CN114189499B - Converged communication system, method and device for multi-service association interaction - Google Patents
Converged communication system, method and device for multi-service association interaction Download PDFInfo
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- 230000003993 interaction Effects 0.000 title claims abstract description 45
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- 238000004806 packaging method and process Methods 0.000 claims abstract description 7
- 230000005540 biological transmission Effects 0.000 claims description 56
- 238000012545 processing Methods 0.000 claims description 12
- 238000005538 encapsulation Methods 0.000 claims description 8
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
- H04L65/10—Architectures or entities
- H04L65/1016—IP multimedia subsystem [IMS]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/08—Network architectures or network communication protocols for network security for authentication of entities
- H04L63/0876—Network architectures or network communication protocols for network security for authentication of entities based on the identity of the terminal or configuration, e.g. MAC address, hardware or software configuration or device fingerprint
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
- H04L65/10—Architectures or entities
- H04L65/1053—IP private branch exchange [PBX] functionality entities or arrangements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L65/00—Network arrangements, protocols or services for supporting real-time applications in data packet communication
- H04L65/1066—Session management
- H04L65/1073—Registration or de-registration
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
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Abstract
The invention discloses a converged communication system, method and device for multi-service association interaction. The converged communication system comprises a communication device and a converged communication server group, wherein the communication device is in communication connection with the converged communication server group, the converged communication server group comprises an IMS server and an IPPBX server, and the IMS server and the IPPBX server are in communication connection. The converged communication device comprises an instruction receiving and transmitting unit, a data receiving and transmitting unit and a data packaging unit. The service-end IPPBX is in service association with the IMS through the external IMS protocol station and the IP PBX server by utilizing the auxiliary account logic, and the converged communication system, the method and the device promote service expansibility in the communication equipment with the 4G module, fully utilize the stability of an internal IMS protocol in the 4G module and simultaneously reduce the workload of external IMS protocol development.
Description
Technical Field
The invention relates to the field of converged communication of multi-service association interaction, in particular to a converged communication system, a method and a device of multi-service association interaction.
Background
With the development of science and technology, the demands of people for communication are increasingly diversified nowadays. Converged communication (Rich Communication Suite, RCS for short) is a technique of integrating information technology traffic and communication technology traffic for communication. Information technology services refer to various services of the IP class (e.g., instant messaging services (IM), video and application sharing services such as shared information, video monitoring, download services, and various internet services such as email services, etc.); communication technology services refer to various services of traditional communications (e.g., telephone services, short message services, conference calls, call centers, etc.); in addition, there are information processing services (e.g., e-commerce, query information services, etc.). The RCS is a new generation message service international standard, and a new generation information service platform created by a telecom operator according to the RCS can make "information, i.e. a platform, a user, i.e. a client, and a mobile phone, i.e. an application" be realized.
In the prior art, communication devices commonly found in the market are generally provided with two types of communication logic: 1. the method comprises the steps of simply performing logic adaptation on a main system, calling an Android general API interface provided by a 4G module, and completing VOLTE communication; 2. and the main system is provided with an SIP protocol APP, and the IPPBX communication of the non-VOLTE is realized by utilizing the 4G wireless network function.
However, the prior art still has the following drawbacks: the API interface (basic interface such as registration, call, hold and the like) provided by a chip manufacturer in a 4G module of a chip has strong universality, weak service expansibility and single application scene, and cannot support IPPBX advanced services while realizing the IMSPDN of a 4G network to complete VOLTE communication.
Therefore, there is a need for a converged communication system, method, and apparatus for multi-service association interactions, so as to solve the above-mentioned problems in the prior art.
Disclosure of Invention
Aiming at the existing technical problems, the invention aims to provide a converged communication system, method and device for multi-service association interaction, which improve service expansibility in communication equipment with a 4G module.
The invention provides a multi-service association and interaction converged communication system, which comprises a communication device and a converged communication server group, wherein the communication device is in communication connection with the converged communication server group through a first transmission channel and a second transmission channel, the converged communication server group comprises an IMS server and an IPPBX server, and the IMS server and the IPPBX server are in communication connection; the communication device comprises a communication module, wherein the communication module comprises an IMS protocol unit and a data processing unit, and the IMS protocol unit comprises a preset built-in IMS protocol.
In one embodiment, the IMS protocol unit is communicatively connected to an IMS server via a first transmission channel; and the data processing unit is in communication connection with the converged communication server group through the second transmission channel.
In one embodiment, the first transmission channel is an IMSPDN channel and the second transmission channel is a DATAPDN channel.
In one embodiment, the communication device further comprises a main system platform, the main system platform comprising an IMS service module, the IMS service module being communicatively connected to the data processing unit.
The invention also provides a converged communication method of the multi-service association interaction, which is realized based on the converged communication system of the multi-service association interaction, wherein the converged communication method comprises the following steps: receiving a first service data packet sent by a main system platform, and packaging the first service data packet to obtain a second service data packet; the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol; and sending the second service data packet to the IPPBX server through the second transmission channel so that the IPPBX server forwards the second service data packet to the IMS server.
In one embodiment, the converged communication method further comprises: the method comprises the steps of obtaining a registration instruction sent by a main system platform, sending the registration instruction to an IMS server through a first transmission channel, and sending the registration instruction to an IPPBX server through a second transmission channel, so that the IMS server performs first registration according to the registration instruction, and the IPPBX server performs second registration according to the registration instruction.
In one embodiment, the converged communication method further comprises: and receiving a feedback data packet sent by the converged communication server group, and sending the feedback data packet to the user.
The invention also provides a convergence communication device of the multi-service association interaction, which is used for executing the convergence communication method of the multi-service association interaction, and comprises a data receiving and transmitting unit and a data encapsulation unit, wherein the data receiving and transmitting unit is used for receiving a first service data packet sent by a main system platform; transmitting the second service data packet to the ip pbx server via the second transmission channel, so that the ip pbx server forwards the second service data packet to the IMS server; the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol; the data receiving and transmitting unit is used for packaging the first service data packet to obtain a second service data packet.
In one embodiment, the data transceiver unit is further configured to: the method comprises the steps of obtaining a registration instruction sent by a main system platform, sending the registration instruction to an IMS server through a first transmission channel, and sending the registration instruction to an IPPBX server through a second transmission channel, so that the IMS server performs first registration according to the registration instruction, and the IPPBX server performs second registration according to the registration instruction.
In one embodiment, the converged communication device further includes an interaction unit, where the interaction unit is configured to receive a user service instruction and a registration instruction input by a user; and receiving the feedback data packet sent by the converged communication server group, and sending the feedback data packet to the user.
Compared with the prior art, the embodiment of the invention has the following beneficial effects:
the invention provides a converged communication system, a method and a device for multi-service association interaction, which realize service association between an IPPBX (Internet protocol private branch exchange) of a server and an IMS by using an external IMS protocol server and an IP PBX server.
Drawings
The invention will be further described with reference to the accompanying drawings, in which:
FIG. 1 illustrates a block diagram of one embodiment of a converged communication system for multi-service association interactions in accordance with the present invention;
FIG. 2 illustrates an internal block diagram of one embodiment of a communication device of a converged communication system for multi-service associative interaction in accordance with the present invention in communication with a converged communication server group;
FIG. 3 illustrates a flow chart of one embodiment of a converged communication method for multi-service associative interactions in accordance with the present invention;
FIG. 4 illustrates a flow chart of another embodiment of a converged communication method of multi-service associative interactions in accordance with the present invention;
fig. 5 illustrates a block diagram of one embodiment of a converged communication device in accordance with the present invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Detailed description of the preferred embodiments
In addition to the method and the device, the invention also describes a converged communication system of multi-service association interaction. Fig. 1 illustrates a block diagram of one embodiment of a converged communication system for multi-service association interactions in accordance with the present invention.
As shown in fig. 1, the converged communication system includes a communication device 1 and a converged communication server group 2, and the communication device 1 is in communication connection with the converged communication server group 2.
Specifically, the communication device 1 is in communication connection with the converged communication server group 2 through a first transmission channel and a second transmission channel, wherein the converged communication server group 2 comprises an IMS server and an IPPBX server, and the IMS server and the IPPBX server are in communication connection; the communication device 1 comprises a communication module, wherein the communication module comprises an IMS protocol unit 111 and a data processing unit 112, and the IMS protocol unit comprises a preset built-in IMS protocol.
The communication connection between the IMS server and the IPPBX server is to associate the advanced extension service (IPPBX service) with the general basic service, so that when the IPPBX server receives the data (signaling) corresponding to the advanced extension service, the signaling can be transferred to the IMS server.
In one embodiment, the communication device further comprises a main system platform 12 comprising an IMS service module, which is communicatively connected to the data processing unit.
In one embodiment, the IMS protocol unit is communicatively connected to an IMS server via a first transmission channel; and the data processing unit is in communication connection with the converged communication server group through the second transmission channel. In one embodiment, the first transmission channel is an IMSPDN channel and the second transmission channel is a DATAPDN channel.
In the prior art, a terminal device generally includes a 4G module and a platform system (for example, an Android/Linux/ARM main system), and a built-in IMS protocol preset by a manufacturer is included in the 4G module to provide a general IMS function, but a service that can be used by the built-in IMS protocol is relatively primary, and has a limitation, so that an advanced extension service cannot be provided for a user. In view of this, when the converged communication system is structurally designed, by externally arranging a server group including an IMS server and an ip pbx server and communicating in association with each other, the communication apparatus 1 in the converged communication system is made to cooperate with the IMS server to provide functions such as general registration, so that the communication apparatus 1 in the converged communication system cooperates with the ip pbx server to provide an extended function, and as such, it is necessary to use different channels (i.e., the first transmission channel and the second transmission channel mentioned herein) for data transmission by the communication apparatus 1 respectively using the general function and using the extended function.
That is, in order to further improve the service expandability of converged communication, the embodiment of the present invention designs a converged communication system, which structurally includes two parts of a communication device and a converged communication server group, in order to simultaneously provide a general basic service and an advanced extension service, the converged communication server group includes two servers (an IMS server and an ip pbx server); the communication device comprises a main system platform and a 4G module (comprising an IMS protocol unit and a data processing unit). The main system platform is connected to the 4G module through analog serial port communication, and a data processing unit in the 4G module is connected to the IPPBX server through a second transmission channel, so that structural support is provided for providing advanced expansion services; meanwhile, an IMS protocol unit in the 4G module is connected to an IMS server through a first transmission channel, so that structural support is provided for providing general basic services.
When a user needs to access the universal basic service, corresponding data are transmitted to an IMS protocol unit from a main system platform through an analog serial port and then transmitted to an IMS server through a first transmission channel; when the user needs to access the advanced extension service, the corresponding data is transmitted from the main system platform to the data processing unit through the analog serial port to accept encapsulation, and then transmitted to the IPPBX server through the second transmission channel after encapsulation.
To further illustrate this architecture and not to limit it, FIG. 2 illustrates an internal block diagram of one embodiment of a communication device of a converged communication system for multi-service associative interactions in accordance with the present invention in communication with a converged communication server group.
In one embodiment, the converged communication system further comprises a user interaction module comprising a touch/non-touch display, an input keyboard, a virtual keyboard, an indicator light, a speaker, a headset, and combinations of one or more of the foregoing.
The embodiment of the invention describes a multi-service association and interaction converged communication system, which realizes service association between an IPPBX (Internet protocol private branch exchange) of a server and an IMS by using an external IMS protocol server and an IP PBX (Internet protocol private branch exchange) server.
Second embodiment
The embodiment of the invention describes a converged communication method of multi-service association interaction, which is realized based on the converged communication system of the multi-service association interaction described in the previous embodiment. Fig. 3 illustrates a flow chart of one embodiment of a converged communication method for multi-service associative interactions in accordance with the present invention.
As shown in fig. 3, the converged communication method includes the steps of:
s1, receiving a first service data packet sent by a main system platform, and packaging the first service data packet to obtain a second service data packet.
When a user requests to access the advanced extension service through the main system platform, a user service instruction needs to be input into the main system platform, so that the main system platform generates a corresponding first service data packet and sends the first service data packet to the 4G module. The 4G module firstly receives the first service data packet, and encapsulates the first service data packet after receiving the first service data packet to obtain a second service data packet so that the transmission data meets the transmission requirement of the second transmission channel.
In one embodiment, the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol.
And S2, the second service data packet is sent to the IPPBX server through the second transmission channel, so that the IPPBX server forwards the second service data packet to the IMS server.
And after the second service data packet is acquired, the second service data packet is sent to the docked IPPBX server through a second transmission channel. Since the foregoing embodiments have been described, the ip pbx server is communicatively connected to the IMS server to implement service association, when the corresponding docked ip pbx server receives the second service data packet, the second service data packet is forwarded to the IMS server, thereby implementing advanced extended service functions.
In one embodiment, the converged communication method further comprises: and receiving a feedback data packet sent by the converged communication server group, and sending the feedback data packet to the user.
The embodiment of the invention describes a converged communication method for multi-service association interaction, which realizes service association between a server side IPPBX and an IMS through an external IMS protocol server and an IP PBX server by utilizing auxiliary account logic.
Detailed description of the preferred embodiments
Furthermore, the embodiment of the invention also describes another converged communication method of multi-service association interaction. FIG. 4 illustrates a flow chart of another embodiment of a converged communication method of multi-service associative interactions in accordance with the present invention;
as shown in fig. 4, the method comprises the steps of:
a1, acquiring a registration instruction sent by the main system platform, sending the registration instruction to the IMS server through a first transmission channel, and sending the registration instruction to the IPPBX server through a second transmission channel, so that the IMS server performs first registration according to the registration instruction, and the IPPBX server performs second registration according to the registration instruction.
Before all communication processes are started, registration is required for each device, so that the converged communication server group can distinguish legal communication devices and provide services better, and stability and safety of communication service when people use the communication service on a large scale are ensured.
For each terminal device, namely, a user is required to input a registration instruction to the main system platform, the main system platform correspondingly generates a registration instruction after receiving the registration instruction, and sends the registration instruction to an IMS protocol unit in the 4G module through a simulation serial port, so that after corresponding data conversion is carried out on the registration instruction, the registration instruction is sent to an IMS server through a first transmission channel to carry out first registration.
On the basis, in order to realize the expansibility improvement of the service through the transmission cooperation of the double servers and the double data channels, the same equipment needs to be registered on the IMS server and the IPPBX server at the same time to realize the auxiliary account, so that the subscription or information received by the servers can be forwarded to each other.
Thus, after a first registration of a device, it is also necessary to send the registration instruction to the ip pbx server via a second transmission channel, and to cause the ip pbx server to perform a second registration according to the registration instruction.
A2, receiving a first service data packet sent by the main system platform, and packaging the first service data packet to obtain a second service data packet.
When a user requests to access the advanced extension service through the main system platform, a user service instruction needs to be input into the main system platform, so that the main system platform generates a corresponding first service data packet and sends the first service data packet to the 4G module. The 4G module firstly receives the first service data packet, and encapsulates the first service data packet after receiving the first service data packet to obtain a second service data packet so that the transmission data meets the transmission requirement of the second transmission channel.
In one embodiment, the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol.
A3, the second service data packet is sent to the IPPBX server through the second transmission channel, so that the IPPBX server forwards the second service data packet to the IMS server.
And after the second service data packet is acquired, the second service data packet is sent to the docked IPPBX server through a second transmission channel. Since the foregoing embodiments have been described, the ip pbx server is communicatively connected to the IMS server to implement service association, when the corresponding docked ip pbx server receives the second service data packet, the second service data packet is forwarded to the IMS server, thereby implementing advanced extended service functions.
In one embodiment, the converged communication method further comprises: and receiving a feedback data packet sent by the converged communication server group, and sending the feedback data packet to the user.
In order to further clearly describe the embodiments implemented on the basis of the embodiments of the invention, further examples will be given below.
In one embodiment, the BLF/BLFLIST (Busy Lamp Field) traffic signaling interaction flow is as follows:
c101, the communication device A, B is provided with an IMS protocol stack and is registered on an IMS server;
c102, the external IMS Advanced business module of the communication device A acquires the information of the registered account number of the internal IMS, initiates registration to the IPPBX again through a DATAPDN channel, and informs the IPPBX server that the account number is an auxiliary account number of the IMS account number by carrying a relevant header field identification in a REGISTER signaling, so as to support the advanced service BLF/BLFLIST;
c103, the IPPBX receives the registration information of the communication device A, identifies the IMS auxiliary account number and forwards a registration request to an IMS server;
c104, communication device A initiates a BLF SUBSCRIBE subscription request to the IPPBX to SUBSCRIBE to the call state of communication device B;
the IPPBX identifies that the IMS auxiliary account number advanced service is the IMS auxiliary account number advanced service, and forwards a subscription request to an IMS server;
c106, the subscription request is successful, and the IMS server informs the communication devices A and B to be in an IDLE state through the transfer of the IPPBX by a NOTIFY signaling;
c107, the user checks the liquid crystal prompt of the communication device A, and confirms that the communication device B is in an idle state, and initiates VOLTE call by using the built-in IMS protocol stack;
the IMS server informs the communication devices A and B of the states of calling RINGING, BUSY and the like through the transfer of the IPPBX by a NOTIFY signaling;
c109, the communication device a initiates a BYE request to end the call;
and C110, the IMS server informs the communication devices A and B of being in an IDLE state through the transfer of the IPPBX by a NOTIFY signaling.
In another embodiment, the FeatureKeySync (function key synchronization) service signaling interaction flow is as follows:
d101: the communication device A, B is internally provided with an IMS protocol stack and is registered on an IMS server, and the communication device B is a sub-account number of the communication device A and is similar to a one-number multi-machine application scene;
d102: the external IMS Advanced business module of the communication device A, B acquires the information of the registered account number of the built-in IMS, initiates registration to the IPPBX again through a DATAPDN channel, and informs the IPPBX server that the account number is an auxiliary account number of the IMS account number by carrying a relevant header field identifier in a REGISTER signaling, so that the advanced service FeatureKey Sync is supported;
d103: the IPPBX receives the registration information of the communication device A, B, identifies the IMS auxiliary account number and forwards the registration request to an IMS server respectively;
d104: the communication means A, B initiates FeatureKeySync SUBSCRIBE a subscription request to the ip pbx subscribing to the featurekey sync sub-service such as ACD (Automatic Call Distribution) automatic call allocation device functions;
d105: ip pbx identification is an IMS ancillary account advanced service, forwarding a subscription request to an IMS server;
d106: the communication device A initiates FeatureKeySync SUBSCRIBE subscription request to the IPPBX to request FeatureKey Sync sub-service such as ACD (Automatic Call Distribution) account login;
d107: ip pbx identification is an IMS ancillary account advanced service, forwarding a subscription request to an IMS server;
d108: the ACD account is successfully logged in, and the IMS server informs the communication device A through SIP NOTIFY;
d109: the communication device a successfully logs in, and the IMS server notifies the communication device B that a terminal is logged in, and at this time, the communication device B should be in a log-out state, that is, the function synchronization effect is completed.
The embodiment of the invention describes another converged communication method of multi-service association interaction, which realizes service association between the server side IPPBX and the IMS through an external IMS protocol server and an IP PBX server by utilizing auxiliary account logic.
Detailed description of the preferred embodiments
In addition to the system and the method, the embodiment of the invention also describes a converged communication device for multi-service association interaction. Fig. 5 illustrates a block diagram of one embodiment of a converged communication device in accordance with the present invention.
As shown in fig. 5, the converged communication device is used for executing the converged communication method of the multi-service association interaction as described above, and the converged communication device includes a data transceiver unit 31 and a data encapsulation unit 32.
The data transceiver unit 31 is configured to receive a first service data packet sent by the main system platform; and sending the second service data packet to the IPPBX server through the second transmission channel so that the IPPBX server forwards the second service data packet to the IMS server. In one embodiment, the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol.
The data encapsulation unit 32 is configured to encapsulate the first service data packet to obtain a second service data packet.
When fusion communication is needed, the fusion communication device firstly receives a first service data packet sent by a main system platform through a data receiving and transmitting unit 31; next, the first service data packet is encapsulated by a data encapsulation unit 32 to obtain a second service data packet; the second service data packet is then sent to the ip pbx server via the second transmission channel by data transceiver unit 31, so that the ip pbx server forwards the second service data packet to the IMS server.
In one embodiment, the data transceiver unit 31 is further configured to: and acquiring a registration instruction sent by the main system platform, and sending the registration instruction to the IMS server through a first transmission channel so that the IMS server performs first registration according to the registration instruction.
In one embodiment, the converged communication device further includes an interaction unit, where the interaction unit is configured to receive a first service instruction and a registration instruction input by a user; and receiving the feedback data packet sent by the converged communication server group, and sending the feedback data packet to the user.
The embodiment of the invention describes a multi-service association and interaction converged communication device, which realizes service association between a server side IPPBX and an IMS through an external protocol station server and an IP PBX server by utilizing auxiliary account logic.
The foregoing embodiments have been provided for the purpose of illustrating the general principles of the present invention, and are not to be construed as limiting the scope of the invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.
Claims (8)
1. A converged communication system with multi-service association interaction is characterized by comprising a communication device and a converged communication server group, wherein the communication device is in communication connection with the converged communication server group through a first transmission channel and a second transmission channel,
the converged communication server group comprises an IMS server and an IPPBX server, and the IMS server and the IPPBX server are in communication connection;
the communication device comprises a communication module and a main system platform, wherein the communication module comprises an IMS protocol unit and a data processing unit, and the IMS protocol unit comprises a preset built-in IMS protocol; the main system platform comprises an IMS service module, and the IMS service module is in communication connection with the data processing unit;
the IMS protocol unit is in communication connection with an IMS server through a first transmission channel; the data processing unit is in communication connection with the IPPBX server through the second transmission channel;
the converged communication method realized by the converged communication system comprises the following steps: receiving a first service data packet sent by a main system platform, and packaging the first service data packet to obtain a second service data packet; the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol;
and sending the second service data packet to the IPPBX server through the second transmission channel so that the IPPBX server forwards the second service data packet to the IMS server.
2. The converged communication system of claim 1, wherein the first transmission channel is an IMSPDN channel and the second transmission channel is a DATAPDN channel.
3. A converged communication method of multi-service association interactions, wherein the converged communication method is implemented based on the converged communication system of multi-service association interactions of claim 1, and wherein the converged communication method comprises:
receiving a first service data packet sent by a main system platform, and packaging the first service data packet to obtain a second service data packet; the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol;
and sending the second service data packet to the IPPBX server through the second transmission channel so that the IPPBX server forwards the second service data packet to the IMS server.
4. The converged communication method of claim 3, wherein the converged communication method further comprises:
the method comprises the steps of obtaining a registration instruction sent by a main system platform, sending the registration instruction to an IMS server through a first transmission channel, and sending the registration instruction to an IPPBX server through a second transmission channel, so that the IMS server performs first registration according to the registration instruction, and the IPPBX server performs second registration according to the registration instruction.
5. The converged communication method of multi-service associative interactions of claim 3 or 4, further comprising:
and receiving a feedback data packet sent by the converged communication server group, and sending the feedback data packet to the user.
6. A converged communication device for multi-service associative interactions, wherein the converged communication device is configured to perform the converged communication method for multi-service associative interactions of any one of claims 3 to 5, the converged communication device comprising a data transceiver unit and a data encapsulation unit, wherein,
the data receiving and transmitting unit is used for receiving a first service data packet sent by the main system platform; the data encapsulation unit is used for encapsulating the first service data packet to obtain a second service data packet; transmitting the second service data packet to the ip pbx server via the second transmission channel, so that the ip pbx server forwards the second service data packet to the IMS server; and the first service data packet is generated and sent by the main system platform according to a user service instruction input by a user and a preset external IMS protocol.
7. The converged communication device of claim 6, wherein the data transceiver unit is further configured to:
the method comprises the steps of obtaining a registration instruction sent by a main system platform, sending the registration instruction to an IMS server through a first transmission channel, and sending the registration instruction to an IPPBX server through a second transmission channel, so that the IMS server performs first registration according to the registration instruction, and the IPPBX server performs second registration according to the registration instruction.
8. The converged communication device of claim 6 or 7, further comprising an interaction unit for receiving user service instructions and registration instructions input by a user; and receiving the feedback data packet sent by the converged communication server group, and sending the feedback data packet to the user.
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