CN102447977A - Intelligent network equipment self networking system and method - Google Patents

Abstract

The invention discloses an intelligent network equipment self networking system and a method. The system comprises an intelligent network equipment self-organized network open protocol INAN (INAuto-Networking) server which is used for receiving INAN request information transmitted by an INAN client terminal, generating intelligent network networking configuration information according to the INAN request information and an intelligent network configuration parameter table which is locally stored, and transmitting the intelligent network networking configuration information to the INAN client terminal through an INAN response message, the INAN client terminal which is positioned in equipment, is used for transmitting INAN request information to an INAN server when the equipment is started, receiving the INAN response message which contains the intelligent network networking configuration information and is transmitted by the INAN server, and starting the equipment according to the intelligent network networking configuration information so as to establish a business channel. By the technical scheme disclosed by the invention, the plug and play function of the equipment can be provided for an intelligent network, the configuration process is simplified through reducing the repeating and coupling operation in an intelligent network configuration process, the configuration reliability is improved, and the difficulty in the construction and the maintenance of the intelligent network is reduced.

Description

Intelligent network equipment self-networking system and method

Technical Field

The invention relates to the technical field of intelligent networks, in particular to an intelligent network equipment ad hoc network system and an intelligent network equipment ad hoc network method.

Background

An Intelligent Network (IN) is a Network architecture that quickly, economically, conveniently, and efficiently generates and provides Intelligent services over a communications Network. The IN is an additional network structure which is set for providing new services for users on the basis of the original communication network, and the IN is characterized IN that the switching function and the control function of the network are separated. The intelligent network technology is adopted in the original communication network, so that the new mobile service with strong service characteristics, comprehensive functions, flexibility and changeability can be provided for users, and the method has great market demand.

An intelligent network is composed of multiple network elements, and one-to-one, one-to-many or many-to-many data control channels are provided among the network elements, and supporting service operation such as interaction protocol and flag field is assigned based on each channel. In the prior art, the conventional intelligent network configuration provides the above functions through local configuration files. Fig. 1 is a schematic diagram of networking and configuration of an intelligent network in the prior art, and as shown in fig. 1, the intelligent network includes a gateway, a media server, and an application server, and as can be seen from fig. 1, configuration parameters are stored locally in each intelligent network device, which is not beneficial to centralized management, and cannot quickly acquire the topology of the entire intelligent network. In addition, configuration information in each device is repeated, and the same flag field needs to be repeatedly configured on different devices; the local configuration is strongly coupled with the intelligent network topology, for example, the media server is accessed, not only the information of the gateway is configured locally, but also the information of a Text To Speech (TTS) server is configured; in addition, the local configuration has strong coupling with other devices, for example, the media server is configured as "not support TTS service", and if the service needs to support TTS, the application server needs to be additionally configured as "directly connect to TTS server".

It can be seen from the above description that the traditional intelligent network networking and configuration mode in the prior art has high operation complexity, and the intelligent network configuration is difficult to build.

Disclosure of Invention

The invention provides an intelligent network equipment ad hoc network system and a method thereof, which aim to solve the problems of high operation complexity of intelligent network networking and configuration modes and difficult intelligent network configuration and establishment in the prior art.

The invention provides an intelligent network equipment ad hoc network system, comprising:

the intelligent network equipment ad hoc network open protocol INAN server is used for receiving an INAN request message sent by an INAN client, generating intelligent network configuration information according to the INAN request message and a locally stored intelligent network configuration parameter table, and sending the intelligent network configuration information to the INAN client through an INAN response message;

and the INAN client is positioned in the equipment and used for sending an INAN request message to the INAN server when the equipment is started, receiving an INAN response message which is sent by the INAN server and carries the networking configuration information of the intelligent network, starting the equipment according to the networking configuration information of the intelligent network and establishing a service channel.

The invention also provides an intelligent network equipment ad hoc network method, which comprises the following steps:

the INAN client sends an INAN request message to an INAN server when the equipment is started;

the INAN server receives the INAN request message, generates intelligent network networking configuration information according to the INAN request message and a locally stored intelligent network configuration parameter table, and sends the intelligent network networking configuration information to the INAN client through an INAN response message;

the INAN client receives an INAN response message which is sent by the INAN server and carries the networking configuration information of the intelligent network, starts equipment according to the networking configuration information of the intelligent network and establishes a service channel.

The invention has the following beneficial effects:

the intelligent network equipment topology and interactive configuration information are managed and controlled in a centralized mode by setting the INAN server, the configuration information of the intelligent network equipment is generated by the INAN server and is issued to the intelligent network equipment to replace a traditional local dispersion mode of intelligent network configuration, the problems that the operation complexity of intelligent network networking and configuration modes is high and the intelligent network configuration is difficult to build in the prior art are solved, the plug and play function of the equipment can be provided for the intelligent network, the configuration process is simplified by reducing the repeated and coupled operations in the intelligent network configuration process, the reliability of the configuration process is improved, and the difficulty in building and maintaining the intelligent network is reduced.

Drawings

FIG. 1 is a schematic diagram of a prior art manner of networking and configuring an intelligent network;

fig. 2 is a schematic structural diagram of an ad hoc network system of an intelligent network device according to an embodiment of the present invention;

fig. 3 is a schematic diagram of an INAN server deployed outside an intelligent network according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an intelligent network configuration according to an embodiment of the present invention;

fig. 5 is a signaling flow diagram of an INAN-based intelligent network networking of an embodiment of the present invention;

fig. 6 is a flowchart of an ad hoc network method of an intelligent network device according to an embodiment of the present invention.

Detailed Description

In order to solve the problems of high complexity of operation of intelligent network networking and configuration modes and difficulty in building intelligent network configuration in the prior art, the invention provides an intelligent network equipment ad hoc network system and a method thereof, and the invention is further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

System embodiment

According to an embodiment of the present invention, an intelligent network device ad hoc network system is provided, fig. 2 is a schematic structural diagram of the intelligent network device ad hoc network system according to the embodiment of the present invention, as shown in fig. 2, the intelligent network device ad hoc network system according to the embodiment of the present invention includes: an intelligent network equipment ad-hoc network open protocol (INAN) server 20, and an INAN client 22.

First, an embodiment of the present invention provides an intelligent network device ad hoc network open protocol INAN, where INAN is a full network deployment protocol within an intelligent network, and adopts a client request-server response interaction mode. The technical solutions of the embodiments of the present invention are all based on the protocol, and the INAN specifies the device role, the device role IP address, and the like, and in practical applications, the protocol may be extended according to the needs of the client, for example, the number of configuration parameter units, for example, Type Length Value (TLV), in the interaction message is extended.

The technical solutions of the embodiments of the present invention will be described in detail below.

The INAN server 20 is configured to receive an INAN request message sent by the INAN client 22, generate intelligent network configuration information according to the INAN request message and a locally stored intelligent network configuration parameter table, and send the intelligent network configuration information to the INAN client 22 through an INAN response message;

it should be noted that the INAN server 20 needs to preset an intelligent network access rule according to configuration, where the access rule includes: inter-device interaction protocols, connection ports, etc.

After the INAN server 20 receives the INAN request message sent by the INAN client 22, the INAN server 20 may preferably also confirm the validity of the device according to the INAN request message. In addition, the INAN server 20 may also confirm the device coupled to the device that has been accessed to the intelligent network device according to the INAN request message, and send an INAN update message to the coupled device to update the intelligent network configuration information of the device.

The INAN client 22 is located in the device, and configured to send an INAN request message to the INAN server 20 when the device is started, receive an INAN response message that is sent by the INAN server 20 and carries the configuration information of the intelligent network, start the device according to the configuration information of the intelligent network, and establish a service channel.

In particular, the INAN client 22 needs to fill in the INAN request message one or more inter-device interaction protocols supported by the device. The INAN server 20 judges whether an access rule is supported according to one or more inter-device interaction protocols in the INAN request message; if the INAN server 20 judges that the connection is the intelligent network, the INAN client side is allowed to access the intelligent network, and the appointed equipment-to-equipment exchange protocol and the appointed connection port are sent to the INAN client side through an INAN response message; if the INAN server 20 judges that the connection is not established, the INAN client is refused to access the intelligent network, and the refusing reason is sent to the INAN client through an INAN response message.

The INAN client 22 starts the device host process when determining that the INAN response message agrees to access the intelligent network, and the host process establishes a connection start protocol interface and a service channel according to the specified inter-device exchange protocol and the specified connection port specified in the INAN response message.

It should be noted that, in the embodiment of the present invention, for the deployment of the INAN server 20, the INAN server 20 may be located (deployed) in an intelligent network, and is combined with a service management point in the intelligent network, and receives a management function of the service management point to provide a service for the intelligent network; alternatively, the INAN server 20 may be located (deployed) outside an intelligent network to provide services for multiple intelligent networks. Fig. 3 is a schematic diagram of an INAN server deployed outside an intelligent network according to an embodiment of the present invention, and as shown in fig. 3, if the INAN server is deployed outside the intelligent network, a plurality of intelligent networks may be provided with services.

Furthermore, preferably, the INAN main interaction message mainly includes: request messages, response messages, update messages, INAN interaction messages should be of uniform format to improve compatibility, but also allow vendors to formulate proprietary interaction message formats. Wherein the INAN request message consists of one or more type length content TLVs; the INAN response message and INAN update message may consist of a text protocol or consist of one or more type length content TLVs. In the embodiment of the invention, the INAN protocol has expansibility, the INAN protocol message adopts a plurality of TLV combination modes, and the new equipment and functions are realized by adding or modifying TLVs without re-formulating the message format.

The embodiment of the invention introduces the INAN server into the intelligent network for centralized management and control of topology and interactive configuration information of the intelligent network equipment, and the configuration information of the intelligent network equipment is generated by the INAN server and is issued to the intelligent network equipment to replace the traditional local dispersion mode of intelligent network configuration, thereby reducing the complicated and repeated operation in the configuration process and reducing the difficulty of intelligent network construction and maintenance.

In the following, an intelligent network Service Control Point (Service Control Point, abbreviated as SCP) is taken as an example to illustrate an INAN interaction process of accessing a device to an intelligent network, and it should be noted that the message form and the bearer protocol described in this example are only used for reference.

Fig. 4 is a schematic diagram of an intelligent network configuration according to an embodiment of the present invention, and as shown in fig. 4, the device roles in the environment include: an application server (hereinafter abbreviated as AppServer) to be accessed into an intelligent network, an application server accessed into the intelligent network, a Parlay gateway accessed into the intelligent network, an INAN server and a media server. Assume that the INAN server has completed initialization and has accessed a device other than the AppServer. Fig. 5 is a signaling flow chart of an INAN-based intelligent network networking according to an embodiment of the present invention, and as shown in fig. 5, a process of accessing an AppServer to an intelligent network is as follows:

step 1, modifying an AppServer local configuration file, and setting an INAN server address, an intelligent network number and an authentication ciphertext; and starting an AppServer initialization process, and establishing local connection to the INAN server by the process according to the local configuration parameters. The AppServer initialization process constructs an INAN Request message, and the content contained in the INAN Request message is shown in table 1, wherein the message comprises a plurality of TLVs, each TLV provides characteristic information of local equipment for an INAN server, and one INAN Request message can contain a plurality of TLVs.

TABLE 1

Step 2, the INAN server receives the INAN Request message, if the information is enabled, intelligent network numbering and cipher text authentication are carried out to determine the validity of the equipment, the INAN server refers to an intelligent network configuration parameter table stored in the internal to respond to the INAN Response message, and the table 2 is the content contained in the INAN Response message;

TABLE 2

And 3, the INAN server finds a coupled device Parlay gateway in the accessed device according to the device role in the INAN Request message and sends an INAN Update message to the coupled device Parlay gateway, and the Parlay gateway updates the local service according to the local configuration difference carried by the comparison message after receiving the INAN Update message. The INAN Response and INAN Update messages need not be in the form of TLVs, they may be delivered to the destination device in a text protocol, such as an html script.

It should be noted that the INAN Update message is an active Update, the INAN Update message is used for actively updating the device configuration for the INAN server, and the INAN Update message is similar to the message format definition of the Response message of the passive Update.

And 4, after the AppServer initialization process receives the INAN Response message, if the result status TLV returns success, the equipment main process is started, and the main process establishes a connection starting protocol interface according to the topology interactive configuration of the relevant equipment brought back by the TLV in the message.

And step 5, completing the interaction of the INAN message, finishing the connection between the AppServer and the Parlay gateway and the preparation of the protocol interface, and establishing a service channel with the Parlay gateway after the AppServer service is started.

It can be seen from the above processing that, in the embodiment of the present invention, the ina server is configured to centrally manage and control topology and interaction configuration information of the intelligent network device, and the configuration information of the intelligent network device is generated by the ina server and is issued to the intelligent network device, instead of a local dispersion mode of a conventional intelligent network configuration, thereby solving the problems of high complexity of operation of an intelligent network networking and configuration mode and difficulty in setting up the intelligent network configuration in the prior art, providing a plug and play function of the device for the intelligent network, simplifying a configuration process by reducing repetition and coupling operations in the intelligent network configuration process, improving reliability of the configuration process, reducing difficulty in setting up and maintaining the intelligent network, and automatically completing a network entry process of the intelligent network device in an interaction mode instead of manual operation.

Method embodiment

According to an embodiment of the present invention, an intelligent network device ad hoc network method is provided, fig. 6 is a flowchart of the intelligent network device ad hoc network method according to the embodiment of the present invention, as shown in fig. 6, the intelligent network device ad hoc network method according to the embodiment of the present invention includes the following processes:

step 601, the INAN client sends an INAN request message to an INAN server when the equipment is started;

step 602, the INAN server receives the INAN request message, generates the intelligent network configuration information according to the INAN request message and the locally stored intelligent network configuration parameter table, and sends the intelligent network configuration information to the INAN client through an INAN response message;

it should be noted that the INAN server needs to preset an intelligent network access rule according to configuration, where the access rule includes: inter-device interaction protocols, connection ports, etc.

After the INAN server receives the INAN request message sent by the INAN client, the INAN server may preferably confirm the validity of the device according to the INAN request message. In addition, the INAN server can also confirm the equipment coupled with the equipment accessed into the intelligent network equipment according to the INAN request message, and send an INAN updating message to the coupled equipment to update the intelligent network networking configuration information of the equipment.

Step 603, the INAN client receives an INAN response message carrying the configuration information of the intelligent network sent by the INAN server, starts the device according to the configuration information of the intelligent network, and establishes a service channel.

Specifically, the INAN client needs to fill in the INAN request message one or more inter-device interaction protocols supported by the device. The INAN server judges whether an access rule is supported or not according to one or more inter-device interaction protocols in the INAN request message; the INAN server agrees to access the intelligent network by the INAN client under the condition that the judgment is yes, and sends the appointed equipment-to-equipment exchange protocol and the appointed connection port to the INAN client through an INAN response message; and under the condition that the INAN server judges that the connection is not established, the INAN client is refused to access the intelligent network, and the refusing reason is sent to the INAN client through an INAN response message.

And the INAN client starts a device main process under the condition that the INAN response message is determined to be approved to access the intelligent network, and the main process establishes a connection starting protocol interface and a service channel according to the specified inter-device exchange protocol and the specified connection port in the INAN response message.

It should be noted that, in the embodiment of the present invention, for the deployment of the INAN server, the INAN server may be located (deployed) in the intelligent network, and is combined with the service management point in the intelligent network, and receives the management function of the service management point to provide a service for the intelligent network; alternatively, the INAN server may be located (deployed) outside an intelligent network to provide services for multiple intelligent networks. As shown in fig. 3, if the INAN server is deployed outside an intelligent network, it can provide services for a plurality of intelligent networks.

Furthermore, preferably, the INAN main interaction message mainly includes: request messages, response messages, update messages, INAN interaction messages should be of uniform format to improve compatibility, but also allow vendors to formulate proprietary interaction message formats. Wherein the INAN request message consists of one or more type length content TLVs; the INAN response message and INAN update message may consist of a text protocol or consist of one or more type length content TLVs. In the embodiment of the invention, the INAN protocol has expansibility, the INAN protocol message adopts a plurality of TLV combination modes, and the new equipment and functions are realized by adding or modifying TLVs without re-formulating the message format.

Fig. 5 is a signaling flow chart of an INAN-based intelligent network networking according to an embodiment of the present invention, and as shown in fig. 5, a process of accessing an AppServer to an intelligent network is as follows:

step 1, modifying an AppServer local configuration file, and setting an INAN server address, an intelligent network number and an authentication ciphertext; and starting an AppServer initialization process, and establishing local connection to the INAN server by the process according to the local configuration parameters. The AppServer initialization process constructs an INAN Request message, and the content contained in the INAN Request message is shown in table 1, wherein the message comprises a plurality of TLVs, each TLV provides characteristic information of local equipment for an INAN server, and one INAN Request message can contain a plurality of TLVs.

TABLE 1

Step 2, the INAN server receives the INAN Request message, if the information is enabled, intelligent network numbering and cipher text authentication are carried out to determine the validity of the equipment, the INAN server refers to an intelligent network configuration parameter table stored in the internal to respond to the INAN Response message, and the table 2 is the content contained in the INAN Response message;

TABLE 2

And 3, the INAN server finds a coupled device Parlay gateway in the accessed device according to the device role in the INAN Request message and sends an INAN Update message to the coupled device Parlay gateway, and the Parlay gateway updates the local service according to the local configuration difference carried by the comparison message after receiving the INAN Update message. It should be noted that the INAN Response and INAN Update messages need not be in the form of TLVs, and they may be delivered to the destination device in a text protocol, such as html script.

It should be noted that the INAN Update message is similar to the Response message, and functions to actively Update the device configuration by the INAN server.

And 4, after the AppServer initialization process receives the INAN Response message, if the result status TLV returns success, the equipment main process is started, and the main process establishes a connection starting protocol interface according to the topology interactive configuration of the relevant equipment brought back by the TLV in the message.

And step 5, completing the interaction of the INAN message, finishing the connection between the AppServer and the Parlay gateway and the preparation of the protocol interface, and establishing a service channel with the Parlay gateway after the AppServer service is started.

In summary, the embodiment of the present invention sets the INAN server to centrally manage and control topology and interaction configuration information of the intelligent network device, and the configuration information of the intelligent network device is generated by the INAN server and is sent to the intelligent network device, instead of the local distributed manner of the conventional intelligent network configuration, thereby solving the problems of high complexity of operation of the intelligent network networking and configuration manner and difficulty in building the intelligent network configuration in the prior art, providing a plug and play function for the intelligent network device, simplifying the configuration process by reducing repetition and coupling operation in the intelligent network configuration process, improving reliability of the configuration process, reducing difficulty in building and maintaining the intelligent network, and automatically completing the network entering process of the intelligent network device in an interactive manner instead of manual operation.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, and the scope of the invention should not be limited to the embodiments described above.

Claims (10)

1. An intelligent network device ad hoc network system, comprising:

the intelligent network equipment ad hoc network open protocol INAN server is used for receiving an INAN request message sent by an INAN client, generating intelligent network configuration information according to the INAN request message and a locally stored intelligent network configuration parameter table, and sending the intelligent network configuration information to the INAN client through an INAN response message;

the INAN client is positioned in the equipment and used for sending the INAN request message to the INAN server when the equipment is started, receiving the INAN response message which is sent by the INAN server and carries the networking configuration information of the intelligent network, starting the equipment according to the networking configuration information of the intelligent network and establishing a service channel.

2. The system of claim 1, wherein the INAN server is further to: and confirming the legality of the equipment according to the INAN request message.

3. The system of claim 1, wherein the INAN server is further to: and confirming the equipment coupled with the equipment accessed into the intelligent network equipment according to the INAN request message, and sending an INAN updating message to the coupled equipment to update the intelligent network networking configuration information of the equipment.

4. The system of claim 1,

the INAN server is further configured to: presetting an intelligent network access rule, wherein the access rule comprises the following steps: an inter-device interaction protocol and a connection port;

the INAN client is specifically configured to: and filling one or more inter-device interaction protocols supported by the equipment into the INAN request message.

The INAN server is specifically configured to: judging whether the intelligent network access rule is supported or not according to the one or more inter-device interaction protocols in the INAN request message;

and if so, agreeing to the access of the INAN client to the intelligent network, and sending the specified inter-device exchange protocol and the specified connection port to the INAN client through the INAN response message.

5. The system of claim 4, wherein the INAN client is specifically configured to:

and under the condition that the INAN response message agrees to access the intelligent network, starting a device main process, wherein the main process establishes a connection starting protocol interface and a service channel according to the appointed inter-device exchange protocol and the appointed connection port in the INAN response message.

6. The system of claim 1 wherein said INAN server is located within an intelligent network and is configured to be incorporated with a service management point within said intelligent network to provide services to the intelligent network; or,

the INAN server is positioned outside the intelligent network and provides services for a plurality of intelligent networks.

7. An intelligent network device ad hoc network method, comprising:

the INAN client sends an INAN request message to an INAN server when the equipment is started;

the INAN server receives the INAN request message, generates intelligent network networking configuration information according to the INAN request message and a locally stored intelligent network configuration parameter table, and sends the intelligent network networking configuration information to the INAN client through an INAN response message;

and the INAN client receives the INAN response message which is sent by the INAN server and carries the intelligent network configuration information, starts the equipment according to the intelligent network configuration information and establishes a service channel.

8. The method of claim 7, wherein after the INAN server receives the INAN request message, the method further comprises:

confirming the validity of the equipment according to the INAN request message;

and confirming the equipment coupled with the equipment accessed into the intelligent network equipment according to the INAN request message, and sending an INAN updating message to the coupled equipment to update the intelligent network networking configuration information of the equipment.

9. The method of claim 8, wherein the INAN client sends an INAN request message to an INAN server upon startup of the device; the method for sending the configuration information of the intelligent network to the INAN client side by the INAN server comprises the following steps that the INAN server receives the INAN request message, generates the configuration information of the intelligent network according to the INAN request message and a locally stored intelligent network configuration parameter table, and sends the configuration information of the intelligent network to the INAN client side by an INAN response message:

the INAN server pre-establishes an intelligent network access rule, wherein the access rule comprises the following steps: an inter-device interaction protocol and a connection port;

the INAN client fills one or more inter-device interaction protocols supported by the equipment into the INAN request message;

and the INAN server judges whether the intelligent network access rule is supported or not according to the one or more inter-device interaction protocols in the INAN request message, agrees to the access of the INAN client to the intelligent network if the judgment is yes, and sends the appointed inter-device exchange protocols and the appointed connection port to the INAN client through the INAN response message.

10. The method of claim 9 wherein said INAN server is located within an intelligent network and is configured to be incorporated with a service management point within said intelligent network to provide services to the intelligent network; or,

the INAN server is positioned outside the intelligent network and provides services for a plurality of intelligent networks.

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