CN106060881B - Terminal device, operator server, conversation method and conversation system - Google Patents

Abstract

The invention provides a terminal device, an operator server, a communication method and a communication system, comprising the following steps: the timing module is used for timing after the call starts so as to generate call duration; the comparison module is used for comparing whether the call duration exceeds a preset duration threshold or not; the setting module is used for switching the call data from the data interface to the network interface when the call data exceeds the network interface; the data interface is used for sending the call data to a base station and transmitting the call data to a target terminal by the base station; and the network interface is used for sending the call data to an operator server and transmitting the call data to the target terminal by the operator server. The invention still adopts the service mode of telephone conversation at the terminal equipment, but switches the data interface and the network interface according to the time length of single conversation in the transmission mode, effectively balances the load of the base station at the operator end, reduces the operation cost, keeps the integrity of communication data in the terminal equipment and has low use price.

Description

Terminal device, operator server, conversation method and conversation system

Technical Field

The invention belongs to the field of converged communication, and particularly relates to a terminal device, an operator server, a communication method and a communication system.

Background

The terminal equipment has many inherent communication applications, such as: telephone, sms, mms, etc. are typically used to transmit data through a communication network. Operators of communication networks typically offer different service packages, for example, X yuan/month provides a duration of a telephone call of N minutes, and additional charges are charged for telephone calls other than N minutes.

With the increasing popularity of terminal devices, the first problem faced by communication operators is: when a large number of users are in communication at the same time, the load of the base station is too large, and further errors such as poor communication quality, large interference or communication interruption can occur; the second problem faced is: compared with instant messaging software installed on terminal equipment, the traditional telephone conversation has no price advantage, and the loss of customers or part of services is likely to be caused in the past.

For the user of the terminal device, not only the problem of the charge gradient during the telephone call but also the switching of the contact way need to be considered, which is very easy to cause the interruption of communication and the confusion of data.

Disclosure of Invention

In view of the above, the present invention is directed to a terminal device, an operator server, a call method and a call system, which can solve the technical problems of heavy load of an operator base station, high operation cost, high price gradient of a user side, communication interruption and data confusion caused by alternative usage of a replacement scheme, and the like, caused by the conventional telephone call service.

In order to solve the above technical problem, an embodiment of the present invention provides a terminal device, including:

the timing module is used for timing after the call starts so as to generate call duration;

the comparison module is used for comparing whether the call duration exceeds a preset duration threshold or not;

the setting module is used for switching the call data from a data interface to a network interface when the call duration exceeds the duration threshold;

the data interface is used for sending the call data to a base station and transmitting the call data to a target terminal by the base station; and

and the network interface is used for sending the call data to an operator server and transmitting the call data to the target terminal by the operator server.

To solve the above technical problem, an embodiment of the present invention provides an operator server, including:

the receiving module is used for receiving call data from terminal equipment, wherein the call data comprises the number of a target terminal;

the transmission module is used for transmitting the call data to a target terminal according to the number;

the receiving module is further configured to receive a call duration from the terminal device;

the analysis module is used for analyzing the call duration to generate a duration threshold;

the transmission module is further configured to transmit the duration threshold to the terminal device.

In order to solve the above technical problem, an embodiment of the present invention provides a call method for a terminal device, including:

when the call starts, the call data is sent to a base station, and the call data is transmitted to a target terminal by the base station;

timing the call to generate a call duration;

comparing whether the call duration exceeds a preset duration threshold or not;

when the call duration exceeds the duration threshold, switching call data from a data interface to a network interface; and

and sending the call data to an operator server, and transmitting the call data to the target terminal by the operator server.

In order to solve the above technical problem, an embodiment of the present invention provides a call system of a terminal device, including:

the terminal device, the operator server, the base station, and the target terminal.

Compared with the prior art, the terminal equipment, the operator server, the communication method and the communication system still adopt a service mode of telephone communication at the terminal equipment, but switch the data interface and the network interface according to the single communication time length in a transmission mode, effectively balance the load of the base station at the operator end, reduce the operation cost, keep the integrity of communication data in the terminal equipment and have low use price.

Drawings

Fig. 1 is a schematic application environment diagram of a terminal device, an operator server and a call method according to an embodiment of the present invention;

fig. 2 is a schematic block diagram of a terminal device according to an embodiment of the present invention;

fig. 3 is a schematic block diagram of a terminal device according to a second embodiment of the present invention;

fig. 4 is a block diagram of an operator server according to a third embodiment of the present invention;

fig. 5 is a schematic flowchart of a call method of a terminal device according to a fourth embodiment of the present invention;

fig. 6 is a schematic flowchart of a call method of a terminal device according to a fifth embodiment of the present invention;

fig. 7 is a schematic diagram of a cluster analysis model according to an embodiment of the present invention.

Detailed Description

Referring to the drawings, wherein like reference numbers refer to like elements throughout, the principles of the present invention are illustrated in a suitable computing environment. The following description is based on illustrated embodiments of the invention and should not be taken as limiting the invention with regard to other embodiments that are not detailed herein.

While the principles of the invention have been described in the foregoing context, which is not intended to be limiting, those of ordinary skill in the art will appreciate that various of the steps and operations described below may also be implemented in hardware. The principles of the present invention are operational with numerous other general purpose or special purpose computing, communication environments or configurations.

Fig. 1 is a schematic view of an application environment of a terminal device, an operator server and a communication method provided in the present invention. The application environment comprises a terminal device 10, a base station 20, a network hotspot 30, an operator server 40 and a communication network 50.

The terminal device 10 includes a service interface of a converged Communication function (RCS), where the converged Communication function may be implemented by a built-in function subscribed by the terminal device 10 or a downloaded application program. The terminal device 10 selects the base station 20 or the operator server 40 to provide the telephone call service according to the comparison of the time length of the single call with the time length threshold.

The base station 20 is configured to provide a call service in a 4G manner, and transmit call information through a data channel 51 between the base station 20 and the terminal device 10. It will be appreciated that the telephony services transmitted via the base station 20 are credited to the user's communication package and that the excess is typically charged on a per minute basis.

The operator server 40 is configured to receive the call information and transmit the call information through the network channel 52 with the terminal device 10. The network service 40 has the advantage of price, but has the disadvantage that it is not deployed as densely as the base stations 20, and thus there may be a case where connection is unavailable or the system is busy, which may result in failure of transmission of call information or poor service quality.

The operator server 40 notifies the terminal device 10 when the transmission fails, so that the terminal device 10 can transmit the call information through the base station 20 in time. It will be appreciated that calls made through the operator server 40 are typically free or for a fee per flow.

The communication network 50, which includes a data channel 51 and a network channel 52, is used to support the transmission of call information. The data channel 51 is constructed by the base station 20 and the terminal device 10. The network channel 52 is constructed by the operator server 40, the network hotspot 30, the terminal device 10, and the like, and includes one or more of a wireless wide area network, a wireless local area network, a wireless metropolitan area network, and/or a personal network.

The network hotspot 30 is connected between the terminal device 10 and the operator server 40, and is configured to transmit the call information from the terminal device 10 to another network hotspot via the operator server 40 until the call information is transmitted to another terminal device. Preferably a user-specified WiFi hotspot, such as a WiFi hotspot at a home, office, or mall, etc.

Referring to the following embodiments, two sides of the first embodiment are focused on the terminal device, three sides of the first embodiment are focused on the operator server, and four sides and five sides of the second embodiment are focused on the communication method of the terminal device. It can be understood that: although the emphasis of each embodiment is different, the design concept is consistent. Moreover, for parts that are not described in detail in a certain embodiment, reference may be made to the detailed description throughout the specification, and further description is omitted.

Example one

Referring to fig. 2, a schematic block diagram of a terminal device according to an embodiment of the present invention is shown. The terminal device includes: cell phones, tablet computers, etc., are not necessarily enumerated here.

The terminal device 200 includes: a timing module 21, an analysis module 22, a comparison module 23, a setting module 24, a data interface 25, and a network interface 26.

And the timing module 21 is configured to perform timing after the call starts, so as to generate a call duration. Specifically, the timing module 21 includes:

the start submodule 211 is configured to perform timing when the terminal device and its target terminal start communication through the base station. It will be appreciated that the start submodule 211 includes at least a timer element (not shown).

And the storage submodule 212, connected to the start submodule 211, is configured to, after the call of the terminal device at the target terminal is ended, read timing data from the timer element as a call duration, and store the call duration to generate historical data. It is understood that the history data includes a plurality of call durations.

The zero submodule 213 is connected to the storage submodule 212, and configured to zero the timer after the storage submodule 212 completes storage, that is, initialize the timer, so as to perform timing next time.

And the analysis module 22 is connected to the timing module 21 and is configured to perform cluster analysis on the historical data to generate a duration threshold. Specifically, the analysis module 22 includes:

the statistic submodule 221 is configured to count different call durations and occurrence frequencies thereof from historical data;

the model submodule 222 is configured to determine an analysis model, and perform cluster analysis on the call duration and the call frequency according to the analysis model to generate a duration threshold.

Taking the long tail model shown in fig. 7 as an example of the cluster analysis model, the call duration can be divided into two categories. The first category, which accounts for about 80% of the total frequency, corresponds to a call duration of 3 minutes or less, and the second category, which accounts for about 20% of the total frequency, corresponds to a call duration of 3 minutes or more. It is to be understood that the long tail model shown in fig. 7 is for illustration only and should not be construed as limiting the present invention.

In practical use, telephone talk time is generally divided into two categories, the first category being that the telephone is short (e.g. within 3 minutes), such as: leave the boss, or reserve the restaurant, the second category is for a long time (e.g., more than 30 minutes), such as: and a friend narrating the work or communicating with a client.

It can be understood that, when the analysis module 22 is disposed on the terminal device 200, the duration threshold is generated according to the usage habit of the user, and the accuracy is higher.

And the comparison module 23 is connected to the timing module 21 and the analysis module 22, and is configured to compare whether the call duration exceeds a preset duration threshold.

It is understood that the comparison module 23 compares the duration of the call with a duration threshold generated from the historical data, and when the duration threshold is exceeded, it indicates that the call is more likely to belong to the second category, i.e., the long-time call.

And the setting module 24 is configured to switch the call data from the data interface to the network interface when the call duration exceeds the duration threshold.

It will be appreciated that the setting module 24 is essentially a single pole double throw switch, the control terminal of which is connected to the comparison module 23 and switches between the network interface 26 and the data interface 25 according to the comparison result of the comparison module 23.

And the data interface 25 is connected to the setting module 24, and is configured to send the call data to a base station, and transmit the call data to a target terminal by the base station.

And the network interface 26 is connected to the setting module 24, and is used for sending the call data to an operator server and transmitting the call data to the target terminal by the operator server.

The terminal equipment still adopts the service mode of telephone conversation, but switches the data interface and the network interface according to the conversation time length of the time in the transmission mode, effectively balances the load of the base station at the operator end, reduces the operation cost, keeps the integrity of communication data in the terminal equipment and has low use price.

Example two

Referring to fig. 3, a schematic block diagram of a terminal device according to an embodiment of the present invention is shown. The terminal device includes: cell phones, tablet computers, etc., are not necessarily enumerated here.

It will be appreciated that the terminal device of figure 3 is an optimization of the terminal device of figure 2. In fig. 3, the same portions as those in fig. 2 are again started with 2, and portions different from those in fig. 2 are started with 3 to show the differences.

The terminal device 300 includes: conversion module 31, timing module 32, threshold module 33, comparison module 23, setting module 24, data interface 25, encapsulation module 34, network interface 26, and sending module 35.

The conversion module 31 is configured to receive a call voice during a telephone call, convert the call voice into call data, and transmit the call data to the setting module. It is understood that the call data is typically data packets that can satisfy the formats of base station transmission and network transmission, and the data packets include, but are not limited to: data content, and a timestamp.

And the timing module 32 is configured to perform timing after the call starts, so as to generate a call duration. Specifically, the timing module 32 includes:

a timer 321, configured to time when the terminal device and its target terminal start communication through a base station; and

the zero submodule 322 is connected to the timer 321, and configured to zero the timer 321, that is, initialize a timer element for timing next time, after the terminal device finishes a call with the target terminal.

A threshold module 33, configured to receive a time duration threshold from the base station or the operator server.

In practical use, telephone talk time is generally divided into two categories, the first category being that the telephone is short (e.g. within 3 minutes), such as: leave the boss, or reserve the restaurant, the second category is for a long time (e.g., more than 30 minutes), such as: and a friend narrating the work or communicating with a client.

It can be understood that, when the threshold module 33 is disposed on the terminal device 300, the duration threshold can be directly obtained without analyzing the usage habits of the user, so as to save the time for constructing the model.

It is understood that the threshold module 33 in fig. 3 and the analysis module 22 in fig. 2 may exist simultaneously or separately. If so, a universal duration threshold is first downloaded using the threshold module 33 until a customized duration threshold in the analysis module 22 is formed.

The comparison module 23 is connected to the timing module 32 and the threshold module 33, and reads the time length threshold from the threshold module, reads the call time length from the timing module, and compares whether the call time length exceeds a preset time length threshold.

It can be understood that the comparison module 23 compares the time length of the call with a preset time length threshold, and when the time length exceeds the time length threshold, it indicates that the call is more likely to belong to the second category, that is, the call is called for a long time.

The setting module 24 is connected to the converting module 31 and the comparing module 23, and is configured to switch the call data from the data interface 25 to the network interface 26 when the call duration exceeds the duration threshold.

It will be appreciated that the setting module 24 is essentially a single pole double throw switch, the control terminal of which is connected to the comparison module 23, the fixed terminal of which is connected to the conversion module 31, and the comparison result of the comparison module 23 is used as a control signal to switch between the network interface 26 and the data interface 25.

And the data interface 25 is connected to the setting module 24, and is configured to send the call data to a base station, and transmit the call data to a target terminal by the base station.

And the packaging module 34 is used for packaging the function module of the converged communication through a Software Development Kit (SDK) to generate the application program, the plug-in and/or the process with the converged communication function.

And the network interface 26 is connected to the setting module 24 and the packaging module 34, and is used for connecting the operator server by calling the application program, the plug-in and/or the process with the converged communication function, and sending the call data to the operator server.

It can be understood that, the operator server firstly analyzes the telephone number of the target terminal according to the call data, matches the area where the telephone number is located, confirms the network hotspot corresponding to the area, and transmits the call data to the target terminal corresponding to the telephone number by the network hotspot.

And the sending module 35 is connected to the timing module 32, and configured to send the call duration to the base station or the operator server after the call is ended, so as to generate the duration threshold.

It is understood that the sending module 35 sends the data to the base station through the data interface 25 or sends the data to the operator server through the network interface 26.

The terminal equipment still adopts the service mode of telephone conversation, but switches the data interface and the network interface according to the conversation duration of a single time in the transmission mode, effectively balances the load of the base station at the operator end, reduces the operation cost, keeps the integrity of communication data in the terminal equipment and has low use price.

EXAMPLE III

Referring to fig. 4, a schematic block diagram of an operator server according to an embodiment of the present invention is shown.

The operator server 400 includes: a receiving module 41, a transmitting module 42, and an analyzing module 43.

The receiving module 41 is configured to receive call data from a terminal device, where the call data includes a number of a target terminal.

And the transmission module 42 is connected to the receiving module 41, and is configured to transmit the call data to the target terminal according to the number.

The receiving module 41 is further configured to receive a call duration from the terminal device.

And the analysis module 43 is connected to the receiving module 41, and is configured to analyze the call duration to generate a duration threshold.

Specifically, the analysis module 43 includes:

the statistic submodule 431 is used for counting different call durations and the occurrence frequency thereof from historical data;

and the model submodule 432 is connected to the statistic submodule 431 and is used for determining an analysis model and performing cluster analysis on the call duration and the call frequency according to the analysis model to generate a duration threshold.

Taking the long tail model shown in fig. 7 as an example of the cluster analysis model, the call duration can be divided into two categories. The first category, which accounts for about 80% of the total frequency, and the corresponding call duration is within 3 minutes; the second category, which accounts for about 20% of the total frequency, corresponds to a call duration of 3 minutes or more. It is to be understood that the long tail model shown in fig. 7 is for illustration only and should not be construed as limiting the present invention.

In practical use, telephone talk time is generally classified into two categories, the first category is that the telephone is short (e.g. within 3 minutes), such as: leave the boss, or reserve the restaurant, the second category is for a long time (e.g., more than 30 minutes), such as: and a friend narrating the work or communicating with a client.

It is understood that, when the analysis module 43 is installed in the operator server 400, the time length threshold is generated according to the usage habits of a plurality of users, and the time length threshold can be applied to various situations.

The operator server of the invention still adopts the service mode of telephone conversation at the terminal equipment, but switches the data interface and the network interface according to the single conversation time length in the transmission mode, thereby effectively balancing the load of the base station at the operator end, reducing the operation cost, keeping the integrity of communication data in the terminal equipment and having low use price.

Example four

Referring to fig. 5, a flow chart of a call method of a terminal device according to an embodiment of the present invention is shown.

The communication method of the terminal equipment comprises the following steps:

in step S501, when a call is started, the call data is sent to a base station, and the base station transmits the call data to a target terminal.

Specifically, the present step includes:

(1) when a call starts, receiving call voice;

(2) converting the call voice into call data, it is understood that the call data is typically data packets that can satisfy the formats of base station transmission and network transmission, and the data packets include but are not limited to: data content, and a timestamp; and

(3) and sending the call data to a base station, and transmitting the call data to a target terminal by the base station.

In step S502, the call is timed to generate a call duration.

Specifically, the present step includes:

(1) when the terminal equipment and a target terminal thereof start to communicate through a base station, starting a timer to start timing;

(2) when the terminal equipment finishes the call of the target terminal, acquiring the call duration from the timer, and acquiring the number of the corresponding target terminal to generate historical data; and

(3) and clearing the timer.

In step S503, cluster analysis is performed on the historical data to generate the duration threshold.

Specifically, the present step includes:

(1) counting different call durations and occurrence frequencies thereof from historical data, wherein the historical data comprises a plurality of call durations;

(2) and determining an analysis model, and performing cluster analysis on the call duration and the call frequency according to the analysis model to generate a duration threshold.

Taking the long tail model shown in fig. 7 as an example of the cluster analysis model, the call duration can be divided into two categories. The first category, which accounts for about 80% of the total frequency, corresponds to a call duration of 3 minutes or less, and the second category, which accounts for about 20% of the total frequency, corresponds to a call duration of 3 minutes or more. It is to be understood that the long tail model shown in fig. 7 is for illustration only and should not be construed as limiting the present invention.

In practical use, telephone talk time is generally divided into two categories, the first category being that the telephone is short (e.g. within 3 minutes), such as: leave the boss, or reserve the restaurant, the second category is for a long time (e.g., more than 30 minutes), such as: and a friend narrating the work or communicating with a client.

It can be understood that, in the step, the accuracy is higher according to the use habits of the users.

In step S504, it is compared whether the call duration exceeds a preset duration threshold.

If the call duration exceeds the duration threshold, executing step S505; if the call duration does not exceed the duration threshold, returning to step S502.

In step S505, the call data is switched from the data interface to the network interface.

It will be appreciated that the switching is essentially a single pole double throw switch with a control terminal for receiving the comparison results, a fixed terminal for receiving the call data and a switching terminal for selecting between the network interface 26 and the data interface 25.

In step S506, the call data is sent to an operator server, and is transmitted to the target terminal by the operator server.

It is understood that the terminal device encapsulates the converged communication function module through a Software Development Kit (SDK) to generate an application, a plug-in, and/or a process with converged communication functions for the network interface to call.

The call method of the terminal equipment still adopts the service mode of telephone call at the terminal equipment, but switches the data interface and the network interface according to the call duration in the transmission mode, thereby effectively balancing the load of the base station at the operator end, reducing the operation cost, keeping the integrity of communication data in the terminal equipment and having low use price.

EXAMPLE five

Referring to fig. 6, a flow chart of a call method of a terminal device according to an embodiment of the present invention is shown.

It will be appreciated that the terminal device of figure 6 is complementary to the terminal device of figure 5. In fig. 6, the same portions as those in fig. 5 are again started with S5, and portions different from those in fig. 6 are started with S6, to show the difference.

The communication method of the terminal equipment comprises the following steps:

in step S501, when a call is started, the call data is sent to a base station, and the base station transmits the call data to a target terminal.

In step S601, a timer is started to start timing, and the current call duration is generated.

In step S602, a time duration threshold from the base station or the operator server is received.

It will be appreciated that in practice, telephone talk time is generally divided into two categories, one being that the telephone is short (e.g. within 3 minutes), such as: leave an owner, or reserve a restaurant, and the other is for a long time (e.g., more than 30 minutes), such as: and a friend narrating the work or communicating with a client.

In step S504, it is compared whether the call duration exceeds a preset duration threshold.

If the call duration exceeds the duration threshold, executing step S505; and if the call duration does not exceed the duration threshold, returning to the step S601.

In step S505, the call data is switched from the data interface to the network interface.

It will be appreciated that the switching is essentially a single pole double throw switch with a control terminal for receiving the comparison results, a fixed terminal for receiving the call data and a switching terminal for selecting between the network interface 26 and the data interface 25.

In step S506, the call data is sent to an operator server, and is transmitted to the target terminal by the operator server.

In step S603, after the call is ended, the call duration is sent to the base station or the operator server, so as to generate the duration threshold.

It can be understood that, when the sample size is large enough, that is, after the duration threshold value tends to be stable, the server sends a response to each terminal device, and each terminal device does not send the duration threshold value any more.

In step S604, the timer is cleared.

The call method of the terminal equipment still adopts the service mode of telephone call at the terminal equipment, but switches the data interface and the network interface according to the call duration in the transmission mode, thereby effectively balancing the load of the base station at the operator end, reducing the operation cost, keeping the integrity of communication data in the terminal equipment and having low use price.

The terminal device, the operator server, the communication method and the communication system provided by the embodiment of the invention belong to the same concept, and the specific implementation process is detailed in the full text of the specification and is not repeated herein.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, therefore, the scope of the present invention shall be determined by the appended claims.

Claims (10)

1. A terminal device, comprising:

the timing module is used for timing after the call starts so as to generate call duration;

the sending module is used for sending the call duration to a base station or an operator server after the call is finished and generating a duration threshold;

a threshold module for receiving a time length threshold generated by the base station or the operator server based on the analysis of the call time length;

the comparison module is used for reading the duration threshold from the threshold module, reading the call duration from the timing module and comparing whether the call duration exceeds the duration threshold or not;

the setting module is used for switching the call data from a data interface to a network interface when the call duration exceeds the duration threshold;

the data interface is used for sending the call data to a base station and transmitting the call data to a target terminal through a data channel by the base station; and

the encapsulation module is used for encapsulating the function module with the converged communication through the SDK so as to generate an application program, a plug-in and/or a process with the converged communication function;

the network interface is used for connecting the operator server by calling the application program, the plug-in and/or the process with the converged communication function, sending the call data to the operator server, and transmitting the call data to the number of the target terminal through a network channel by the operator server, wherein the target terminal has the converged communication function.

2. The terminal device of claim 1, wherein the timing module comprises:

the starting submodule is used for timing when the terminal equipment and the target terminal of the terminal equipment start to communicate through the base station;

the storage submodule is used for storing the call duration as historical data after the call of the terminal equipment on the target terminal is finished; and

and the zero clearing submodule is used for clearing the timing when the terminal equipment finishes the conversation of the target terminal.

3. The terminal device of claim 2, further comprising:

and the analysis module is used for carrying out clustering analysis on the historical data so as to generate the duration threshold.

4. The terminal device of claim 1, further comprising:

and the conversion module is used for receiving call voice during telephone call, converting the call voice into call data and transmitting the call data to the setting module.

5. A carrier server, comprising:

the receiving module is used for receiving call data from terminal equipment, wherein the call data comprises the number of a target terminal;

the transmission module is used for transmitting the call data to a target terminal through a network channel according to the number, and the target terminal has a converged communication function;

the receiving module is further configured to receive a call duration from the terminal device, where the call duration is generated after the terminal device starts a call and times the call duration after the call is ended;

the analysis module is used for analyzing the call duration to generate a duration threshold;

the transmission module is further used for transmitting the duration threshold value to the terminal equipment, so that the terminal equipment compares the call duration with the duration threshold value, and when the call duration exceeds the duration threshold value, the call data is switched to a network interface from a data interface, and the terminal equipment calls an application program, a plug-in and/or a process with a converged communication function through the network interface so as to be connected with the operator server.

6. A conversation method of a terminal device is characterized by comprising the following steps:

when the call starts, sending call data to a base station through a data interface, and transmitting the call data to a target terminal through a data channel by the base station;

timing the call to generate a call duration;

after the call is finished, the call duration is sent to the base station or the operator server and is used for generating a duration threshold;

receiving a time length threshold value generated by the base station or the operator server based on the analysis of the call time length;

comparing whether the call duration exceeds a duration threshold;

when the call duration exceeds the duration threshold, switching the call data from a data interface to a network interface; and

encapsulating the function module of the converged communication through the SDK to generate an application program, a plug-in and/or a process with the converged communication function;

and calling the application program, the plug-in and/or the process with the converged communication function through a network interface so as to connect the operator server, sending the call data to the operator server, and transmitting the call data to the number of the target terminal through a network channel by the operator server, wherein the target terminal has the converged communication function.

7. A method for a call as claimed in claim 6, wherein timing the call to generate a call duration comprises:

when the terminal equipment and a target terminal thereof start to communicate through a base station, starting a timer to start timing;

when the terminal equipment finishes the call of the target terminal, acquiring the call duration from the timer, and acquiring the number of the corresponding target terminal to generate historical data; and

and clearing the timer.

8. A call method as claimed in claim 7, wherein after the call of the terminal device at the target terminal is ended, the call duration is obtained from the timer to generate history data, and then further comprising:

and performing cluster analysis on the historical data to generate the duration threshold.

9. The method as claimed in claim 6, wherein the step of sending the call data to a base station and transmitting the call data to a target terminal by the base station when the call is started comprises:

when a call starts, receiving call voice;

converting the call voice into call data; and

and sending the call data to a base station, and transmitting the call data to a target terminal by the base station.

10. A telephony system, comprising:

the terminal device of any one of claims 1 to 4, the operator server of claim 5, a base station, and a target terminal.