carried out only by the radio frequency emission of a single machine, so that the communication distance of the interphone is far from the level of a public network mobile phone. Therefore, dual-mode walkie-talkie (narrowband communication + public network communication) has become an important communication device in the field of current private network communication.

At present, in the design process of most dual-mode interphones, a Microphone (MIC), a Receiver (Receiver) and a speaker (Speakers) are integrated, narrow-band communication voice is usually played from the speaker, and public network communication voice can be played from the Receiver and the speaker. However, when the dual-mode intercom is performing public network voice communication, if a narrowband voice communication access is encountered, or when the dual-mode intercom is performing narrowband voice communication, if a public network voice communication access is encountered, voice output conflicts between the public network voice communication and the narrowband voice communication may be caused, so that user experience is poor.

Therefore, an intelligent and effective voice communication control scheme is urgently needed at present to solve the problem that voice output between public network voice communication and narrow-band voice communication of the dual-mode interphone conflicts with each other.

Disclosure of Invention

In view of the above, the present invention provides a voice communication control method and system, so as to solve the technical problem of mutual conflict between voice output of public network voice communication and narrowband voice communication of the current dual-mode interphone.

In order to achieve the purpose, the invention provides the following technical scheme:

a voice communication control method is applied to a dual-mode communication terminal, and comprises the following steps:

carrying out first voice communication with a first terminal, wherein the first voice communication comprises receiving and outputting first voice information sent by the first terminal;

when receiving an access request of second voice communication initiated by a second terminal, determining the priority of the second voice communication and the first voice communication;

receiving and outputting first voice information sent by the first terminal and/or second voice information sent by the second terminal according to the priority of the second voice communication and the first voice communication;

wherein the first voice information and the second voice information have different communication modes.

Preferably, when the first terminal is a public network communication terminal and the second terminal is a narrowband communication terminal, the receiving and outputting the first voice message sent by the first terminal according to the priority of the second voice communication and the first voice communication, and/or the second voice message sent by the second terminal includes:

when the priority of the second voice communication is higher than that of the first voice communication, receiving and outputting second voice information sent by the narrow-band communication terminal, and terminating the first voice communication;

when the priority of the second voice communication is lower than that of the first voice communication, continuously receiving and outputting the first voice information, receiving second voice information sent by the narrow-band communication terminal, and recording the second voice information;

and when the priority of the second voice communication is equal to that of the first voice communication, receiving and outputting the first voice information and the second voice information sent by the narrow-band communication terminal.

Preferably, the output path of the dual-mode communication terminal includes: an earpiece and a speaker; the receiving and outputting the first voice information and the second voice information sent by the narrow-band communication terminal comprises:

when the output path for outputting the first voice information is the earphone, outputting second voice information sent by the narrow-band communication terminal by using the loudspeaker;

and when the output channel for outputting the first voice information is the loudspeaker, switching the output channel for outputting the first voice communication to the receiver, and outputting the second voice information sent by the narrow-band communication terminal by using the loudspeaker.

Preferably, when the first terminal is a narrowband communication terminal and the second terminal is a public network communication terminal, the receiving and outputting the first voice information sent by the first terminal according to the priority of the second voice communication and the first voice communication, and/or the second voice information sent by the second terminal includes:

when the priority of the second voice communication is higher than that of the first voice communication, receiving and outputting second voice information sent by the public network communication terminal, recording first voice information sent by the narrow-band communication terminal, and stopping the output of the first voice information;

when the priority of the second voice communication is lower than that of the first voice communication, continuously receiving and outputting the first voice information, and refusing the access of the second voice communication;

and when the priority of the second voice communication is equal to the priority of the first voice communication, receiving and outputting the first voice information and the second voice information sent by the public network communication terminal.

Preferably, the output path of the dual mode communication terminal includes: a handset and speaker; wherein, an output path for outputting the first voice information is the loudspeaker; the receiving and outputting the first voice message and the second voice message sent by the public network communication terminal comprises:

and outputting second voice information sent by the public network communication terminal by using the receiver.

Preferably, the output path of the dual-mode communication terminal includes: an earpiece and a speaker; when the first terminal is a public network communication terminal and the second terminal is a narrowband communication terminal, after the first voice communication is performed with the first terminal and before an access request of a second voice communication initiated by the second terminal is received, the method further includes:

detecting the motion state of the dual-mode communication terminal;

when the output channel for outputting the first voice information is the loudspeaker and the distance between the dual-mode communication terminal and the ear of the user represented by the motion state is smaller than a preset distance threshold value, switching the output channel for outputting the first voice information to the receiver;

when an output channel for outputting the first voice information is the earphone and the motion state represents that the distance between the dual-mode communication terminal and the ear of the user is greater than a preset distance threshold, switching the output channel for outputting the first voice information to the loudspeaker;

and when the output path for outputting the first voice information is the telephone receiver and the motion state represents that the distance between the dual-mode communication terminal and the ear of the user is not greater than a preset distance threshold value, dynamically adjusting the output volume of the telephone receiver according to the distance between the dual-mode communication terminal and the ear of the user.

Preferably, the method further comprises:

and when the output path for outputting the first voice information is the earphone, if an access request of second voice communication initiated by a narrow-band communication terminal is received, adjusting the volume output parameter of the loudspeaker according to the volume output parameter of the earphone.

A voice communication control system applied to a dual-mode communication terminal, the system comprising: a voice communication unit and a priority determination unit;

the voice communication unit is used for carrying out first voice communication with a first terminal, and the first voice communication unit receives and outputs first voice information sent by the first terminal;

the priority determining unit is used for determining the priority of the second voice communication and the first voice communication when receiving an access request of the second voice communication initiated by a second terminal;

the voice communication unit is further configured to receive and output first voice information sent by the first terminal and/or second voice information sent by the second terminal according to the priority of the second voice communication and the first voice communication;

Preferably, when the first terminal is a public network communication terminal and the second terminal is a narrowband communication terminal, the voice communication unit is specifically configured to:

Preferably, the output path of the dual-mode communication terminal comprises an earphone and a loudspeaker; the system further comprises: a motion state detection unit and an output channel switching unit;

the motion state detection unit is used for detecting the motion state of the dual-mode communication terminal;

the output path switching unit is configured to, after the first voice communication with the first terminal is performed and before an access request of a second voice communication initiated by a second terminal is received, perform the following operations:

when an output path for outputting the first voice information is the telephone receiver and the motion state represents that the distance between the dual-mode communication terminal and the ear of the user is not larger than a preset distance threshold, dynamically adjusting the output volume of the telephone receiver according to the distance between the dual-mode communication terminal and the ear of the user;

the first terminal is a public network communication terminal, and the second terminal is a narrow-band communication terminal.

It can be seen from the foregoing technical solutions that, the voice communication control method and system provided by the present invention are applied to a dual-mode communication terminal, where the dual-mode communication terminal performs a first voice communication with a first terminal, where the first voice communication includes receiving and outputting first voice information sent by the first terminal, and when an access request of a second voice communication initiated by a second terminal is received, determining a priority of the second voice communication and the first voice communication, and receiving and outputting the first voice information sent by the first terminal and/or the second voice information sent by the second terminal according to the priority of the second voice communication and the first voice communication, thereby implementing intelligent switching of different voice communication services in a dual-mode communication environment, and solving a problem of voice output conflict between public network voice communication and narrowband voice communication of a current dual-mode communication terminal.

Drawings

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

Fig. 1 is a flowchart of a voice communication control method according to an embodiment of the present application;

fig. 2 is an exemplary diagram of a first communication scenario provided in an embodiment of the present application;

fig. 3 is a flowchart of a voice communication control method in a first communication scenario according to an embodiment of the present application;

fig. 4 is an exemplary diagram of a second communication scenario provided in an embodiment of the present application;

fig. 5 is a flowchart of a voice communication control method in a second communication scenario according to an embodiment of the present application;

fig. 6 is another flowchart of a voice communication control method according to an embodiment of the present application;

fig. 7 is an overall architecture diagram of a voice communication control system provided in an embodiment of the present application;

fig. 8 is a schematic structural diagram of a voice communication control system according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of another voice communication control system according to an embodiment of the present application.

Detailed Description

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

The voice control method and system provided by the embodiment of the application are applied to a dual-mode communication terminal, and the dual-mode communication terminal can support a public network communication mode and a narrow-band communication mode, such as a dual-mode interphone.

Referring to fig. 1, fig. 1 is a flowchart of a voice communication control method according to an embodiment of the present application.

As shown in fig. 1, the method includes:

s101: and carrying out first voice communication with the first terminal, wherein the first voice communication comprises receiving and outputting first voice information sent by the first terminal.

The dual-mode communication terminal can perform voice communication with both the public network communication terminal and the narrowband communication terminal. Correspondingly, the first terminal may be a public network communication terminal (such as a public network mobile phone) or a narrow-band communication terminal (such as a narrow-band interphone).

In the process of performing the first voice communication between the dual-mode communication terminal and the first terminal, the first voice information sent by the first terminal may be received and output, for example, the first voice information is played by using a speaker or a receiver.

When the first terminal is a public network communication terminal, the first voice communication is voice communication in a public network communication mode, and the first voice information refers to voice information sent by the public network communication terminal; when the first terminal is a narrowband communication terminal, the first voice communication is voice communication in a narrowband communication mode, and the first voice information refers to voice information sent by the narrowband communication terminal.

S102: when receiving an access request of a second voice communication initiated by a second terminal, determining the priority of the second voice communication and the first voice communication.

In the process of a first voice communication between a dual-mode communication terminal and a first terminal, it may be possible to receive an access request of a second voice communication initiated by a second terminal, where the first voice communication and the second voice communication have corresponding priority information, and when the access request of the second voice communication initiated by the second terminal is received, priorities of the first voice communication and the second voice communication are to be determined respectively.

S103: and receiving and outputting the first voice information sent by the first terminal and/or the second voice information sent by the second terminal according to the priority of the second voice communication and the first voice communication.

The first voice communication and the second voice communication have different communication modes, for example, the first voice communication adopts a public network communication mode and the second voice communication adopts a narrow-band communication mode, or the first voice communication adopts a narrow-band communication mode and the second voice communication adopts a public network communication mode.

After the priorities of the first voice communication and the second voice communication are determined, whether the first voice information, the second voice information or the first voice information and the second voice information are received and output can be determined by comparing the priorities of the second voice communication and the first voice communication, and therefore the problem of conflict of voice output generated when the second voice communication is accessed in the process of carrying out the first voice communication by the dual-mode communication terminal is solved.

When the first voice message and the second voice message need to be received and output at the same time, the first voice message and the second voice message can be output respectively by using a loudspeaker and a receiver of the dual-mode communication terminal. For example, first voice information is output using an earpiece, and second voice information is output using a speaker; or, the first voice information is output by a loudspeaker, and the second voice information is output by a receiver, so that the conflict caused by the fact that the first voice information and the second voice information are output by the same output channel of the dual-mode communication terminal is avoided.

The voice communication control method provided by the embodiment is applied to a dual-mode communication terminal, the dual-mode communication terminal performs first voice communication with a first terminal, and includes receiving and outputting first voice information sent by the first terminal, determining the priority of second voice communication and the first voice communication when receiving an access request of second voice communication initiated by a second terminal, and receiving and outputting the first voice information sent by the first terminal and/or the second voice information sent by the second terminal according to the priority of the second voice communication and the first voice communication, so that intelligent switching of different voice communication services under a dual-mode communication environment is realized, and the problem of mutual conflict of voice output between public network voice communication and narrow-band voice communication of the current dual-mode communication terminal is solved.

Referring to fig. 2 to 3, fig. 2 is a schematic diagram of a first communication scenario provided in the present embodiment; fig. 3 is a flowchart of a voice communication control method in a first communication scenario according to an embodiment of the present application.

As shown in fig. 2, in this embodiment, taking the first terminal as a public network communication terminal and the second terminal as a narrow-band communication terminal as an example, when the dual-mode communication terminal performs the first voice communication with the public network communication terminal, the narrow-band communication terminal initiates an access request of the second voice communication to the dual-mode communication terminal. Accordingly, as shown in fig. 3, the method comprises:

s201: and carrying out first voice communication with the public network communication terminal, wherein the first voice communication comprises receiving and outputting first voice information sent by the public network communication terminal.

S202: when receiving an access request of a second voice communication initiated by a narrowband communication terminal, determining the priority of the second voice communication and the first voice communication.

Steps S201 to S202 are similar to steps S101 to S102 in the foregoing embodiments, and specific reference may be made to the contents in the foregoing embodiments, which are not repeated herein.

S203: and when the priority of the second voice communication is higher than that of the first voice communication, receiving and outputting second voice information sent by the narrow-band communication terminal, and terminating the first voice communication.

When the priority of the second voice communication is higher than that of the first voice communication, the second voice communication is processed preferentially, second voice information sent by the narrow-band communication terminal is received preferentially and output, the first voice communication between the dual-mode communication terminal and the public network communication terminal is stopped, and in addition, corresponding prompt information such as 'call end, emergency, message please' and the like can be sent to the public network communication terminal at the same time.

S204: and when the priority of the second voice communication is lower than that of the first voice communication, continuously receiving and outputting the first voice information, receiving second voice information sent by the narrow-band communication terminal, and recording the second voice information.

When the priority of the second voice communication is lower than that of the first voice communication, the first voice communication is processed preferentially, the first voice information sent by the public network communication terminal is continuously received and output, meanwhile, the second voice information sent by the narrow-band communication terminal can also be received, and the second voice information is recorded.

In addition, after the first voice communication is finished, the user can be prompted to check the narrow-band recording in time. For example, a prompt interface is popped up, and a message of "having a narrowband voice message, please check the recorded content", "please check the narrowband voice message" and the like are displayed on the prompt interface.

S205: and when the priority of the second voice communication is equal to the priority of the first voice communication, receiving and outputting the first voice information and the second voice information sent by the narrow-band communication terminal.

In one example, the output path of the dual-mode communication terminal may include: a handset and speaker; accordingly, the step S205 may include:

a1, when an output path for outputting the first voice information is the earphone, outputting second voice information sent by the narrow-band communication terminal by using the loudspeaker.

In the process of voice communication between the dual-mode communication terminal and the public network communication terminal, the first voice information sent by the public network communication terminal can be output through a receiver, and the first voice information sent by the public network communication terminal can also be output through a loudspeaker.

When the output of first voice message's output route does during the earphone, utilize the speaker output the second voice message that narrowband communication terminal sent realizes first voice message and second voice message's dual-channel output, can effectively avoid first voice message and second voice message to compete for same output route and produce the conflict.

and a2, when the output path for outputting the first voice information is the loudspeaker, switching the output path for outputting the first voice communication to the earphone, and outputting the second voice information sent by the narrow-band communication terminal by using the loudspeaker.

In the process of performing voice communication between the dual-mode communication terminal and the narrowband communication terminal, the second voice information sent by the narrowband communication terminal can be output only through a loudspeaker, so when the output path outputting the first voice information is the loudspeaker, the output path outputting the first voice communication needs to be switched to the earphone, and then the loudspeaker is used for outputting the second voice information sent by the narrowband communication terminal, so that dual-path output of the first voice information and the second voice information is realized, and thus voice output conflict between the first voice communication and the second voice communication is avoided.

Wherein, steps S203-S205 can be used to implement step S103 in the foregoing embodiments.

In the voice communication control method provided by the implementation, a first terminal is a public network communication terminal, and a second terminal is a narrow-band communication terminal; when the priority of the second voice communication is higher, receiving and outputting second voice information sent by the narrow-band communication terminal, and terminating the first voice communication; when the priority of the second voice communication is lower, continuously receiving and outputting the first voice information, receiving second voice information sent by the narrow-band communication terminal, and recording the second voice information; when the priority of the second voice communication is the same as that of the first voice communication, the first voice information and the second voice information sent by the narrow-band communication terminal are received and output, and output paths of the first voice information and the second voice information are reasonably distributed, so that a more humanized voice switching process is provided for a user, intelligent switching of different voice communication services under a dual-mode communication environment is realized, and the problem of mutual conflict of voice output between public network voice communication and narrow-band voice communication of the existing dual-mode communication terminal is solved.

Referring to fig. 4 to 5, fig. 4 is a schematic diagram of a second communication scenario provided in the embodiment of the present application; fig. 5 is a flowchart of a voice communication control method in a second communication scenario according to an embodiment of the present application.

As shown in fig. 4, in this embodiment, taking the first terminal as a narrowband communication terminal and the second terminal as a public network communication terminal as an example, when the dual-mode communication terminal performs the first voice communication with the narrowband communication terminal, the public network communication terminal initiates an access request of the second voice communication to the dual-mode communication terminal. Accordingly, as shown in fig. 5, the method includes:

s301: and carrying out first voice communication with the narrow-band communication terminal, wherein the first voice communication comprises receiving and outputting the first voice information sent by the narrow-band communication terminal.

S302: when receiving an access request of second voice communication initiated by a public network communication terminal, determining the priority of the second voice communication and the first voice communication.

Steps S301 to S302 are similar to steps S101 to S102 in the foregoing embodiments, and specific reference may be made to the contents in the foregoing embodiments, which are not repeated herein.

S303: and when the priority of the second voice communication is higher than that of the first voice communication, receiving and outputting second voice information sent by the public network communication terminal, recording first voice information sent by the narrow-band communication terminal, and terminating the output of the first voice information.

When the priority of the second voice communication is higher than that of the first voice communication, the second voice communication is processed preferentially, the second voice information sent by the public network communication terminal is received preferentially and output preferentially, but the first voice communication between the dual-mode communication terminal and the narrow-band communication terminal is not terminated, the first voice information sent by the narrow-band communication terminal is recorded, and the output of the first voice information is terminated.

In addition, after the second voice communication is finished, the user can be prompted to check the narrow-band recording in time and recover the normal voice output of the first voice information in time.

S304: and when the priority of the second voice communication is lower than that of the first voice communication, continuously receiving and outputting the first voice information, and refusing the access of the second voice communication.

And when the priority of the second voice communication is lower than that of the first voice communication, the first voice communication is processed preferentially, the first voice information sent by the narrow-band communication terminal is continuously received and output, and the access of the second voice communication initiated by the public network communication terminal is refused.

In addition, when the access of the second voice communication initiated by the public network communication terminal is refused, the prompt message that the dual-mode communication terminal is in a busy state can be sent to the public network communication terminal.

S305: and when the priority of the second voice communication is equal to the priority of the first voice communication, receiving and outputting the first voice information and the second voice information sent by the public network communication terminal.

In one example, the output path of the dual-mode communication terminal may include: a handset and speaker; when the first terminal is a narrow-band communication terminal, an output path for outputting the first voice information is the loudspeaker; accordingly, the step S305 may include:

utilize the earphone output the second speech information that public network communication terminal sent to realize the dual channel output of first speech information and second speech information, can avoid first speech information and second speech information to compete for same output channel and produce the conflict.

Steps S303 to S305 may be used to implement step S103 in the foregoing embodiment.

In the voice communication control method provided by the embodiment, a first terminal is a narrow-band communication terminal, and a second terminal is a public network communication terminal; when the priority of the second voice communication is higher, receiving and outputting second voice information sent by the public network communication terminal, recording first voice information sent by the narrow-band communication terminal, and stopping the output of the first voice information; when the priority of the second voice communication is lower, continuously receiving and outputting the first voice information, and refusing the access of the second voice communication; when the priority of the second voice communication is the same as that of the first voice communication, the first voice information and the second voice information sent by the public network communication terminal are received and output, and output paths for outputting the first voice information and the second voice information are reasonably distributed, so that a more humanized voice switching process is provided for a user, intelligent switching of different voice communication services under a dual-mode communication environment is realized, and the problem of mutual conflict of voice output between the public network voice communication and narrow-band voice communication of the existing dual-mode communication terminal is solved.

Referring to fig. 6, fig. 6 is a flowchart illustrating a voice communication control method according to an embodiment of the present application.

In this embodiment, the first terminal is a public network communication terminal, and the second terminal is a narrowband communication terminal. The output path of the dual mode communication terminal may include: an earpiece and a speaker.

As shown in fig. 6, the method includes:

s401: and carrying out first voice communication with the public network communication terminal.

The method comprises the steps of receiving and outputting first voice information sent by a public network communication terminal in the process of carrying out first voice communication between a dual-mode communication terminal and the public network communication terminal.

S402: judging an output path for outputting the first voice information, and executing step S403 when the output path is the loudspeaker; when the output path is the earphone, step S409 is executed.

S403: judging whether the dual-mode communication terminal is close to the ear of the user, if so, executing a step S404; if not, step S403 is executed again.

S404: judging whether the equipment distance is smaller than a preset distance threshold value or not; if yes, go to step S405; if not, step S404 is executed again.

The device distance refers to a distance between the dual-mode communication terminal and an ear of a user.

S405: and switching an output channel for outputting the first voice information to the earphone.

S406: judging whether the equipment distance is greater than a preset distance threshold value, if so, executing a step S407; if not, go to step S408.

S407: and switching an output path for outputting the first voice information to the speaker, and executing step S404.

In the process of carrying out the first voice call between the dual-mode communication terminal and the public network communication terminal, when an output channel for outputting the first voice information is a loudspeaker (hands-free mode), whether a user takes the dual-mode communication terminal to the ear of the user can be detected by using a gravity sensor and a distance sensor which are embedded in the dual-mode communication terminal, the distance between the dual-mode communication terminal and the ear is detected according to the distance sensor, and the output channel for outputting the first voice information is directly switched to a receiver (receiver mode) under the condition that a preset condition is met. Wherein, the output volume in the earphone mode can be preset by the user.

Correspondingly, after the first voice communication is carried out with the first terminal and before the access request of the second voice communication initiated by the second terminal is received, the method further comprises the following steps: and detecting the motion state of the dual-mode communication terminal.

S408: and dynamically adjusting the volume output parameter of the receiver according to the distance between the dual-mode communication terminal and the ear of the user.

Through steps S403 to S408, when the output path outputting the first voice message is the speaker and the motion state indicates that the distance between the dual-mode communication terminal and the ear of the user is smaller than a preset distance threshold, switching the output path outputting the first voice message to the earphone; when an output channel for outputting the first voice information is the earphone and the motion state represents that the distance between the dual-mode communication terminal and the ear of the user is greater than a preset distance threshold, switching the output channel for outputting the first voice information to the loudspeaker; and when the output path for outputting the first voice information is the telephone receiver and the motion state represents that the distance between the dual-mode communication terminal and the ear of the user is not greater than a preset distance threshold value, dynamically adjusting the output volume of the telephone receiver according to the distance between the dual-mode communication terminal and the ear of the user.

S409: judging whether an access request of second voice communication initiated by the narrowband communication terminal is received, if so, executing step S410; otherwise, re-executing step S409;

s410: and adjusting the volume output parameters of the loudspeaker according to the volume output parameters of the receiver.

Through steps S409 to S410, when the output path outputting the first voice information is the handset, if an access request of second voice communication initiated by the narrowband communication terminal is received, the volume output parameter of the speaker is adjusted according to the volume output parameter of the handset, so that when a narrowband communication terminal such as a cluster or a conventional interphone suddenly calls in the process of answering the public network voice information by using the handset, the speaker can be effectively prevented from suddenly outputting the second voice information with a larger volume, and the ear of a user is injured, thereby improving the user communication experience.

In an example, in a process that a user uses an earphone to answer a public network call, the dual-mode communication terminal may record a corresponding relationship between a volume level (one of volume output parameters) of the earphone and a device distance according to a behavior habit of the user, and form a fitting matching table of the volume level and the distance in an earphone mode, which is called a first fitting matching table, where the volume level is a volume level of the earphone manually adjusted and set by the user, and the device distance is a distance between the dual-mode communication terminal and an ear of the user.

In addition, there is also a second matching table of volume levels and distances corresponding to the hands-free mode, and there is a coefficient relationship between the volume levels (VolLevel) recorded in the first matching table and the second matching table, that is, receiver _ VolLevel = K × Speaker _ VolLevel, where receiver _ VolLevel represents the volume level in the first matching table, speaker _ VolLevel represents the volume level in the second matching table, and coefficient K is a fixed value.

Correspondingly, the adjusting of the volume output parameter of the speaker according to the volume output parameter of the receiver may be fitting the volume level of the receiver and the volume level of the speaker, and determining and setting the volume level of the speaker according to the relationship between the volume level of the receiver and the coefficient, so that the output volume of the speaker is controlled within a reasonable range.

In addition, the volume level of the speaker can be automatically restored after the second voice communication is finished.

In the voice communication control method provided by the embodiment, the first terminal is a public network communication terminal, the second terminal is a narrow-band communication terminal, and an output path of first voice information is dynamically switched according to a motion state of the dual-mode communication terminal and an output module for outputting first communication voice, so that the output path is adaptive to a use habit of a user, and voice output control is more humanized; and when the output path for outputting the first voice information is the earphone, if receiving an access request of second voice communication initiated by the narrowband communication terminal, adjusting the volume output parameter of the loudspeaker according to the volume output parameter of the earphone, so that the output volume of the loudspeaker is matched with the output volume of the earphone, the output volume of the loudspeaker is controlled within a reasonable range, and the humanization degree of volume control is improved.

The embodiment of the present application further provides a corresponding voice communication control system, where the voice communication control system is configured to implement the voice communication control method provided by the embodiment of the present invention, and technical contents of the voice communication control system described below may be referred to in correspondence with technical contents of the voice communication control method described above.

Referring to fig. 7, fig. 7 is a general architecture diagram of a voice communication control system according to an embodiment of the present application.

As shown in fig. 7, the voice communication control system mainly includes: a voice channel switching module 10 and a voice volume control module 20.

The voice path switching module 10 is configured to implement intelligent switching of voice output paths of different voice services in a dual-mode communication environment, and provide a more humanized voice switching process for a user.

The voice volume control module 20 is configured to provide a volume automatic control algorithm, fit the output volumes of the receiver and the speaker based on the gravity sensor and the distance sensor, and control the volume of the speaker within a reasonable range, so as to protect the ears from being damaged by strong sound and improve the user conversation experience.

Referring to fig. 8, fig. 8 is a schematic structural diagram of a voice communication control system according to an embodiment of the present application.

The voice communication control system of the present embodiment is configured to implement the voice communication control method of the foregoing embodiment, and as shown in fig. 8, the system includes: the voice communication unit 100 and the priority determination unit 200.

The voice communication unit 100 is configured to perform a first voice communication with a first terminal, where the first voice communication includes receiving and outputting first voice information sent by the first terminal;

a priority determining unit 200, configured to determine a priority of a second voice communication initiated by a second terminal with respect to the first voice communication when receiving an access request of the second voice communication;

the voice communication unit 100 is further configured to receive and output first voice information sent by the first terminal and/or second voice information sent by the second terminal according to the priority of the second voice communication and the first voice communication;

The voice communication control system provided by the embodiment is applied to a dual-mode communication terminal, the dual-mode communication terminal performs first voice communication with a first terminal, and the voice communication control system comprises a first voice message receiving and outputting unit, a second voice message receiving and outputting unit, a first voice message sending unit, and/or a second voice message sending unit, wherein the first voice message sending unit receives and outputs the first voice message sent by the first terminal according to the priority of the second voice message sending by the second terminal, and the second voice message sending by the second terminal when receiving an access request of the second voice message sending by the second terminal, so that intelligent switching of different voice communication services under a dual-mode communication environment is realized, and the problem that voice output conflicts between public network voice communication and narrow-band voice communication of the current dual-mode communication terminal is solved.

Referring to fig. 9, fig. 9 is a schematic structural diagram of a voice communication control system according to an embodiment of the present application.

As shown in fig. 9, the voice communication control system of the present embodiment includes the voice communication unit 100 and the priority determining unit 200 in the foregoing embodiments. The output path of the dual mode communication terminal may include: an earpiece and a speaker.

When the first terminal is a public network communication terminal and the second terminal is a narrowband communication terminal, the voice communication unit 100 is specifically configured to:

and when the priority of the second voice communication is equal to the priority of the first voice communication, receiving and outputting the first voice information and the second voice information sent by the narrow-band communication terminal.

Wherein, the receiving and outputting the first voice information and the second voice information sent by the narrow-band communication terminal comprises:

When the first terminal is a narrowband communication terminal and the second terminal is a public network communication terminal, the voice communication unit 100 is specifically configured to:

and when the priority of the second voice communication is equal to that of the first voice communication, receiving and outputting the first voice information and the second voice information sent by the public network communication terminal.

Wherein, an output path for outputting the first voice information is the loudspeaker; the receiving and outputting the first voice message and the second voice message sent by the public network communication terminal comprises:

In one example, the system further comprises: a motion state detection unit 300 and an output path switching unit 400;

the motion state detection unit 30 is configured to detect a motion state of the dual-mode communication terminal;

the output path switching unit 400 is configured to, after the first voice communication with the first terminal is performed and before an access request of a second voice communication initiated by a second terminal is received, perform the following operations:

when an output path for outputting the first voice information is the earphone and the motion state represents that the distance between the dual-mode communication terminal and the ear of the user is not larger than a preset distance threshold, dynamically adjusting the output volume of the earphone according to the distance between the dual-mode communication terminal and the ear of the user;

in this example, the first terminal is a public network communication terminal, and the second terminal is a narrowband communication terminal.

In addition, when the output path for outputting the first voice information is the earphone, if an access request of second voice communication initiated by a narrowband communication terminal is received, the volume output parameter of the loudspeaker is adjusted according to the volume output parameter of the earphone.

The voice communication control system provided by this embodiment adopts different voice control strategies respectively for the case that the first terminal is a public network communication terminal and the second terminal is a narrowband communication terminal, and the case that the first terminal is a narrowband communication terminal and the second terminal is a public network communication terminal, and reasonably allocates the output paths of the first voice information and the second voice information, thereby providing a more humanized voice switching flow for a user, realizing intelligent switching of different voice communication services in a dual-mode communication environment, and solving the problem of voice output conflict between public network voice communication and narrowband voice communication of the current dual-mode communication terminal.

Moreover, under the condition that the first terminal is a public network communication terminal and the second terminal is a narrow-band communication terminal, an output module for outputting first communication voice according to the motion state of the dual-mode communication terminal dynamically switches an output path of the first voice information to adapt to the use habit of a user, so that the voice output control is more humanized; when the output path for outputting the first voice information is the receiver, if an access request of second voice communication initiated by the narrowband communication terminal is received, the volume output parameter of the loudspeaker is adjusted according to the volume output parameter of the receiver, so that the output volume of the loudspeaker is matched with the output volume of the receiver, the output volume of the loudspeaker is controlled within a reasonable range, and the humanization degree of volume control is improved.

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

Through the above description of the embodiments, those skilled in the art will clearly understand that the present application can be implemented by software plus a necessary hardware platform, and certainly can be implemented by hardware, but in many cases, the former is a better embodiment. With this understanding in mind, the technical solutions of the present application may be embodied in whole or in part in the form of a software product, which may be stored in a storage medium such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments of the present application.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system disclosed by the embodiment, the description is relatively simple because the system corresponds to the method disclosed by the embodiment, and the relevant points can be referred to the description of the method part.

The principle and the embodiment of the present application are explained by applying specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, the specific implementation and the application range may be changed. In view of the above, the description should not be taken as limiting the application.

Claims

1. A voice communication control method, applied to a dual-mode communication terminal, the method comprising:

wherein the first voice information and the second voice information have different communication modes;

when the first terminal is a public network communication terminal and the second terminal is a narrow-band communication terminal, the receiving and outputting the first voice information sent by the first terminal according to the priority of the second voice communication and the first voice communication, and/or the second voice information sent by the second terminal includes:

when the priority of the second voice communication is lower than that of the first voice communication, the first voice information is continuously received and output, second voice information sent by the narrow-band communication terminal is received, and the second voice information is recorded;

when the priority of the second voice communication is equal to the priority of the first voice communication, receiving and outputting the first voice information and the second voice information sent by the narrow-band communication terminal;

the output path of the dual-mode communication terminal comprises: a handset and speaker; the receiving and outputting the first voice information and the second voice information sent by the narrow-band communication terminal comprises:

and when the output channel for outputting the first voice information is the loudspeaker, switching the output channel for outputting the first voice communication to the earphone, and outputting the second voice information sent by the narrow-band communication terminal by using the loudspeaker.

2. The method according to claim 1, wherein when the first terminal is a narrowband communication terminal and the second terminal is a public network communication terminal, the receiving and outputting the first voice message sent by the first terminal according to the priority of the second voice communication and the first voice communication, and/or the second voice message sent by the second terminal includes:

3. The method of claim 2, wherein the output path of the dual mode communication terminal comprises: an earpiece and a speaker; wherein, an output path for outputting the first voice information is the loudspeaker; the receiving and outputting the first voice message and the second voice message sent by the public network communication terminal comprises:

4. The method of claim 1, wherein an output path of the dual mode communication terminal comprises: an earpiece and a speaker; when the first terminal is a public network communication terminal and the second terminal is a narrowband communication terminal, after the first voice communication is performed with the first terminal and before an access request of a second voice communication initiated by the second terminal is received, the method further includes:

detecting the motion state of the dual-mode communication terminal;

when the output channel for outputting the first voice information is the loudspeaker and the distance between the dual-mode communication terminal and the ear of the user represented by the motion state is smaller than a preset distance threshold, switching the output channel for outputting the first voice information to the receiver;

when the output channel for outputting the first voice information is the earphone and the distance between the dual-mode communication terminal and the ear of the user represented by the motion state is larger than a preset distance threshold value, switching the output channel for outputting the first voice information to the loudspeaker;

5. The method of claim 4, wherein the method further comprises:

6. A voice communication control system, applied to a dual-mode communication terminal, the system comprising: a voice communication unit and a priority determination unit;

wherein, when the first terminal is a public network communication terminal and the second terminal is a narrow-band communication terminal, the voice communication unit is specifically configured to:

7. The system of claim 6, wherein the output path of the dual mode communication terminal comprises an earpiece and a speaker; the system further comprises: a motion state detection unit and an output channel switching unit;

the output path switching unit is configured to, after the first voice communication is performed with the first terminal and before an access request of a second voice communication initiated by a second terminal is received, perform the following operations: