CN108200542B - Method and device for interconnecting multiple incompatible systems - Google Patents

Abstract

The invention discloses a method, a device and equipment for interconnecting a plurality of incompatible systems, which comprises the following steps: configuring a mapping table in each system, and registering the mapping tables configured in other systems to a first system; when a terminal of a first system or a terminal of a second system initiates a service request, determining a main system identifier corresponding to the service request, determining a first mapping table containing the main system identifier in the first system according to the main system identifier, and determining a third system contained in the service request through the first mapping table; and then, according to the main system identification corresponding to the service request, sending the service request to a third system, determining a second mapping table containing the main system identification in the third system according to the main system identification, and initiating the service request in the third system according to the second mapping table. Therefore, communication of a plurality of incompatible systems is realized in a mapping table mode, and other third equipment does not need to be externally connected, so that the labor and material cost is saved.

Description

Method and device for interconnecting multiple incompatible systems

Technical Field

The present invention relates to the field of communications, and in particular, to a method and an apparatus for interconnecting a plurality of incompatible systems.

Background

With the rapid development of the interphone industry, the fusion scheduling among multiple systems is more and more frequent, for example: the method is characterized in that a DMR (Digital Mobile Radio) system and a virtual cluster system are interconnected, but due to different service attributes of different systems, for example, a DMR conventional system distinguishes time slots, each time slot can use all call ID resources, but the virtual cluster system does not distinguish double real slots, and a channel can be shared, so that the problem that the DMR conventional system and the virtual cluster system cannot be compatible exists, and communication between incompatible systems cannot be directly realized. In the prior art, a third party gateway is generally adopted, namely, incompatible communication among a plurality of systems is realized through an intermediate converter.

However, in the third-party gateway manner, hardware devices need to be additionally configured, so that the deployment cost is increased, an interactive end is additionally added, and the transmission time of communication is increased.

Disclosure of Invention

In view of this, embodiments of the present invention provide a method and an apparatus for interconnecting multiple incompatible systems, which implement communication among multiple incompatible systems in a mapping table manner, and through this manner, no additional third device needs to be externally connected, thereby saving costs of manpower and material resources.

The method for interconnecting a plurality of incompatible systems provided by the embodiment of the invention comprises the following steps:

when a first system receives a service request, determining a first mapping table containing a main system identifier according to the main system identifier corresponding to the service request; the service request is initiated by a terminal of the first system, or the service request is initiated by a terminal of the second system;

determining a third system contained in the service request through the first mapping table;

sending a service request to the third system according to the main system identification corresponding to the service request;

determining a second mapping table containing the main system identification in the third system;

and initiating the service request in the third system according to the second mapping table.

Optionally, if the service request is initiated by the terminal of the first system, the method further includes:

when the first system receives a service request sent by a terminal, determining a first service identifier of the service request;

and determining a main system identifier corresponding to the first service identifier from a mapping table configured by the first system according to the first service identifier.

Optionally, if the service request is initiated by the terminal of the second system, the method further includes:

after the second system receives a service request initiated by a terminal, a second service identifier of the service request is determined;

determining a main system identifier corresponding to the second service identifier in a mapping table configured by the second system;

and sending the service request to the first system according to the main system identification.

Optionally, the initiating the service request in the third system according to the second mapping table includes:

determining a third service identifier and a service attribute of the service request in the third system according to the second mapping table and a main system identifier corresponding to the service request;

and initiating the service request in the third system according to the third service identifier and the service attribute.

Optionally, the method further includes:

configuring a mapping table within the fourth system;

and registering the mapping table of the fourth system into the first system.

Optionally, registering the mapping table of the fourth system in the first system includes:

adding a mapping table of the fourth system to the first system;

and acquiring the communication address of the fourth system, and storing the communication address of the fourth system in the first system.

Optionally, the method further includes:

and configuring a mapping table of service requests in the first system.

Optionally, the mapping table includes: a main system identification, a service attribute and a service identification of the system; the system is a system for configuring the mapping table.

The device for interconnecting a plurality of incompatible systems provided by the embodiment of the invention comprises:

a first determining unit, configured to determine, when a first system receives a service request, a first mapping table including a host system identifier according to the host system identifier corresponding to the service request; the service request is initiated by a terminal of the first system, or the service request is initiated by a terminal of the second system;

a second determining unit, configured to determine, through the first mapping table, a third system included in the service request;

a sending unit, configured to send a service request to the third system according to a main system identifier corresponding to the service request;

a third determining unit, configured to determine, in the third system, a second mapping table including the host system identifier;

a first service initiating unit, configured to initiate the service request in the third system according to the second mapping table.

Optionally, if the service request is initiated by the terminal of the first system, the method further includes:

a fourth determining unit, configured to determine, when the first system receives a service request sent by a terminal, a first service identifier of the service request;

a fifth determining unit, configured to determine, according to the first service identifier, a main system identifier corresponding to the first service identifier from a mapping table configured by the first system.

Optionally, if the service request is initiated by the terminal of the second system, the method further includes:

a sixth determining unit, configured to determine, after the second system receives a service request initiated by a terminal, a second service identifier of the service request;

a seventh determining unit, configured to determine, in a mapping table configured in the second system, a main system identifier corresponding to the second service identifier;

and the second service request initiating unit sends the service request to the first system according to the main system identification.

Optionally, the service request initiating unit includes:

a determining subunit, configured to determine, according to the second mapping table and a main system identifier corresponding to the service request, a third service identifier and a service attribute of the service request in the third system;

and the service request initiating subunit is used for initiating a service request in the third system according to the third service identifier and the service attribute.

Optionally, the method further includes:

a first configuration unit, configured to configure a mapping table in the fourth system;

and the registering unit is used for registering the mapping table of the fourth system into the first system.

Optionally, the registration unit includes:

an adding subunit, configured to add the mapping table of the fourth system to the first system;

and the saving subunit is used for acquiring the communication address of the fourth system and saving the communication address of the fourth system into the first system.

Optionally, the method further includes:

a second configuration unit, configured to configure a mapping table of the service request in the first system.

Optionally, the mapping table includes: a main system identification, a service attribute and a service identification of the system; the system is a system for configuring the mapping table.

An embodiment of the present invention provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processing device, implements the method for interconnecting a plurality of incompatible systems.

The embodiment of the invention also provides another method for interconnecting a plurality of incompatible systems, which comprises the following steps:

selecting one of the plurality of incompatible systems as a host system and the other of the plurality of incompatible systems as an access subsystem;

configuring a mapping table in an incompatible system serving as an access subsystem, wherein the mapping table comprises a main system identifier and a service parameter, the main system identifier is a unique identifier communicated among the incompatible systems, and the service parameter is a parameter related to service request initiation in the incompatible system serving as the access subsystem;

registering, by the incompatible system as an access subsystem, the mapping table with the incompatible system as a host system; and the incompatible system as the main system adds the service parameter related to the service request initiated in the incompatible system as the main system into the mapping table.

The embodiment of the invention also provides a processing device for interconnecting a plurality of incompatible systems, which comprises:

a memory for storing a program;

a processor for executing the program, wherein when the processor executes the program, the processor implements the method for interconnecting a plurality of incompatible systems.

The embodiment of the invention provides a method and a device for interconnecting a plurality of incompatible systems, which comprises the following steps: configuring a mapping table in each system, registering the mapping tables configured in other systems to a first system, when a terminal of the first system or a terminal of a second system initiates a service request, determining a main system identifier corresponding to the service request, determining a first mapping table containing the main system identifier in the first system according to the main system identifier, and determining a third system contained in the service request through the first mapping table; and then, according to a main system identifier corresponding to the service request, sending the service request to the third system, determining a second mapping table containing the main system identifier in the third system according to the main system identifier, and according to the second mapping table, initiating the service request in the third system. Therefore, communication of a plurality of incompatible systems is realized in a mapping table mode, and through the mode, other third equipment does not need to be connected externally, so that the labor and material cost is saved.

In addition, through the mode of the mapping table, not only can the voice communication between a plurality of incompatible systems be realized, but also the data communication between a plurality of incompatible systems can be realized.

Drawings

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

Fig. 1 is a schematic flow chart illustrating a method for interconnecting a plurality of incompatible systems according to an embodiment of the present invention;

FIG. 2 is an interaction diagram illustrating a method for interconnecting a plurality of incompatible systems according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart illustrating a method for interconnecting a plurality of incompatible systems according to an embodiment of the present invention;

FIG. 4 is a further interaction diagram illustrating a method for interconnecting a plurality of incompatible systems according to an embodiment of the present invention;

FIG. 5 illustrates another interaction diagram for interconnection of multiple incompatible systems provided by an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a plurality of incompatible system interconnection apparatuses according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram illustrating a plurality of incompatible system interconnection devices according to an embodiment of the present invention.

Detailed Description

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

In this embodiment, before implementing interconnection of multiple incompatible systems, a relationship between the systems to be interconnected needs to be established, and first, in the multiple systems to be interconnected, it may be determined that one of the systems is a main system and the other systems is a subsystem, and mapping tables of the system are configured in the main system and the subsystems, and the mapping tables of the subsystems are registered in the main system, specifically, referring to fig. 1, the method includes:

selecting one of the plurality of incompatible systems as a host system and the other of the plurality of incompatible systems as an access subsystem;

configuring a mapping table in an incompatible system serving as an access subsystem, wherein the mapping table comprises a main system identifier and a service parameter, the main system identifier is a unique identifier communicated among the incompatible systems, and the service parameter is a parameter related to service request initiation in the incompatible system serving as the access subsystem; the service parameters may include: service attributes and service identifiers;

registering, by the incompatible system as an access subsystem, the mapping table with the incompatible system as a host system; and the incompatible system as the main system adds the service parameter related to the service request initiated in the incompatible system as the main system into the mapping table. In this embodiment, the mapping table includes: the system comprises a main system identification, a service attribute of the system and a service identification. The system is a system configured with a mapping table, the service attribute of the system is system information required for initiating a service in the system, and the service identifier is information for distinguishing different service requests.

Each mapping table is configured according to different service requests, the same service request is in different systems, service identifiers may be different, and service attributes adopted when the service is initiated may also be different, so that the corresponding service request may be initiated in the system according to the service identifiers and the service attributes in the configuration table.

For example, the following steps are carried out: the call in the DMR system is time-slotted, while the virtual trunking system is time-slotted, so the service attributes of the mapping table configured in the DMR system include: time slots and call types; the service attribute in the virtual cluster system only contains the call type; assuming that a mapping table is configured in the DMR system, the mapping table of the DMR system may include: SystemID + Slot + CallType + CallID, where SystemID is a main system identifier, Slot (time Slot) and CallType (call type) are service attributes of the DMR system, and CallID is a call identifier, i.e., a service identifier, of the DMR system; the mapping table of the virtual cluster system may include: SystemID + CallType + CallID, where SystemID is a host system identifier, CallType (call type) is a service attribute of the virtual cluster system, and CallID is a service identifier of the virtual cluster system.

It should be noted that: the main system mark is the number rule of the main system and is the only mark for the contact between the sub-system and the main system, the sub-system can initiate service request to the main system according to the main system mark, the main system can also initiate service request to other sub-systems according to the main system mark, thereby realizing the cross-system service request,

in this embodiment, a subsystem is denoted as a fourth system, and a main system is denoted as a first system, where the fourth system may be a plurality of subsystems, and specifically, the method includes:

configuring a mapping table within the fourth system;

and registering the mapping table of the fourth system into the first system.

Specifically, registering the mapping table of the fourth system in the first system includes:

adding a mapping table of the fourth system to the first system;

and acquiring the communication address of the fourth system, and storing the communication address of the fourth system in the first system.

When the mapping table of the subsystem is registered in the main system, the main system can analyze the communication address of the subsystem by analyzing the registration message and store the analyzed communication address of the subsystem, and specifically, the communication address of the subsystem can also be stored in the mapping table in which the subsystem is registered in the main system. In this embodiment, both the terminal of the main system and the terminal of the subsystem may initiate a service request, and the following describes the scheme of this embodiment with respect to the service request initiated by the main system and the service request initiated by the subsystem:

referring to fig. 1, a flowchart of a method for interconnecting a plurality of incompatible systems according to an embodiment of the present invention is shown, where the method includes:

s101: when the first system receives a service request sent by a terminal, determining a first service identifier of the service request;

in this embodiment, a terminal of a first system initiates a service request to the first system according to a service identifier of the first system, where the first system is the above-mentioned main system.

It should be noted that: the service request comprises: voice traffic and data traffic, etc.

S102: determining a main system identifier corresponding to the service request from a mapping table configured by the first system according to the first service identifier;

as can be seen from the above description, the main system includes, in addition to the mapping table for subsystem registration, a mapping table of the main system that initiates a service request in the main system, and the main system identifier of the first service identifier can be determined from the mapping table of the main system.

For example, the following steps are carried out: assume that the mapping table of the first system configuration is 1100+0+0+ 100; the primary system identifier is 1100, and the service attribute of the first system is 0, for example: when calling in the system, the calling is carried out according to the service identification, 100 is the service identification, and after the first system receives the Call100, the main system identification 1100 of the Call100 can be determined according to the configuration mapping table of the first system.

S103: determining a first mapping table containing the main system identification according to the main system identification corresponding to the service request;

in this embodiment, as can be seen from the above description, the first system includes the mapping table of the configured first system and the mapping tables registered by other systems, and according to the host system identifier, all the first mapping tables including the host system identifier can be found. Wherein, the first mapping table includes: a mapping table of the first system and/or a mapping table of the other system.

For example, the following steps are carried out: assuming that the primary system of the service request is identified as 1100, the configuration table containing 1100 includes: (1100,1,2,100, IP1, Port1), (1100,1,2,100, IP2, Port 2); the IP1 and Port1 are communication addresses of the system 1, and the IP2 and Port2 are communication addresses of the system 2.

S104: determining a third system contained in the service request through the first mapping table;

in this embodiment, the third system includes: the third system may comprise one system or a plurality of systems, all of the systems involved in the service request. The first system is a main system, and the third system can be other subsystems included in the service request; alternatively, the third system may comprise the first system.

In this embodiment, a third system included in the service request is determined through the first mapping table, and a communication address of the third system may also be obtained at the same time.

S105: sending a service request to the third system according to the main system identification corresponding to the service request;

in this embodiment, after the third system including the host system identifier is determined, the communication address of the third system is also determined, and the service request is sent to the third system according to the communication address and the host system identifier corresponding to the service request.

For example, the following steps are carried out: if the host system is identified as 1100, a Call request for Call 1100 may be sent to the third system based on the communication address of the third system.

S106, determining a second mapping table containing the main system identification in the third system;

s107: and initiating the service request in the third system according to the second mapping table.

In this embodiment, the third system includes a mapping table of the third system, and the mapping tables may be mapping tables of different service requests. From these mapping tables, a mapping table containing the identity of the primary system is found. The mapping table includes a service identifier and a service attribute of the service request in the third system, and the service request is initiated in the third system according to the service identifier and the service attribute of the service request in the third system, specifically, S107 includes:

determining a third service identifier and a service attribute of the service request in the third system according to the second mapping table and a main system identifier corresponding to the service request;

and initiating a service request in the third system according to the third service identifier and the service attribute.

For example, the following steps are carried out: as shown in fig. 2, assuming that the service request is a Call request, when a terminal of the first system initiates a Call request of Call100, find a primary system identifier 1100 in a mapping table (1100,0, 100) configured in the first system, and find a mapping table of other systems corresponding to the primary system identifier 1100, for example, including (1100,1,2,100, IP1, Port1), (1100,1,2,200, IP2, Port2), where IP1, Port1 are communication addresses of system 1, IP2, and Port2 are communication addresses of system 2, and respectively send calls of Call 1100 to system 1 and system 2 according to the communication address of system 1 and the communication address of system 2; the system 1 and the system 2 find corresponding mapping tables according to the main system identifier 1100, which is (1100,1,2,100) in the system 1 and is (1100,1,2,100) in the system 2, and the system 1 and the system 2 can initiate an intra-system Call according to the service identifier and the service attribute of the mapping table including 1100 in the system, for example, the system 1 can initiate an intra-system Call of the Call100, and the system 2 can initiate an intra-system Call of the Call 200.

In this embodiment, after a terminal of a first system initiates a service request, a first mapping table including a main system identifier is determined according to a mapping table included in the first system and a main system identifier of the service request, and all systems related to the service request are found through the first mapping table. Therefore, communication of a plurality of incompatible systems is realized in a mapping table mode, and through the mode, other third equipment does not need to be connected externally, so that the labor and material cost is saved.

In addition, through the mode of the mapping table, not only can the voice communication between a plurality of incompatible systems be realized, but also the data communication between a plurality of incompatible systems can be realized.

Referring to fig. 3, a flow diagram of a method for interconnecting a plurality of incompatible systems according to an embodiment of the present invention is shown for a service request initiated by a second system, where the method includes:

s301: after the second system receives a service request initiated by a terminal, a second service identifier of the service request is determined;

in this embodiment, the second system is any subsystem that registers a mapping table in the first system.

In the second system, different service requests are represented by different service identifiers, and after receiving a service request initiated by a terminal, the service identifier can be determined according to the service request.

S302: determining a main system identifier corresponding to the second service identifier in a mapping table configured by the second system;

in this embodiment, each second system is configured with a mapping table for different service requests, and the main system identifier corresponding to the second service identifier may be determined in the relevant mapping table through the second service identifier.

S303: sending the service request to the first system according to the main system identification;

the service request can be initiated to the first system through the main system identification, and then the service request is initiated to all systems related to the service request through the main system identification, so that communication of a plurality of incompatible systems is realized.

S304: when a first system receives a service request, determining a first mapping table containing a main system identifier according to the main system identifier corresponding to the service request;

wherein S304 in this embodiment is the same as S103 in the above embodiment, and is not described herein again.

S305: determining a third system contained in the service request through the first mapping table;

s305 in this embodiment is the same as S104 in the above embodiment, and is not described herein again.

S306: sending a service request to the third system according to the main system identification corresponding to the service request;

s306 in this embodiment is the same as S105 in the above embodiment, and is not described herein again.

S307: determining a second mapping table containing the main system identification in the third system;

s307 in this embodiment is the same as S106 in the above embodiment, and is not described herein again.

S308: and initiating the service request in the third system according to the second mapping table.

Wherein S308 in this embodiment is the same as S107 in the above embodiment, and is not described herein again.

For example, the following steps are carried out: as shown in fig. 4, assuming that the service request is a Call request, after a terminal of the second system initiates a Call request of Call100, a main system identifier 1100 is found in a mapping table (1100,1,2,100) configured in the second system, and a Call request is initiated to the first system according to the main system identifier 1100, and after the first system receives the Call of 1100, a mapping table of a third system corresponding to the main system identifier 1100 is found, for example, the mapping table of the third system includes (1100,1,2,100, IP1, Port1), (1100,1,2,200, IP2, Port2), which can be understood as that the third system includes two systems, i.e., system 1 and system 2, respectively, where IP1, Port1 are communication addresses of system 1, IP2, Port2 is a communication address of system 2, and a Call request of Call 1100 is sent to system 1 and system 2 according to the communication addresses of system 1 and system 2; system 1 and system 2 find the corresponding mapping table according to the primary system identifier 1100, which is (1100,1,2,100) in system 1 and (1100,1,2,200) in system 2, and system 1 and system 2 can initiate the call in the system according to the service identifier and the service attribute of the mapping table containing 1100 in the system.

In this embodiment, after a terminal of the second system initiates a service request, a main system identifier corresponding to a third service identifier in the second system is found according to the service request and the mapping table configured in the second system, and the service request is initiated to the first system according to the system identifier. After receiving the service request, the first system determines a first mapping table containing a main system identifier, finds all systems related to the service request through the first mapping table, in this embodiment, the third system represents all systems related to the service request, and sends the service request to the third system through the main system identifier, after receiving the service request, the third system finds a second mapping table containing the main system identifier according to the main system identifier, and initiates the service request in the third system according to a third service identifier and a service attribute of the service request contained in the second mapping table. Therefore, communication of a plurality of incompatible systems is realized in a mapping table mode, and through the mode, other third equipment does not need to be connected externally, so that the labor and material cost is saved.

In addition, through the mode of the mapping table, not only can the voice communication between a plurality of incompatible systems be realized, but also the data communication between a plurality of incompatible systems can be realized.

Referring to fig. 5, an interaction diagram illustrating interconnection of multiple incompatible systems according to an embodiment of the present invention is shown, including:

s501: when a first system receives a service request, determining a first mapping table containing a main system identifier according to the main system identifier corresponding to the service request; the service request is initiated by a terminal of the first system, or the service request is initiated by the second system;

as shown in fig. 5, the dotted line indicates that the service request may be initiated by the terminal of the first system, that is, the terminal of the first system initiates the service request to the first system; or the second system initiates, that is, after the terminal of the second system initiates the service request to the second system, the second system initiates the service request to the first system according to the main system identifier.

And if the service request is initiated by the terminal of the first system, determining the main system identifier according to the service identifier of the service request. If the service request is initiated by the terminal of the second system, the main system identifier can be determined according to the second service identifier when the service request is initiated to the second system, and the service request is initiated to the main system according to the main system identifier.

S502: determining a third system contained in the service request through the first mapping table;

s503: sending a service request to the third system according to the main system identification corresponding to the service request;

s504: determining a second mapping table containing the main system identification in the third system;

s505: and initiating the service request in the third system according to the second mapping table.

The method of the embodiment realizes the communication of a plurality of incompatible systems in a mapping table mode, and through the mode, other third equipment does not need to be externally connected, so that the cost of manpower and material resources is saved.

In addition, through the mode of the mapping table, not only can the voice communication between a plurality of incompatible systems be realized, but also the data communication between a plurality of incompatible systems can be realized.

Referring to fig. 6, a schematic structural diagram of a multiple incompatible system interconnection apparatus provided in an embodiment of the present invention is shown, where in this embodiment, the apparatus includes:

a first determining unit 601, configured to determine, when a first system receives a service request, a first mapping table including a host system identifier according to the host system identifier corresponding to the service request; the service request is initiated by a terminal of the first system, or the service request is initiated by the second system;

a second determining unit 602, configured to determine, through the first mapping table, a third system included in the service request;

a sending unit 603, configured to send a service request to the third system according to a main system identifier corresponding to the service request;

a third determining unit 604, configured to determine, in the third system, a second mapping table including the host system identifier;

a first service request initiating unit 605, configured to initiate the service request in the third system according to the second mapping table.

Optionally, the method further includes:

if the service request is initiated by the terminal of the first system, the method further includes:

a fourth determining unit, configured to determine, when the first system receives a service request sent by a terminal, a first service identifier of the service request;

a fifth determining unit, configured to determine, according to the first service identifier, a main system identifier corresponding to the first service identifier from a mapping table configured by the first system.

Optionally, if the service request is initiated by the second system, the method further includes:

a sixth determining unit, configured to determine, after the second system receives a service request initiated by a terminal, a second service identifier of the service request;

a seventh determining unit, configured to determine, in a mapping table configured in the second system, a main system identifier corresponding to the second service identifier;

and the second service request initiating unit sends the service request to the first system according to the main system identification.

Optionally, the service request initiating unit includes:

a determining subunit, configured to determine, according to the second mapping table and a main system identifier corresponding to the service request, a third service identifier and a service attribute of the service request in the third system;

and the first service initiating subunit is used for initiating the service request in the third system according to the third service identifier and the service attribute.

Optionally, the method further includes:

a first configuration unit, configured to configure a mapping table in the fourth system;

and the registering unit is used for registering the mapping table of the fourth system into the first system.

Optionally, the registration unit includes:

an adding subunit, configured to add the mapping table of the fourth system to the first system;

and the saving subunit is used for acquiring the communication address of the fourth system and saving the communication address of the fourth system into the first system.

Optionally, the method further includes:

a second configuration unit, configured to configure a mapping table of the service request in the first system.

Optionally, the mapping table includes: a main system identification, a service attribute and a service identification of the system; the system is a system for configuring the mapping table.

Through the device of the embodiment, the communication of a plurality of incompatible systems is realized in a mapping table mode, and through the mode, other third equipment does not need to be connected externally, so that the labor and material cost is saved. In addition, by means of the mapping table, not only can voice communication between a plurality of incompatible systems be realized, but also data communication between a plurality of incompatible systems can be realized.

An embodiment of the present invention provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processing device, implements a method for interconnecting a plurality of incompatible systems.

Referring to fig. 7, a schematic structural diagram of a device for interconnecting a plurality of incompatible systems according to an embodiment of the present invention is shown, where the device includes:

a memory 701 for storing a program;

the processor 702 is configured to run the program, and specifically, when the processor executes the program, the following steps are implemented:

when a first system receives a service request, determining a first mapping table containing a main system identifier according to the main system identifier corresponding to the service request; the service request is initiated by a terminal of the first system, or the service request is initiated by the second system;

determining a third system contained in the service request through the first mapping table;

sending a service request to the third system according to the main system identification corresponding to the service request;

determining a second mapping table containing the main system identification in the third system;

and initiating the service request in the third system according to the second mapping table.

Optionally, if the service request is initiated by the terminal of the first system, the method further includes:

when the first system receives a service request sent by a terminal, determining a first service identifier of the service request;

and determining a main system identifier corresponding to the first service identifier from a mapping table configured by the first system according to the first service identifier.

Optionally, if the service request is initiated by the second system, the method further includes:

after the second system receives a service request initiated by a terminal, a second service identifier of the service request is determined;

determining a main system identifier corresponding to the second service identifier in a mapping table configured by the second system;

and sending the service request to the first system according to the main system identification.

Optionally, the initiating the service request in the third system according to the second mapping table includes:

determining a third service identifier and a service attribute of the service request in the third system according to the second mapping table and a main system identifier corresponding to the service request;

and initiating a service request in the third system according to the third service identifier and the service attribute.

Optionally, the method further includes:

configuring a mapping table within the fourth system;

and registering the mapping table of the fourth system into the first system.

Optionally, registering the mapping table of the fourth system in the first system includes:

adding a mapping table of the fourth system to the first system;

and acquiring the communication address of the fourth system, and storing the communication address of the fourth system in the first system.

Optionally, the method further includes:

and configuring a mapping table of service requests in the first system.

Optionally, the mapping table includes: a main system identification, a service attribute and a service identification of the system; the system is a system for configuring the mapping table.

The device in this embodiment may be a base station, a relay station, a server, and the like.

The memory in the device of this embodiment may include forms of volatile memory, Random Access Memory (RAM), and/or nonvolatile memory in a computer-readable storage medium, such as read only memory (rom) or flash memory (false RAM), and the memory includes at least one memory chip.

The device of the embodiment realizes communication of a plurality of incompatible systems in a mapping table mode, and through the mode, other third devices do not need to be connected externally, so that the labor and material cost is saved.

In addition, through the mode of the mapping table, not only can the voice communication between a plurality of incompatible systems be realized, but also the data communication between a plurality of incompatible systems can be realized.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (19)

1. A method for interconnecting a plurality of incompatible systems, comprising:

when a first system receives a service request, determining a first mapping table containing a main system identifier corresponding to the service request according to the main system identifier corresponding to the service request; the service request is initiated by a terminal of the first system, or the service request is initiated by a terminal of a second system; the first mapping table includes a mapping table of the first system and/or a mapping table registered by other systems, the mapping table of the first system includes a mapping relationship between a main system identifier and a service parameter, and the service parameter is a parameter related to the service request; the mapping table registered by the other system comprises a mapping relation between a main system identifier and the communication address of the other system;

determining a third system contained in the service request through the first mapping table;

sending a service request to the third system according to the main system identification corresponding to the service request;

determining a second mapping table containing the main system identifier in the third system, wherein the second mapping table contains the service identifier and the service attribute of the service request in the third system;

and initiating the service request in the third system according to the service identifier and the service attribute corresponding to the main system identifier in the second mapping table.

2. The method of claim 1, wherein if the service request is initiated by the terminal of the first system, further comprising:

when the first system receives a service request sent by a terminal, determining a first service identifier of the service request;

and determining a main system identifier corresponding to the first service identifier from a mapping table configured by the first system according to the first service identifier.

3. The method of claim 1, wherein if the service request is initiated by the terminal of the second system, further comprising:

after the second system receives a service request initiated by a terminal, a second service identifier of the service request is determined;

determining a main system identifier corresponding to the second service identifier in a mapping table configured by the second system;

and sending the service request to the first system according to the main system identification.

4. The method according to claim 1, wherein said initiating the service request in the third system according to the service identifier and the service attribute corresponding to the primary system identifier in the second mapping table comprises:

determining a third service identifier and a service attribute of the service request in the third system according to the second mapping table and a main system identifier corresponding to the service request;

and initiating the service request in the third system according to the third service identifier and the service attribute.

5. The method of claim 1, further comprising:

configuring a mapping table in the fourth system;

and registering the mapping table of the fourth system into the first system.

6. The method of claim 5, wherein registering the mapping table of the fourth system with the first system comprises:

adding a mapping table of the fourth system to the first system;

and acquiring the communication address of the fourth system, and storing the communication address of the fourth system in the first system.

7. The method of claim 1, further comprising:

and configuring a mapping table of service requests in the first system.

8. The method according to any of claims 1-7, wherein the mapping table comprises: a main system identification, a service attribute and a service identification of the system; the system is a system for configuring the mapping table.

9. An apparatus for interconnecting a plurality of incompatible systems, comprising:

a first determining unit, configured to determine, when a first system receives a service request, a first mapping table including a host system identifier corresponding to the service request according to the host system identifier corresponding to the service request; the service request is initiated by a terminal of the first system, or the service request is initiated by a terminal of a second system; the first mapping table includes a mapping table of the first system and/or a mapping table registered by other systems, the mapping table of the first system includes a mapping relationship between a main system identifier and a service parameter, and the service parameter is a parameter related to the service request; the mapping table registered by the other system comprises a mapping relation between a main system identifier and the communication address of the other system;

a second determining unit, configured to determine, through the first mapping table, a third system included in the service request;

a sending unit, configured to send a service request to the third system according to a main system identifier corresponding to the service request;

a third determining unit, configured to determine, in the third system, a second mapping table including the host system identifier, where the second mapping table includes a service identifier and a service attribute of the service request in the third system;

a first service request initiating unit, configured to initiate the service request in the third system according to the service identifier and the service attribute corresponding to the main system identifier in the second mapping table.

10. The apparatus of claim 9, wherein if the service request is initiated by the terminal of the first system, further comprising:

a fourth determining unit, configured to determine, when the first system receives a service request sent by a terminal, a first service identifier of the service request;

a fifth determining unit, configured to determine, according to the first service identifier, a main system identifier corresponding to the first service identifier from a mapping table configured by the first system.

11. The apparatus of claim 9, wherein if the service request is initiated by the terminal of the second system, further comprising:

a sixth determining unit, configured to determine, after the second system receives a service request initiated by a terminal, a second service identifier of the service request;

a seventh determining unit, configured to determine, in a mapping table configured in the second system, a main system identifier corresponding to the second service identifier;

and the second service request initiating unit sends the service request to the first system according to the main system identification.

12. The apparatus of claim 9, wherein the first service request initiation unit comprises:

a determining subunit, configured to determine, according to the second mapping table and a main system identifier corresponding to the service request, a third service identifier and a service attribute of the service request in the third system;

and the service request initiating subunit is used for initiating the service request in the third system according to the third service identifier and the service attribute.

13. The apparatus of claim 9, further comprising:

the first configuration unit is used for configuring a mapping table in the fourth system;

and the registering unit is used for registering the mapping table of the fourth system into the first system.

14. The apparatus of claim 13, wherein the registration unit comprises:

an adding subunit, configured to add the mapping table of the fourth system to the first system;

and the saving subunit is used for acquiring the communication address of the fourth system and saving the communication address of the fourth system into the first system.

15. The apparatus of claim 9, further comprising:

a second configuration unit, configured to configure a mapping table of the service request in the first system.

16. The apparatus according to any of claims 9-15, wherein the mapping table comprises: a main system identification, a service attribute and a service identification of the system; the system is a system for configuring the mapping table.

17. A method for interconnecting a plurality of incompatible systems, comprising:

selecting one of the plurality of incompatible systems as a host system and the other of the plurality of incompatible systems as an access subsystem;

configuring a mapping table in an incompatible system serving as an access subsystem, wherein the mapping table comprises a main system identifier and a service parameter, the main system identifier is a unique identifier communicated among the incompatible systems, and the service parameter is a parameter related to service request initiation in the incompatible system serving as the access subsystem;

registering, by the incompatible system as an access subsystem, the mapping table with the incompatible system as a host system; and the incompatible system as the main system adds the service parameter related to the service request initiated in the incompatible system as the main system into the mapping table.

18. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processing device, carries out the method of any one of claims 1 to 8.

19. A processing device interconnected by a plurality of incompatible systems, said device comprising:

a memory for storing a program;

a processor for executing the program, the processor implementing the method of any one of claims 1-8 when the processor executes the program.

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