CN111491290A - Method, device and computer equipment for parallel transmission of network voice and PS domain data - Google Patents

Abstract

The application discloses a method for parallel transmission of network voice and PS domain data, which comprises the steps that a first terminal monitors whether a telephone number for pre-establishing network voice call connection at present is a pre-bound SIM card number, if so, a call channel and a PS domain data transmission channel of the network voice are established, wherein the network voice comprises VO L TE-based network voice, VONR-based network voice or CS domain network voice, voice call is carried out through the call channel of the network voice, data information transmitted through the PS domain data transmission channel is received, and the PS domain data transmission channel is established while network voice call connection is carried through an operator network through setting a trigger mechanism for parallel transmission of the network voice and the PS domain data, so that IP flow of related data can be transmitted in the PS domain, concurrent transmission of telecommunication level voice call and PS domain IP data is realized, and reliability and practicability of communication are improved.

Description

Method, device and computer equipment for parallel transmission of network voice and PS domain data

Technical Field

The present application relates to the field of computers, and in particular, to a method, an apparatus, and a computer device for parallel transmission of network voice and PS domain data.

Background

At present, 2G wearable equipment such as a child watch cannot achieve concurrent transmission of carrier-class CS domain voice and data, although the 4G/5G wearable equipment theoretically supports concurrent transmission of voice and data based on PS domain IP, packet loss of voice IP data packets in the PS domain is serious in transmission, the defects of voice discontinuity and serious time delay exist, voice conversation experience of a user is influenced, if conversation voice and data transmission is carried out based on the PS domain, the IP data packets of conversation voice cannot be carried out normally, and voice conversation cannot be achieved. An effective technical scheme for simultaneously transmitting IP data when telecommunication-level voice service is not carried out is not provided, and the communication effect of the wearable equipment cannot meet the requirements of users.

Disclosure of Invention

The main purpose of the present application is to provide a method for parallel transmission of network voice and PS domain data, which aims to solve the technical problem that IP data transmission cannot be performed simultaneously in a carrier-class voice service.

The application provides a method for parallel transmission of network voice and PS domain data, which comprises the following steps:

the method comprises the steps that a first terminal monitors whether a telephone number of the current pre-established network voice call connection is a pre-bound SIM card number;

if yes, establishing a call channel and a PS (packet switched) domain data transmission channel of network voice, wherein the network voice comprises VO L TE-based network voice, VONR-based network voice or CS domain network voice;

and carrying out voice call through the call channel of the network voice, and receiving data information transmitted through the PS domain data transmission channel.

Preferably, the step of establishing a call channel of network voice and a PS domain data transmission channel includes:

judging whether the first terminal and the second terminal which pre-establish network voice call connection support VO L TE-based network voice, wherein the first terminal and the second terminal are terminals respectively corresponding to two parties in a same call;

if not, establishing a CS domain-based communication channel in the 3G network;

judging whether the 3G network supports the concurrent transmission of a CS domain and a PS domain;

and if so, establishing the PS domain data transmission channel between the first terminal and the second terminal.

Preferably, after the step of determining whether the first terminal and the second terminal, which have pre-established the network voice call connection, both support VO L TE-based network voice, the method includes:

if the VO L TE-based network voice is supported, a VO L TE-based network voice call channel and a PS domain data transmission channel are established.

Preferably, the first terminal carries a function APP of the trigger mechanism, and the step of monitoring whether the phone number currently pre-establishing the network voice call connection is a pre-bound SIM card number by the first terminal includes:

the first terminal monitors whether a currently dialed phone number or a phone number to be answered currently belongs to a white list number of a concurrent protocol or not;

if yes, sending a protocol password detection packet to the currently dialed phone number or the current phone number to be answered according to the concurrent protocol;

judging whether a preset feedback signal corresponding to the protocol cipher detection packet is received or not;

if yes, the telephone number of the current pre-established network voice call connection is judged to be the pre-bound SIM card number.

Preferably, the first terminal carries a function APP of a trigger mechanism, the first terminal calls the second terminal, the second terminal carries a SIM card corresponding to the pre-bound SIM card number, the step of performing voice call through the call channel of the network voice and receiving data information transmitted through the PS domain data transmission channel includes:

triggering the function APP and awakening the function APP to enter a working state so as to acquire data information of the second terminal;

controlling the function APP to trigger an IP data transmission mechanism, and transmitting the data information of the second terminal to the function APP through the PS domain data transmission channel;

and controlling the data information of the second terminal to be displayed on a display interface of the function APP.

Preferably, the step of triggering the function APP and waking up the function APP to enter a working state to obtain the data information of the second terminal includes:

judging whether a data recording function of the second terminal is started or not through the function APP;

if not, remotely starting a data recording function of the second terminal through the function APP, and acquiring the data information, wherein the data information comprises positioning data information and shot picture data information.

Preferably, after the step of controlling the data information of the second terminal to be displayed on the display interface of the function APP, the method includes:

recording call information of the voice call in the function APP, wherein the call information comprises call duration, positioning data information acquired in the call and shot picture data information;

respectively packaging the call information according to the information types and storing the call information into a designated folder;

and naming the appointed folder by the ending time of the voice call.

The application also provides a device for parallel transmission of network voice and PS domain data, which is integrated in the first terminal, and includes:

the monitoring module is used for monitoring whether the telephone number of the current pre-established network voice call connection is a pre-bound SIM card number;

the establishing module is used for establishing a communication channel and a PS domain data transmission channel of network voice if the SIM card number is bound in advance, wherein the network voice comprises VO L TE-based network voice, VONR-based network voice or CS domain network voice;

and the receiving module is used for carrying out voice call through the call channel of the network voice and receiving the data information transmitted through the PS domain data transmission channel.

The present application further provides a computer device comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements the steps of the above method when executing the computer program.

The present application also provides a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method as described above.

This application is through setting for the trigger mechanism of network pronunciation and PS territory data parallel transmission for carry out network formula voice call through the operator network and connect, rather than establish voice call through the PS territory and connect, establish the data transmission passageway in PS territory simultaneously, the IP flow that can accomplish relevant data except that network conversation pronunciation transmits in the PS territory, and do not influence the voice call that carries on through the operator network, realize telecommunication level network voice call and the concurrent transmission of the IP data of PS territory except that network conversation pronunciation, the reliability and the practicality of communication improve.

Drawings

Fig. 1 is a flowchart illustrating a method for parallel transmission of network voice and PS domain data according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an apparatus for parallel transmission of network voice and PS domain data according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a building block in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a snoop module according to an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a receiving module according to an embodiment of the present application;

FIG. 6 is a schematic diagram of an apparatus of a trigger unit according to an embodiment of the present application;

FIG. 7 is a schematic diagram of an apparatus of a receiving module according to another embodiment of the present application;

fig. 8 is a schematic diagram of an internal structure of a computer device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, a method for parallel transmission of network voice and PS domain data according to an embodiment of the present application includes:

s1: the method comprises the steps that a first terminal monitors whether a telephone number of the current pre-established network voice call connection is a pre-bound SIM card number;

s2, if the SIM card number is bound in advance, establishing a communication channel and a PS domain data transmission channel of network Voice, wherein the network Voice comprises VO L TE (Voice over L TE) -based network Voice, VONR-based network Voice or CS domain network Voice;

s3: and carrying out voice call through the call channel of the network voice, and receiving data information transmitted through the PS domain data transmission channel.

The first terminal comprises but is not limited to a smart phone, an Ipad and the like, whether the current phone number is consistent with the pre-bound SIM card number is judged by monitoring the phone number at the first terminal, if so, a trigger mechanism for transmitting the network voice and the PS domain data in parallel is started, and a channel for concurrent connection is established between the first terminal and another terminal carrying the phone number for establishing the network voice call connection in advance. The concurrent connection channel comprises a network voice call channel and a PS domain data transmission channel. By setting a triggering mechanism for the parallel transmission of the network voice and the PS domain data, network type voice call connection is carried out through an operator network instead of establishing voice call connection through the PS domain, and meanwhile, a PS domain data transmission channel is established, so that IP flow of related data can be transmitted in the PS domain, the concurrent transmission of carrier-class voice call and PS domain IP data is realized, and the reliability and the practicability of communication are improved.

The VO L TE is an IP data transmission technology, a 2G/3G network is not needed, all services are borne on a L TE network of an operator, namely a 4G network, and data transmission and voice call can be carried out under the same network, network voice based on VO L TE is a call realized by transmitting a data packet to the other end, belongs to PS packet switching service, voice call under the 2G/3G network is completed through CS (Circuit switching), the drop frequency is high, but the drop rates of network voice based on VO L TE and network voice based on VONR are close to zero, and data transmission and voice call can be carried out simultaneously.

Further, the step S2 of establishing the call path of the network voice and the PS domain data transmission path includes:

s21, judging whether the first terminal and the second terminal which pre-establish the network voice call connection both support VO L TE-based network voice, wherein the first terminal and the second terminal are terminals respectively corresponding to two parties in the same call;

s22, if the VO L TE-based network voice is not supported, a CS domain-based call channel is established under the 3G network;

s23: judging whether the 3G network supports the concurrent transmission of a CS domain and a PS domain;

s24: and if the concurrent transmission of the CS domain and the PS domain is supported, establishing the PS domain data transmission channel between the first terminal and the second terminal.

Further, after the step S21 of determining whether the first terminal and the second terminal, both of which have pre-established the network voice call connection, support the VO L TE-based network voice, the method includes:

and S25, if the VO L TE-based network voice is supported, establishing a VO L TE-based network voice call channel and a PS domain data transmission channel.

In the application, after a telecommunication-level voice connection is established between a first terminal and a second terminal, namely after answering, the two situations are divided into two situations, namely, if both terminals support VO L TE-based network voice, a call channel based on VO L TE network voice and a PS Domain data transmission channel are established, and IP data is transmitted in a 4G PS Domain, and if one terminal network does not support VO L TE-based network voice, a voice call is dropped back to a 3G network through CSFB, whether VO L TE-based network voice is supported or not can be known by acquiring a configuration file of opposite equipment in a pre-binding stage, a core network of the 3G network is divided into a Circuit Switched Domain (CS Domain) and a packet Switched Domain (PS Domain), the CS network allocates a fixed channel to both parties of the call, namely, a dedicated connection Circuit is established when the call is established, the CS network is disconnected when the call is ended, the PS Domain, the IP data transmission channel, the CS network, the IP data transmission channel, the IP data transmission channel, the CS network, the IP transmission channel, the IP transmission strength and the IP transmission strength of the CS network, the IP transmission strength of the CS Domain, the IP transmission channel, the IP transmission strength and the IP transmission strength of the IP transmission of the IP data transmission of the IP transmission channel, the IP transmission of the IP.

Further, the step S1, where the first terminal carries a function APP of the trigger mechanism, and the first terminal monitors whether the phone number currently pre-established with the network voice call connection is the pre-bound SIM card number, includes:

s101: the first terminal monitors whether a currently dialed phone number or a phone number to be answered currently belongs to a white list number of a concurrent protocol or not;

s102: if the number belongs to the white list number of the concurrent protocol, sending a protocol password detection packet to the currently dialed phone number or the phone number to be answered currently according to the concurrent protocol;

s103: judging whether a preset feedback signal corresponding to the protocol cipher detection packet is received or not;

s104: if yes, the telephone number of the current pre-established network voice call connection is judged to be the pre-bound SIM card number.

In the other embodiment of the present application, both ends of a call support function APP carrying a trigger mechanism, the first terminal is a calling party terminal, the second terminal is a called party terminal, the function APP has a trigger mechanism and protocol control for parallel transmission of network voice and PS domain data, the function APP monitors a type of voice telephone state in a system calling the first terminal, the currently dialed telephone number or the currently to be listened telephone number, then obtains a white list of a concurrency protocol through a calling protocol call control, judges whether the current phone number belongs to a white list number of a concurrency protocol, detects a type of voice telephone state in a system monitoring the first terminal, detects a type of a voice telephone number or a currently to be listened telephone number through a voice number detecting module in a smart phone system, and obtains a corresponding voice number of a second terminal through a smart phone number transmitting protocol, and a corresponding to a second phone number transmitting voice information, such as a phone number corresponding to a second phone number, a phone number detecting a phone number corresponding to a phone number in a smart phone number transmitting system monitoring the second phone number, and a phone number corresponding to a phone number detecting a phone number, if the second phone number corresponding to a phone number detecting a phone number, the second phone number detecting a phone number, the smart phone number detecting a phone number, the second phone number corresponding to a phone number, a phone number detecting a phone number, and a phone number detecting the second phone number, and a phone number corresponding to a phone number detecting system, and a phone number, wherein the phone number detecting a phone number detecting the phone number corresponding to a phone number detecting a phone number corresponding to a phone number detecting a phone number in a phone number detecting system, a phone number.

Further, the step S3, in which the first terminal carries a function APP of a trigger mechanism, the first terminal calls the second terminal, the second terminal carries a SIM card corresponding to the pre-bound SIM card number, performs voice call through the voice over internet protocol communication channel, and receives data information transmitted through a PS domain data transmission channel, includes:

s31: triggering the function APP and awakening the function APP to enter a working state so as to acquire data information of the second terminal;

s32: controlling the function APP to trigger an IP data transmission mechanism, and transmitting the data information of the second terminal to the function APP through the PS domain data transmission channel;

s33: and controlling the data information of the second terminal to be displayed on a display interface of the function APP.

Further, step S31, where the triggering the function APP and waking up the function APP to enter a working state to obtain the data information of the second terminal, includes:

s311: judging whether a data recording function of the second terminal is started or not through the function APP;

s312: if the data recording function carried by the second terminal is not started, the data recording function of the second terminal is remotely started through the function APP, and the data information is obtained, wherein the data information comprises positioning data information and shot picture data information.

When the first terminal calls the second terminal, namely the smart phone is a calling party, the smart wearable device is a called party, when the smart wearable device displays a pre-bound phone number of the smart phone, the function APP is triggered and relevant functions of the function APP are awakened, including but not limited to remotely starting a data recording function carried by the second terminal and acquiring and recording corresponding data information, when a user at one end of the smart wearable device listens to a voice call from the smart phone end, the function APP triggers an IP data transmission mechanism, the function APP sends relevant data information from the function APP end to the side of the smart phone carrying the function APP through an IP data packet, when a user at one end of the smart wearable device listens to a voice call from the smart phone end, the smart wearable device displays relevant data information of a smart phone wearing function and relevant data information of a smart phone, such as VO, and ambient data information of the smart wearable device, and the smart phone information of surrounding smart wearable device display of the APP information and relevant data information of surrounding data information including positioning data of the smart phone and GPS data information.

In another embodiment of the application, a smart phone is taken as a called party, and an intelligent wearable device is taken as a calling party. When intelligent wearing equipment was in the smart mobile phone of calling carrying function APP, the smart mobile phone screen display of carrying function APP corresponds the phone number of the intelligent wearing equipment who binds, trigger function APP and awaken up APP correlation function this moment, according to relevant agreement control, data information that intelligent wearing equipment got off oneself record initiatively passes through PS territory data transmission passageway and transmits to the smart mobile phone end with the form of IP data package, above-mentioned data information is same last embodiment, not repeated.

Further, after the step S33 of controlling the data information of the second terminal to be displayed on the display interface of the function APP, the method includes:

s331: recording call information of the voice call in the function APP, wherein the call information comprises call duration, positioning data information acquired in the call and shot picture data information;

s332: respectively packaging the call information according to the information types and storing the call information into a designated folder;

s333: and naming the appointed folder by the ending time of the voice call.

The function APP can also set a recording function, the obtained call recording is also stored in the same folder as the call information, the call information is respectively packaged in an appointed folder according to information categories, for example, files are respectively integrated according to categories such as call time categories and data information categories, all information related to the voice call is stored in an appointed folder in a centralized manner, the appointed folder is stored under a root directory, and the information corresponding to the voice call at each time is conveniently inquired and called.

Referring to fig. 2, an apparatus for parallel transmission of network voice and PS domain data according to an embodiment of the present application is integrated in a first terminal, and includes:

the monitoring module 1 is used for monitoring whether the telephone number of the current pre-established network voice call connection is a pre-bound SIM card number;

the establishing module 2 is configured to establish a call channel and a PS domain data transmission channel of a network voice if the SIM card number is pre-bound, where the network voice includes a network voice based on VO L TE, or a network voice based on VONR, or a CS domain network voice;

and the receiving module 3 is used for carrying out voice call through the call channel of the network voice and receiving data information transmitted through the PS domain data transmission channel.

The first terminal comprises but is not limited to a smart phone, an IPad and the like, whether the current phone number is consistent with the pre-bound SIM card number or not is judged by monitoring the phone number at the first terminal, if so, a trigger mechanism for transmitting the network voice and the PS domain data in parallel is started, and a channel for concurrent connection is established between the first terminal and another terminal carrying the phone number for establishing the network voice call connection in advance. The concurrent connection channel comprises a network voice call channel and a PS domain data transmission channel. By setting a triggering mechanism for the parallel transmission of the network voice and the PS domain data, network type voice call connection is carried out through an operator network instead of establishing voice call connection through the PS domain, and meanwhile, a PS domain data transmission channel is established, so that IP flow of related data can be transmitted in the PS domain, the concurrent transmission of carrier-class voice call and PS domain IP data is realized, and the reliability and the practicability of communication are improved.

The VO L TE is an IP data transmission technology, a 2G/3G network is not needed, all services are borne on a L TE network of an operator, namely a 4G network, and data transmission and voice call can be carried out under the same network, network voice based on VO L TE is a call realized by transmitting a data packet to the other end, belongs to PS packet switching service, voice call under the 2G/3G network is completed through CS (Circuit switching), the drop frequency is high, but the drop rates of network voice based on VO L TE and network voice based on VONR are close to zero, and data transmission and voice call can be carried out simultaneously.

Referring to fig. 3, the building block 2 includes:

a first determining unit 21, configured to determine whether the first terminal and the second terminal that pre-establish a network voice call connection both support network voice based on VO L TE, where the first terminal and the second terminal are terminals corresponding to two parties of a call in the same call;

the first establishing unit 22 is configured to establish a CS domain-based call channel in the 3G network if the VO L TE-based network voice is not supported;

a second determining unit 23, configured to determine whether the 3G network supports concurrent transmission in a CS domain and a PS domain;

a second establishing unit 24, configured to establish the PS domain data transmission channel between the first terminal and the second terminal if the CS domain and the PS domain are supported for concurrent transmission.

Further, the establishing module 2 includes:

a third establishing unit 25, configured to establish a call channel and a PS domain data transmission channel of the network voice based on VO L TE if both support the network voice based on VO L TE.

In the application, after a telecommunication-level voice connection is established between a first terminal and a second terminal, namely after answering, the two situations are divided into two situations, namely, if both terminals support VO L TE-based network voice, a call channel based on VO L TE network voice and a PS Domain data transmission channel are established, and IP data is transmitted in a 4G PS Domain, and if one terminal network does not support VO L TE-based network voice, a voice call is dropped back to a 3G network through CSFB, whether VO L TE-based network voice is supported or not can be known by acquiring a configuration file of opposite equipment in a pre-binding stage, a core network of the 3G network is divided into a Circuit Switched Domain (CS Domain) and a packet Switched Domain (PS Domain), the CS network allocates a fixed channel to both parties of the call, namely, a dedicated connection Circuit is established when the call is established, the CS network is disconnected when the call is ended, the PS Domain, the IP data transmission channel, the CS network, the IP data transmission channel, the IP data transmission channel, the CS network, the IP transmission channel, the IP transmission strength and the IP transmission strength of the CS network, the IP transmission strength of the CS Domain, the IP transmission channel, the IP transmission strength and the IP transmission strength of the IP transmission of the IP data transmission of the IP transmission channel, the IP transmission of the IP.

Referring to fig. 4, the first terminal carries on the function APP of the trigger mechanism, and the monitoring module 1 includes:

a monitoring unit 101, configured to monitor, by the first terminal, whether a currently dialed phone number or a phone number to be answered currently belongs to a white list number of a concurrent protocol;

a sending unit 102, configured to send a protocol cipher detection packet to the currently dialed phone number or the current phone number to be answered according to a concurrent protocol if the white list number belongs to the concurrent protocol;

the judging unit 103 is configured to judge whether a preset feedback signal corresponding to the protocol cipher detection packet is received;

and the determining unit 104 is configured to determine that the phone number currently pre-established with the network voice call connection is the pre-bound SIM card number if the preset feedback signal corresponding to the protocol cipher detection packet is received.

In the other embodiment of the present application, both ends of a call support function APP carrying a trigger mechanism, the first terminal is a calling party terminal, the second terminal is a called party terminal, the function APP has a trigger mechanism and protocol control for parallel transmission of network voice and PS domain data, the function APP monitors a type of voice telephone state in a system calling the first terminal, the currently dialed telephone number or the currently to be listened telephone number, then obtains a white list of a concurrency protocol through a calling protocol control, judges whether the current phone number belongs to a white list number of a concurrency protocol, and if the current phone number belongs to a signaling number of a second terminal, the terminal detects that the phone number belongs to a phone number of a calling party terminal, and obtains a phone number corresponding to a second terminal, and if the phone number corresponds to a preset SIM/IP security protocol, the corresponding to a second terminal sends a call control signal to a phone number corresponding to a second terminal, and the smart phone number corresponding to a phone number of a phone number corresponding to a second terminal IP security domain, and the smart phone number corresponding to a phone number of a phone number corresponding to a phone number, wherein the second terminal is set up a phone number corresponding to a phone number, and the smart phone number corresponding to a phone number of a phone number, and a phone number corresponding to a smart phone number, and a smart phone security domain.

Referring to fig. 5, the first terminal carries a function APP of a trigger mechanism, the first terminal calls the second terminal, the second terminal carries the pre-bound SIM card number, and the receiving module 3 includes:

the triggering unit 31 is configured to trigger the function APP and wake up the function APP to enter a working state to obtain data information of the second terminal;

a first control unit 32, configured to control the functional APP to trigger an IP data transmission mechanism, and transmit data information of the second terminal to the functional APP through the PS domain data transmission channel;

and a second control unit 33, configured to control data information of the second terminal to be displayed on the display interface of the function APP.

Referring to fig. 6, the trigger unit 31 includes:

a determining subunit 311, configured to determine, through the function APP, whether a data recording function carried by the second terminal is started;

and the sub-unit 312 is configured to remotely start the data recording function carried by the second terminal through the function APP if the data recording function carried by the second terminal is not started, and acquire the data information, where the data information includes positioning data information and picture-taking data information.

When the first terminal calls the second terminal, namely the smart phone is a calling party, the smart wearable device is a called party, when the smart wearable device displays a pre-bound phone number of the smart phone, the function APP is triggered and relevant functions of the function APP are awakened, including but not limited to remotely starting a data recording function carried by the second terminal and acquiring and recording corresponding data information, when a user at one end of the smart wearable device listens to a voice call from the smart phone end, the function APP triggers an IP data transmission mechanism, the function APP sends relevant data information from the function APP end to the side of the smart phone carrying the function APP through an IP data packet, when a user at one end of the smart wearable device listens to a voice call from the smart phone end, the smart wearable device displays relevant data information of a smart phone wearing function and relevant data information of a smart phone, such as VO, and ambient data information of the smart wearable device, and the smart phone information of surrounding smart wearable device display of the APP information and relevant data information of surrounding data information including positioning data of the smart phone and GPS data information.

In another embodiment of the application, a smart phone is taken as a called party, and an intelligent wearable device is taken as a calling party. When intelligent wearing equipment was in the smart mobile phone of calling carrying function APP, the smart mobile phone screen display of carrying function APP corresponds the phone number of the intelligent wearing equipment who binds, trigger function APP and awaken up APP correlation function this moment, according to relevant agreement control, data information that intelligent wearing equipment got off oneself record initiatively passes through PS territory data transmission passageway and transmits to the smart mobile phone end with the form of IP data package, above-mentioned data information is same last embodiment, not repeated.

Referring to fig. 7, the receiving module 3 includes:

a recording unit 331, configured to record call information of the voice call in the function APP, where the call information includes call duration, positioning data information obtained during a call, and shot picture data information;

a storage unit 332, configured to respectively package and store the call information into a specified folder according to information categories;

a naming unit 333 configured to name the designated folder by the end time of the voice call.

The function APP can also set a recording function, the obtained call recording is also stored in the same folder as the call information, the call information is respectively packaged in an appointed folder according to information categories, for example, files are respectively integrated according to categories such as call time categories and data information categories, all information related to the voice call is stored in an appointed folder in a centralized manner, the appointed folder is stored under a root directory, and the information corresponding to the voice call at each time is conveniently inquired and called.

Referring to fig. 8, a computer device, which may be a server and whose internal structure may be as shown in fig. 8, is also provided in the embodiment of the present application. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the computer designed processor is used to provide computational and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The memory provides an environment for the operation of the operating system and the computer program in the non-volatile storage medium. The database of the computer device is used for storing all data required by the process of transmitting the network voice and the PS domain data in parallel. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method for parallel transmission of network voice and PS domain data.

The method for the processor to execute the parallel transmission of the network voice and the PS domain data comprises the steps that whether a telephone number for pre-establishing the network voice call connection at present is a pre-bound SIM card number or not is monitored by a first terminal, if so, a call channel of the network voice and a PS domain data transmission channel are established, wherein the network voice comprises VO L TE-based network voice, VONR-based network voice or CS domain network voice, voice call is carried out through the call channel of the network voice, and data information transmitted through the PS domain data transmission channel is received.

According to the computer equipment, by setting a triggering mechanism for the parallel transmission of the network voice and the PS domain data, the network type voice call carried out through the operator network is connected, and meanwhile, a data transmission channel of the PS domain is established, so that the IP flow of the related data except the network call voice can be transmitted in the PS domain, the voice call carried out through the operator network is not influenced, the concurrent transmission of the telecommunication level network voice call and the IP data except the network call voice of the PS domain is realized, and the reliability and the practicability of the communication are improved.

Those skilled in the art will appreciate that the architecture shown in fig. 8 is only a block diagram of some of the structures associated with the present solution and is not intended to limit the scope of the present solution as applied to computer devices.

The application also provides a computer readable storage medium, a computer program is stored on the computer readable storage medium, and the method for realizing the parallel transmission of the network voice and the PS domain data when the computer program is executed by a processor comprises the steps that the first terminal monitors whether the telephone number of the current pre-established network voice call connection is the pre-bound SIM card number, if so, a call channel and a PS domain data transmission channel of the network voice are established, wherein the network voice comprises the network voice based on VO L TE, or the network voice based on VONR, or the CS domain network voice, the voice call is carried out through the call channel of the network voice, and the data information transmitted through the PS domain data transmission channel is received.

According to the computer readable storage medium, by setting a triggering mechanism for parallel transmission of network voice and PS domain data, network type voice call connection carried out by an operator network is enabled, and meanwhile, a data transmission channel of the PS domain is established, so that IP flow of related data except network call voice can be transmitted in the PS domain, voice call carried out by the operator network is not affected, concurrent transmission of telecommunication level network voice call and IP data except network call voice of the PS domain is realized, and reliability and practicability of communication are improved.

It will be understood by those of ordinary skill in the art that all or a portion of the processes of the methods of the embodiments described above may be implemented by a computer program that may be stored on a non-volatile computer-readable storage medium that, when executed, includes the processes of the embodiments of the methods described above, wherein any reference to memory, storage, database, or other medium provided herein and used in the embodiments may include non-volatile and/or volatile memory.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method 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, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, apparatus, article, or method that includes the element.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A method for parallel transmission of network voice and PS domain data is characterized by comprising the following steps:

the method comprises the steps that a first terminal monitors whether a telephone number of the current pre-established network voice call connection is a pre-bound SIM card number;

if yes, establishing a call channel and a PS (packet switched) domain data transmission channel of network voice, wherein the network voice comprises VO L TE-based network voice, VONR-based network voice or CS domain network voice;

and carrying out voice call through the call channel of the network voice, and receiving data information transmitted through the PS domain data transmission channel.

2. The method of claim 1, wherein the step of establishing a talk channel and a PS domain data transmission channel of the network voice comprises:

judging whether the first terminal and the second terminal which pre-establish network voice call connection support VO L TE-based network voice, wherein the first terminal and the second terminal are terminals respectively corresponding to two parties in a same call;

if not, establishing a CS domain-based communication channel in the 3G network;

judging whether the 3G network supports the concurrent transmission of a CS domain and a PS domain;

and if so, establishing the PS domain data transmission channel between the first terminal and the second terminal.

3. The method of claim 2, wherein after the step of determining whether the first terminal and the second terminal that have pre-established the voice over internet protocol connection support VO L TE-based voice over internet protocol, the method comprises:

if the VO L TE-based network voice is supported, a VO L TE-based network voice call channel and a PS domain data transmission channel are established.

4. The method of claim 1, wherein the first terminal carries a function APP of a trigger mechanism, and the step of the first terminal monitoring whether a phone number currently pre-established for the network voice call connection is a pre-bound SIM card number includes:

the first terminal monitors whether a currently dialed phone number or a phone number to be answered currently belongs to a white list number of a concurrent protocol or not;

if yes, sending a protocol password detection packet to the currently dialed phone number or the current phone number to be answered according to the concurrent protocol;

judging whether a preset feedback signal corresponding to the protocol cipher detection packet is received or not;

if yes, the telephone number of the current pre-established network voice call connection is judged to be the pre-bound SIM card number.

5. The method according to any one of claims 1 to 4, wherein the first terminal carries a function APP of a trigger mechanism, the first terminal calls the second terminal, the second terminal carries a SIM card corresponding to the pre-bound SIM card number, the step of performing voice call through the call channel of the network voice and receiving data information transmitted through a PS domain data transmission channel includes:

triggering the function APP and awakening the function APP to enter a working state so as to acquire data information of the second terminal;

controlling the function APP to trigger an IP data transmission mechanism, and transmitting the data information of the second terminal to the function APP through the PS domain data transmission channel;

and controlling the data information of the second terminal to be displayed on a display interface of the function APP.

6. The method of claim 5, wherein the step of triggering the function APP and waking up the function APP to enter a working state to obtain the data information of the second terminal comprises:

judging whether a data recording function of the second terminal is started or not through the function APP;

if not, remotely starting a data recording function of the second terminal through the function APP, and acquiring the data information, wherein the data information comprises positioning data information and shot picture data information.

7. The method for the parallel transmission of the network voice and the PS domain data according to claim 5, wherein the step of controlling the data information of the second terminal to be displayed on the display interface of the function APP is followed by:

recording call information of the voice call in the function APP, wherein the call information comprises call duration, positioning data information acquired in the call and shot picture data information;

respectively packaging the call information according to the information types and storing the call information into a designated folder;

and naming the appointed folder by the ending time of the voice call.

8. An apparatus for parallel transmission of network voice and PS domain data, integrated in a first terminal, comprising:

the monitoring module is used for monitoring whether the telephone number of the current pre-established network voice call connection is a pre-bound SIM card number;

the establishing module is used for establishing a communication channel and a PS domain data transmission channel of network voice if the SIM card number is bound in advance, wherein the network voice comprises VO L TE-based network voice, VONR-based network voice or CS domain network voice;

and the receiving module is used for carrying out voice call through the call channel of the network voice and receiving the data information transmitted through the PS domain data transmission channel.

9. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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