CN106712985B - Cooperative management method, device and equipment under multi-management system - Google Patents

Abstract

The invention discloses a cooperative management method, a device and equipment under a multi-management system, wherein the method comprises the following steps: the user side equipment receives second configuration information sent by the second management system, wherein the second configuration information is configuration information generated by the second management system by utilizing first configuration information, and the first configuration information is configuration information which is sent by the first management system and used for connecting the second management system; the user side equipment judges whether the second configuration information is stored in the user side equipment to obtain a first judgment result; and when the first judgment result shows that the second configuration information is not stored in the user side equipment, the user side equipment sends the second configuration information to a first management system.

Description

Cooperative management method, device and equipment under multi-management system

Technical Field

The present invention relates to a multi-management system technology, and in particular, to a cooperative management method, apparatus, and device under a multi-management system.

Background

The customer premise equipment is often under the management of a plurality of management systems, for example, in Digital Subscriber Line (DSL) technology of transmission technology using a telephone Line as a transmission medium, a modem is under the management of a plurality of management systems as the customer premise equipment of DSL technology; among the aforementioned DSL technologies are: asymmetric Digital Subscriber Line (ADSL), Rate adaptive Digital adapter Digital Subscriber Line (RADSL), High-speed Digital Subscriber Line (HDSL), Very High speed Digital Subscriber Line (VDSL), and so on.

For another example, in a Passive Optical Network (PON), there are multiple management systems in a user side device, and the PON technology is a mainstream technology for implementing Fiber-to-the-x (FTTx) and is described in fig. 1-1 and fig. 1-2, a typical PON system is composed of an Optical Line Terminal (OLT), a user side device such as an Optical Network Unit (ONU), and an Optical Distribution Network (ODN), where the Optical Distribution Network is generally a point-to-multipoint structure formed by connecting an Optical line terminal to multiple Optical Network units through an Optical power splitter (abbreviated as splitter) and an Optical extension box of the Optical Distribution Network. The passive optical network is characterized in that the optical distribution network does not contain any active electronic devices and electronic power supplies, and all the optical distribution network comprises optical fibers, optical splitting/combining devices (Splitter) and other passive optical devices.

The ONU equipment can be divided into two types according to the number of the received management systems, wherein the first type of ONU equipment is only managed by one management system, and the second type of ONU equipment is managed by a plurality of management systems, wherein: single Dwelling Unit (SFU) devices and Multi Dwelling Unit (MDU) devices may be representative of the first type of ONU devices; a Home Gateway Unit (HGU) is a typical representation of the second ONU device. Firstly, an HGU is introduced, the HGU is an FTTH-type ONU device including a gateway function, fig. 1 to 3 are schematic diagrams of a management architecture of an HGU device in the related art, as shown in fig. 2, the management architecture of an HGU device in the related art includes an HGU device, an OLT device, an RMS, an EMS, and an operation support system (OSS, Office of stratum Services), and when a service is issued in a current network, two sets of management systems are generally required: the network Management System is a network Element Management System (EMS) for PON layer Management, the EMS is a network Management System of the PON and is generally constructed according to the city, and the EMS is responsible for configuring PON layer services of HGUs and HGU TR-069 Management channels, processing HGU link layer alarms and other functions; the other set is a Remote Management System (RMS) for gateway layer function management, which generally focuses on building provincial cities, and the RMS System is responsible for creating various service channels of HGUs, and configuring and managing routing forwarding, Network Address Translation (NAT), Wireless Local Area Network (WLAN), quality of service (QoS), safety and the like.

The following scenarios and problems exist in the actual deployment of HGU equipment: 1) deploying HGU equipment, and when opening a service, firstly connecting to an EMS and an RMS, and receiving configuration information of the two management systems; 2) the HGU connection RMS and EMS management mode are slightly different, the connection RMS is divided into a first connection and a non-first connection, when in first connection, the HGU provides a user name (user name) and a password (password) for connection RMS interactive authentication, the user name and the password are randomly modified into a specified value of the RMS by the RMS in view of security authentication, and the RMS adopts the value to determine the validity of the HGU. The non-first connection RMS does not modify the user name and password parameters of the HGU; 3) when the EMS is connected but the RMS is not connected, the URL of the RMS management server and the user name and password required by the HGU equipment for registration and authentication in the RMS are required to be configured for the HGU, the existing mode is mainly realized by pre-configuration, namely the HGU equipment is set according to the requirement of a certain provincial company when leaving a factory, and the mode has the problems that the requirement of each province is different, and equipment manufacturers need to make dozens of versions to adapt to the requirement of the provincial company, so that the equipment cost and complexity are increased; 4) although the problem can be solved by configuring TR-069 management channel information of the HGU by adopting the EMS, the problem of multi-head management is faced; according to the requirements of GPON international standards (ITU G.984 and G.988), Management Information Base (MIB) uploading is carried out every time the equipment is restarted, the OLT can resend corresponding configuration to the HGU, channel Information required by the HGU for connecting RMS is reconfigured by the EMS, TR-069 Management currently considers that the equipment is restarted without executing a first connection process, so that the user name and password modified after the original first connection are adopted as legal values, and the HGU disconnection condition can occur; 5) when the HGU is applied in the current network, equipment is deployed in a user home, equipment restarting is difficult to avoid, and equipment restarting causes the condition that the HGU is out of management in RMS, and the HGU cannot be accepted when the current network is used. The method for solving the problem is that firstly, operation and maintenance personnel get on the door again to execute the first connection process, and under the condition that the equipment is frequently restarted, the operation cost is greatly increased.

Disclosure of Invention

In view of this, embodiments of the present invention provide a cooperative management method, apparatus and device in a multiple management system to solve at least one problem in the prior art, so as to avoid a management conflict between a first management system and a second management system.

The technical scheme of the embodiment of the invention is realized as follows:

in a first aspect, an embodiment of the present invention provides a collaborative management method in a multi-management system, where the method includes:

the user side equipment receives second configuration information sent by the second management system, wherein the second configuration information is configuration information generated by the second management system by utilizing first configuration information, and the first configuration information is configuration information which is sent by the first management system and used for connecting the second management system;

the user side equipment judges whether the second configuration information is stored in the user side equipment to obtain a first judgment result;

and when the first judgment result shows that the second configuration information is not stored in the user side equipment, the user side equipment sends the second configuration information to a first management system.

In a second aspect, an embodiment of the present invention provides a cooperative management method in a multi-management system, where the method includes:

the first management system receives a first request message from the user side equipment;

the first management system responds to the first request message, acquires second configuration information, and carries the second configuration information in a first response message;

the first management system sends the first response message so that the user side equipment receives the second configuration information for connecting the second management system.

In a third aspect, an embodiment of the present invention provides a cooperative management method in a multi-management system, where the method includes:

the first management system receives a second request message from the user side equipment, wherein the second request message is used for requesting configuration information for connecting a second management system from the first management system under a first condition;

the first management system responds to the second request message, acquires configuration information and carries the configuration information in a second response message;

and the first management system sends the second response message so that the user side equipment receives the configuration information for connecting the second management system.

In a fourth aspect, an embodiment of the present invention provides a cooperative management method in a multi-management system, where the method includes:

the user side equipment sends a second request message under a first condition, wherein the second request message is used for requesting configuration information for connecting a second management system from a first management system;

the user side equipment receives a second response message, wherein the second response message is from the first management system and carries the requested configuration information;

the user side equipment analyzes the second response message to obtain configuration information;

and the user side equipment is connected with a second management system by using the configuration information.

In a fifth aspect, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where the apparatus includes a first receiving unit, a first determining unit, and a first sending unit, where:

the first receiving unit is configured to receive second configuration information sent by the second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system;

the first judging unit is used for judging whether the second configuration information is stored in the first judging unit to obtain a first judging result;

the first sending unit is configured to send the second configuration information to a first management system when the first determination result indicates that the second configuration information is not stored in the first sending unit.

In a sixth aspect, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where the apparatus includes a second receiving unit, a second obtaining unit, a first carrying unit, and a second sending unit, where:

the second receiving unit is configured to receive a first request message from the ue;

the second obtaining unit is configured to obtain second configuration information in response to the first request message;

the first carrying unit is configured to carry the second configuration information in a first response message;

the second sending unit is configured to send the first response message, so that the ue receives the second configuration information for connecting to the second management system.

In a seventh aspect, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where the apparatus includes a third receiving unit, a third obtaining unit, a second carrying unit, and a third sending unit, where:

the third receiving unit is configured to receive a second request message from the ue, where the second request message is used to request configuration information for connecting to a second management system from a first management system under a first condition;

the third obtaining unit is configured to obtain configuration information in response to the second request message;

the second carrying unit is configured to carry the configuration information in a second response message;

the third sending unit is configured to send a second response message, so that the ue receives the configuration information for connecting to the second management system.

In an eighth aspect, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where the apparatus includes a fourth sending unit, a fourth receiving unit, an analysis unit, and a second connection unit, where:

the fourth sending unit is configured to send a second request message under the first condition, where the second request message is used to request the first management system for configuration information used for connecting to the second management system;

the fourth receiving unit is configured to receive a second response message, where the second response message is from the first management system and carries the requested configuration information;

the analysis unit is used for analyzing the second response message to obtain configuration information;

the second connection unit is used for connecting a second management system by using the configuration information.

In a ninth aspect, an embodiment of the present invention provides a user-side device, where the user-side device includes a first processor, a first receiver, and a first transmitter, where:

the first receiver is configured to receive second configuration information sent by the second management system;

the first transmitter is used for transmitting the second configuration information to a first management system;

the first processor is configured to control the first receiver to receive second configuration information sent by the second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system; judging whether the second configuration information is stored in the mobile terminal, and obtaining a first judgment result; and when the first judgment result shows that the second configuration information is not stored in the first management system, controlling the first transmitter to transmit the second configuration information to the first management system.

In a tenth aspect, an embodiment of the present invention provides a first management system, where the first management system includes a third receiver, a third transmitter, and a third processor, where:

the third receiver is configured to receive a first request message from the ue;

the third transmitter is configured to transmit the first response message;

the third processor is configured to control a third receiver to receive a first request message from the ue; responding to the first request message, acquiring second configuration information, and carrying the second configuration information in a first response message; and controlling a third transmitter to transmit the first response message so that the user-side equipment receives the second configuration information for connecting the second management system.

In an eleventh aspect, an embodiment of the present invention provides a first management system, where the first management system includes a fifth receiver, a fifth transmitter, and a fourth processor, where:

the fifth receiver is configured to receive a second request message from the ue;

the fifth transmitter is configured to transmit the second response message;

the fourth processor is configured to control a fifth receiver to receive a second request message from the ue, where the second request message is used to request configuration information for connecting to a second management system from a first management system under a first condition; responding to the second request message, acquiring configuration information, and carrying the configuration information in a second response message; and controlling a fifth transmitter to transmit the second response message so that the user-side equipment receives the configuration information for connecting the second management system.

The embodiment of the invention provides a collaborative management method, a device and equipment under a multi-management system, wherein user side equipment receives second configuration information sent by a second management system, the second configuration information is configuration information generated by the second management system by utilizing first configuration information, and the first configuration information is configuration information sent by the first management system and used for connecting the second management system; the user side equipment judges whether the second configuration information is stored in the user side equipment to obtain a first judgment result; when the first judgment result shows that the second configuration information is not stored in the user side equipment, the user side equipment sends the second configuration information to a first management system; therefore, the problem of management conflict between the first management system and the second management system can be avoided.

Drawings

FIG. 1-1 is a first schematic diagram illustrating a PON network in the prior art;

fig. 1-2 are schematic structural diagrams of a PON network in the prior art;

FIG. 2 is a schematic diagram of a management architecture of an HGU device in the related art;

fig. 3 is a schematic flow chart illustrating an implementation of a cooperative management method in a multi-management system according to an embodiment of the present invention;

FIG. 4-1 is a schematic diagram illustrating the connection relationship between the HGU, the EMS, and the RMS in the fourth embodiment of the present invention;

fig. 4-2 is a schematic flow chart illustrating the flow of modified parameter values in the first solution according to the fourth embodiment of the present invention;

FIGS. 4-3 are schematic structural diagrams of the HGU of the four-user side device according to the embodiment of the present invention;

fig. 4-4 are schematic structural diagrams illustrating a component structure of an OLT in a four-office device according to an embodiment of the present invention;

fig. 4-5 are schematic structural diagrams illustrating a fourth management system EMS according to an embodiment of the present invention;

fig. 4-6 are schematic diagrams illustrating a process of issuing the first configuration information to the HGU by the four EMSs according to the embodiment of the present invention;

FIGS. 4-7 are schematic diagrams of the process for connecting the RMS to the four HGU devices according to the embodiment of the present invention;

FIG. 5-1 is a schematic diagram of a system framework according to a fifth second solution of an embodiment of the invention;

fig. 5-2 is a first schematic diagram illustrating a first EMS configuration according to a fifth solution of the present invention;

fig. 5-3 are schematic diagrams of a first configuration of the integrated management system in a fifth second solution according to the embodiment of the present invention;

fig. 5-4 are schematic diagrams illustrating a second configuration of the first management system EMS according to a fifth second solution of the embodiment of the present invention;

5-5 are schematic structural diagrams of the integrated management system in a fifth second solution according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a cooperative management apparatus in a six-multi-management system according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a cooperative management apparatus under a seven-management system according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a cooperative management apparatus in an eight-multi-management system according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a cooperative management apparatus in a nine-management system according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further elaborated below with reference to the drawings and the specific embodiments.

Example one

Based on the foregoing first embodiment, an embodiment of the present invention provides a collaborative management method in a multi-management system, where the method is applied to a user-side device, and a function implemented by the method may be implemented by a processor in the user-side device calling a program code, where of course, the program code may be stored in a computer storage medium, and thus, the user-side device at least includes a processor and a storage medium.

Fig. 3 is a schematic flow chart of an implementation process of a cooperative management method in a multi-management system according to an embodiment of the present invention, and as shown in fig. 3, the method includes:

step 101, a user side device receives second configuration information sent by a second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by a first management system and used for connecting the second management system;

here, the customer-side device may include at least a modem in DSL technology, an HGU device in a PON system, and the like; the user side equipment in the embodiment of the invention is managed by a plurality of management systems, wherein the plurality of meanings comprise two and more than two management systems, and when the user side equipment is managed by the two management systems, the contents managed by the first management system are different from the contents managed by the second management system. For example, when the user-side device is an HGU, the first management system may be an EMS, and the second management system may be an RMS, where the EMS system is responsible for configuring PON layer services and HGU TR-069 management channels of the HGU, processing HGU link layer alarms, and other functions; the RMS system is responsible for various service channel creation of HGU, and configuration management of route forwarding, NAT, WLAN, QoS and security.

For the HGU device, the EMS and the RMS manage the HGU device at the same time, and the HGU device needs to be authenticated and registered. The EMS is mainly responsible for network element level management, such as fault processing of HGU equipment power failure, fiber loss and the like, the EMS is mainly responsible for HGU link management, performance statistics and the like, and the EMS can establish a management channel for RMS management of the HGU equipment for the HGU; the RMS is mainly responsible for HGU service level configuration, such as configuration of VLAN, QoS, etc. related to service provisioning. The modems in DSL are similar to HGUs, with equipment and link management being handled by the EMS network management of 2DSL, and service related management being managed by the RMS system of DSL.

Here, the first configuration information and the second configuration information both include connection parameters, where the connection parameters include a user name and a password of the user-side device, and the connection parameters may further include a network address (URL address) of the second management system.

102, the user side equipment judges whether the second configuration information is stored in the user side equipment to obtain a first judgment result;

step 103, when the first determination result indicates that the second configuration information is not stored in the ue, the ue sends the second configuration information to a first management system.

Here, the ue may include a first memory and a first buffer, and the determining whether the second configuration information is stored in the ue includes: whether the first storage stores the second configuration information or not is judged, and besides the first storage, the user side device may have other storage devices or areas, so that a person skilled in the art can judge whether the user side device stores the second configuration information or not according to an actual storage medium.

In this embodiment of the present invention, when the first determination result indicates that the first ue stores the second configuration information, the ue discards the second configuration information.

In the embodiment of the present invention, the method further includes:

step 104, when the ue is pre-connected to a second management system, the ue determines whether to connect to the second management system for the first time to obtain a second determination result, where the second determination result indicates whether the ue is connected to the second management system for the first time;

105, the user side device correspondingly acquires pre-stored first configuration information or second configuration information according to the first judgment result; the first configuration information is configuration information which is sent by a first management system and used for connecting with the second management system, and the second configuration information is configuration information which is generated by the second management system by using the first configuration information;

and 106, the user side equipment connects to the second management system by using the first configuration information or the second configuration information.

In step 105, the obtaining, by the ue, pre-stored first configuration information or second configuration information according to the first determination result correspondingly includes: when the second judgment result shows that the second management system is not connected for the first time, the user side equipment acquires second configuration information from the first buffer; and when the second judgment result shows that the second management system is connected for the first time, the user side equipment acquires pre-stored first configuration information.

At this time, the specific process includes:

step 111, when a user side device is pre-connected with a second management system, the user side device judges whether to connect the second management system for the first time to obtain a second judgment result;

here, the second determination result indicates whether the ue is connected to the second management system for the first time;

step 112, when the second judgment result indicates that the second management system is not connected for the first time, the user side equipment acquires second configuration information from the first buffer;

step 113, the user side equipment connects to the second management system by using the second configuration information;

step 114, when the second judgment result indicates that the second management system is connected for the first time, the ue acquires pre-stored first configuration information;

and step 115, the user side equipment connects to the second management system by using the first configuration information.

Step 116, after the ue is successfully connected to the second management system, the ue receives second configuration information sent by the second management system;

step 117, the ue stores the second configuration information in a first buffer.

In this embodiment of the present invention, a user side device receives second configuration information sent by a second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by a first management system and used for connecting to the second management system; the user side equipment judges whether the second configuration information is stored in the user side equipment to obtain a first judgment result; when the first judgment result shows that the second configuration information is not stored in the user side equipment, the user side equipment sends the second configuration information to a first management system; therefore, the problem of management conflict between the first management system and the second management system can be avoided.

Example two

Based on the first embodiment, the embodiment of the present invention further provides a cooperative management method under a multi-management system. The method comprises the following steps:

step 201, the user side equipment sends a third request message to the first management system;

here, the third request message is for requesting configuration information for connecting to the second management system from the first management system in the second condition; the second condition may be that the user-side device is connected to the first management system successfully and then needs to connect to the second management system for the first time.

Step 202, the first management system responds to the third request message to generate first configuration information;

here, it is described that the HGU represents a user-side device, the EMS represents a first management system, and the RMS represents a second management system, where when the HGU of the user-side device is connected to the EMS but not connected to the RMS, the EMS needs to configure first configuration information for connecting to the RMS for the HGU, where the first configuration information includes a connection parameter, and the connection parameter includes a URL of the RMS, and a user name and password required for registration and authentication of the HGU device in the RMS.

Step 203, the first management system carries the first configuration information in a third response message;

here, the third request message and the third response message are messages that occur in pairs.

Step 204, the first management system sends a third response message to the user side equipment;

step 205, the user side device receives a third response message sent by the first management system, and acquires the first configuration information from the third response message;

step 206, the user side equipment connects to a second management system by using the first configuration information;

here, the ue connects to the second management system using the first configuration information, which may be specifically implemented in a manner that the ue carries the first configuration information in a first connection request message and sends the first connection request message to the second management system;

correspondingly, the second management system receives the first connection request message, analyzes the connection parameters in the first configuration information from the first connection request message, and then modifies the user name, the password and the like in the first configuration information to random values (namely modified parameter values) meeting the self setting.

And step 207, after the connection is successful, the second management system sends the modified parameter value as second configuration information to the user side equipment.

Step 208, the user side device receives second configuration information sent by the second management system;

here, the second configuration information is configuration information generated by the second management system using first configuration information, and the first configuration information is configuration information sent by the first management system for connecting to the second management system;

step 209, the ue determines whether the ue itself stores the second configuration information, so as to obtain a first determination result;

step 210, when the first determination result indicates that the second configuration information is not stored in the ue, the ue sends the second configuration information to a first management system.

Step 211, the ue stores the second configuration information in a first buffer;

step 213, when the first determination result indicates that the ue itself stores the second configuration information, the ue discards the second configuration information.

Step 214, the first management system receives second configuration information from the user side device;

step 215, the first management system stores the second configuration information.

Based on the foregoing steps 201 to 215, an embodiment of the present invention further provides a cooperative management method under a multi-management system, where the method includes:

step 221, the user side equipment sends a first request message to the first management system;

here, the first request message is a request from the ue to the first management system for configuration information for connecting to the second management system under a third condition, where the third condition may be a case where the ue is restarted.

Step 222, the first management system receives a first request message from the user side device;

step 223, the first management system responds to the first request message to obtain second configuration information;

here, the first management system acquires the second configuration information, including: the first management system obtains the second configuration information from its second storage (see fig. 4-5 and the embodiments related to fig. 4-5)

Step 224, carrying the second configuration information in a first response message;

here, the first request message and the first response message are messages that occur in pairs.

Step 225, the first management system sends the first response message, so that the ue receives the second configuration information for connecting to the second management system.

Here, if the HGU represents the customer premise equipment, the first management system sends the first response message to the central office equipment OLT, and the central office equipment OLT forwards the first response message to the customer premise equipment.

Step 226, the ue receives the first response message;

step 227, the ue parses the second configuration information from the first response message;

step 228, the user side device connects to the second management system by using the parsed second configuration information;

here, the second configuration information is a connection parameter (modified parameter value) issued by the second management system itself after the first connection, the user-side device then sends the modified parameter values to the first management system, so that in case of a restart of the user-side device, when the user side equipment requests the first management system for the configuration information used for connecting the second management system, the configuration information issued by the first management system is the connection parameter issued by the second management system before, therefore, when the user side equipment utilizes the second configuration information sent by the first management system to connect with the second management system, the user side equipment can be connected smoothly, therefore, the condition that the user side equipment is disconnected in the prior art can not occur, when the user side equipment is an HGU, the technical solution provided by the embodiment of the present invention also solves the problem of multi-head management described in point 4) of the background art.

EXAMPLE III

In order to solve the technical problem in the background art, an embodiment of the present invention provides a collaborative management method in a multi-management system, where the method includes:

step 301, the ue sends a second request message under a first condition;

here, the second request message is for requesting configuration information for connecting to the second management system from the first management system in the first condition; the first condition includes the second condition and the third condition in the above embodiment, and no matter when the user-side device restarts or connects to the second management system for the first time, as long as the user-side device wants to connect to the second management system, it is like the first management system requesting configuration information for connecting to the second management system;

step 302, the first management system receives a second request message from the user side device;

step 303, the first management system responds to the second request message to obtain configuration information;

step 304, the first management system carries the configuration information in a second response message;

step 305, the first management system sends the second response message, so that the ue receives the configuration information for connecting to the second management system.

Step 306, the ue receives a second response message;

here, the second response message is from the first management system and carries the requested configuration information;

step 306, the user side equipment analyzes the second response message to obtain configuration information;

step 306, the ue connects to a second management system using the configuration information.

Here, the ue connects to the second management system using the configuration information, which may be specifically implemented in a manner that the ue carries the configuration information in a first connection request message and sends the first connection request message to the second management system;

correspondingly, the second management system receives the first connection request message, analyzes the connection parameters in the configuration information from the first connection request message, judges whether the connection parameters meet preset rules, if so, the connection is successful, and if not, the connection is unsuccessful. The second management system may also carry the connection result in a first connection response message, and send the first connection response message to the user side device, where the connection result includes connection success and connection failure.

In an embodiment of the present invention, the acquiring configuration information by the first management system includes:

the first management system receives configuration information generated and sent by the integrated management system;

and the first management system stores the configuration information.

In an embodiment of the present invention, the acquiring configuration information by the first management system includes:

and the first management system responds to the second request message and generates configuration information according to a first rule.

In the embodiment of the present invention, the method further includes:

and the first management system sends the configuration information to the comprehensive management system so as to forward the configuration information to a second management system through the comprehensive management system.

Example four

Based on the foregoing embodiments, in the embodiments of the present invention, an HGU represents a user-side device, an EMS represents a first management system, and an RMS represents a second management system, to describe the cooperative management method under the multiple management systems in the foregoing embodiments of the present invention; first, a connection relationship between the HGU, the EMS, and the RMS is introduced, fig. 4-1 is a schematic diagram of a connection relationship between the HGU, the EMS, and the RMS according to a fourth embodiment of the present invention, as shown in fig. 4-1, the HGU of the user side device is connected to the OLT of the central office device, and both the first management system EMS and the second management system RMS are connected to the OLT of the central office device. When the service is opened, the HGU on the user side needs to be connected to the first management system EMS and the second management system RMS, and receives configuration information sent by the two management systems EMS and RMS through the OLT.

When the HGU of the user side equipment is connected with the second management system RMS for the first time, the HGU can acquire configuration information for connecting the second management system RMS to perform interactive authentication, wherein the configuration information at least comprises a user name and password, and is connected with the second management system by utilizing the configuration information. When the connection is successful, the second management system considers the safety certification, and the user name and password in the configuration information are randomly modified into parameter values meeting RMS regulations by the second management system RMS; the second management system RMS then sends the modified parameter values to the customer-side device HGU. And then, when the user side device HGU is connected with the second management system RMS again (namely, not connected for the first time), the user side device HGU is connected with the second management system RMS by using the modified parameter value, and the second management system RMS adopts the modified parameter value to determine the legality of the HGU. When the HGU of the user side equipment is not connected with the second management system RMS for the first time, the second management system can not modify the user name and password in the configuration information of the HGU.

In order to avoid a conflict of management between the first management system EMS and the second management system RMS, two solutions are provided below, first a first solution is described below, which corresponds to some extent to the above-described first and second embodiments, and the second solution below is the above-described first embodiment and is intended to be applied in a specific scenario.

The first solution is:

when the first management system EMS is successfully connected with the user side device HGU and the user side device HGU is not connected with the second management system RMS yet, the first management system EMS issues first configuration information to the user side device HGU, the first configuration information comprises a connection parameter used for connecting the user side device HGU with the second management system RMS, and then the user side device is connected with the second management system RMS by using the first configuration information, wherein the connection parameter comprises a user name and a password. And when the user side device HGU is successfully connected with the second management system, the second management system randomly modifies the connection parameters in the first configuration information into parameter values meeting RMS specification by the second management system RMS in consideration of security authentication, and then the second management system sends the modified parameter values to the user side device HGU. Fig. 4-2 is a schematic flow diagram of a modified parameter value in a first solution in the fourth embodiment of the present invention, as shown in fig. 4-2, when a user-side device HGU receives the modified parameter value, the user-side device HGU sends the modified parameter value to an Optical Line Terminal (OLT) and a first management system (EMS). When the user side device HGU is restarted, the configuration information received through an optical network unit Management Control Interface (OMCI, ONU Management and Control Interface) is a modified parameter value, thereby avoiding the problem of Management conflict between the first Management system and the second Management system, wherein the OMCI protocol is an Interface protocol between the OLT and the ONU.

In order to implement the first solution described above, the following describes in detail the improvements of the first management system EMS, the local side device OLT, the second management system RMS, and the customer side device HGU in fig. 4-2.

Fig. 4-3 is a schematic diagram of a structure of a four-customer-side device HGU according to an embodiment of the present invention, and as shown in fig. 4-3, the customer-side device HGU 430 includes a first receiver 431, an actuator 432, a first transmitter 433, a first memory 434, a second memory 435, a first processor 436, and the like.

A first receiver 431, configured to receive first configuration information sent by a second transmitter 441 in the central office equipment OLT, where the first configuration information includes connection parameters, and the connection parameters at least include a URL address of the second management system RMS, a user name of the HGU, and a password;

a first buffer 434, configured to buffer a modified parameter value of the second transmitter 441 in the OLT, where the modified parameter value is modified by the second management system RMS using the first configuration information and conforms to a parameter value of the second management system;

a first memory 435, configured to store first configuration information sent by the second transmitter 441 in the OLT;

an executor 432, configured to connect to the second management system RMS according to the first configuration information or the modified parameter value;

a first transmitter 433, configured to send the modified parameter value to the local end device OLT;

the first processor 436 is configured to determine whether the content in the first buffer 434 is consistent with the content in the first memory.

Here, the first memory and the first buffer are only logical concepts, and in the implementation process, the first memory and the first buffer may be separate storage media, or may be storage areas, for example, the first memory and the first buffer may also be two separate storage areas located on the same storage medium, or the first memory and the first buffer may be storage areas located on different storage media. The explanations made for the first memory and the first buffer are also applicable to the concepts of the second memory, the third memory, and the like regarding the memory and the buffer in other embodiments of the present invention, and therefore, the descriptions thereof will not be repeated in other embodiments.

Fig. 4-4 are schematic diagrams illustrating a structure of a fourth office device OLT according to an embodiment of the present invention, as shown in fig. 4-3, the office device OLT 440 includes a second transmitter 441, a second receiver 442, a first transceiver 443, a second processor 444, and the like.

The first transceiver 443 is configured to receive a modified parameter value sent by a user-side device HGU, and forward the modified parameter value to the first management system EMS.

A second receiver 442, configured to receive configuration information sent by the first management system EMS to the ue;

a second processor 444, configured to convert the configuration information sent by the EMS into configuration information between the local side device OLT and the HGU set on the user side; the configuration information between the local side equipment OLT and the user side HGU is the first configuration information.

A second transmitter 441, configured to send the first configuration information to a user-side device HGU.

In fig. 4-4, the above-mentioned devices may be divided in different ways in the process of implementation, for example, a person skilled in the art may implement the receiving function in the first transceiver by using a second receiver, that is, the second receiver is further configured to receive the modified parameter value sent by the HGU on the user side; accordingly, a person skilled in the art may implement the transmitting function in the first transceiver by using a second transmitter, i.e. the second transmitter is also used to forward the modified parameter value to the first management system EMS. For another example, a person skilled in the art may implement the receiving function in the first transceiver by using a fourth receiver, that is, the fourth receiver is further configured to receive the modified parameter value sent by the HGU on the user side; accordingly, a person skilled in the art may implement the transmitting function in the first transceiver by using a fourth transmitter, i.e. the fourth transmitter is further configured to forward the modified parameter value to the first management system EMS.

Fig. 4-5 are schematic diagrams illustrating a structure of a fourth management system EMS according to an embodiment of the present invention, and as shown in fig. 4-5, the first management system EMS 450 includes a third receiver 451, a third transmitter 453, a second memory 454, a third processor 452, and so on.

A third transmitter 453, configured to transmit the configuration information generated by the EMS to a second receiver of the OLT;

a third receiver 451, configured to receive the modified parameter value sent by the first transceiver from the OLT;

a third processor 452 for storing the modified parameter value in a second memory 454;

a second memory 454 for storing said modified parameter value.

When the HGU of the user side device issues a service, if the first management system EMS issues configuration information required for the HGU to connect to the second management system RMS, the process of connecting the HGU of the user side device to the second management system RMS includes the following steps:

step S401, a first receiver in the HGU receives first configuration information sent by a second transmitter 441 in the OLT from the first management system EMS, and stores the first configuration information in a first memory and a first buffer;

the first configuration information includes connection parameters, where the connection parameters at least include a website (URL address) of the second management system, a user name (user name) of the HGU, and a password (password word), and the connection parameters in the first configuration information may be regarded as initial connection parameters.

Step S402, when the user side device HGU is ready to connect the second management system RMS, the processor in the user side device HGU judges whether the processor is connected with the second management system RMS for the first time;

and step S403, when the connection is the first connection, the executor is responsible for connecting the user-side device HGU to the second management system RMS according to the first configuration information.

Step S404, after the HGU of the user side equipment is successfully connected with the second management system RMS, the second management system RMS modifies the initial connection parameters of the HGU of the user side equipment;

step S405, the second management system RMS sends the modified parameter value (modified connection parameter) to the user side device HGU;

step S406, the first receiver 431 in the HGU of the user-side device receives the modified parameter value sent by the second management system RMS;

step 407, the HGU stores the modified parameter values in the first buffer 434;

step S408, the processor 436 in the HGU of the user-side device determines whether the content stored in the first buffer is consistent with the content stored in the first memory 435;

here, the content stored in the first memory 435 is an initial connection parameter, and the content stored in the first buffer is a modified parameter value, where the modified parameter value is a modification of the initial connection parameter by the second management system RMS, and in the implementation process, the second management system RMS may modify the initial connection parameter to a random value, where the random value is the modified parameter value.

Step S409, when the processor 436 in the user-side device HGU determines that the content stored in the first buffer is inconsistent with the content stored in the first memory 435, the first transmitter 433 in the user-side device HGU reports the modified parameter value to the office end device OLT and the first management system EMS;

here, when the HGU of the user-side device is restarted, the configuration information sent by the first management system EMS is a modified parameter value.

When the first management system EMS does not issue the configuration information of the HGU of the customer premise equipment for the first time, the HGU of the customer premise equipment stores the configuration information issued by the first management system EMS in the first buffer 434. The configuration data is fetched from the first memory 435 when the HGU of the customer side device is first connected to the second management system RMS, and the configuration information is fetched from the first buffer when the HGU is not first connected.

Based on the foregoing fig. 4-1 to fig. 4-5, in the embodiment of the present invention, the HGU represents the user-side device, the EMS represents the first management system, and the RMS represents the second management system, so as to describe a process of issuing the first configuration information to the HGU by the EMS. Fig. 4 to 6 are schematic diagrams illustrating a flow of issuing the first configuration information to the HGU by the four EMSs according to the embodiment of the present invention, as shown in fig. 4 to 6, the method includes:

step 461, the EMS issues the first configuration information to the HGU;

here, the first configuration information includes a connection parameter, specifically, configuration information generated by the first management system EMS and used for the HGU to connect to the second management system, and the third transmitter of the first management system EMS transmits the configuration information to the second receiver of the OLT. The second receiver of the office device OLT receives the configuration information sent by the first management system EMS, the processor in the office device OLT processes the configuration information into first configuration information, and the office device OLT controls the second transmitter 441 to send the first configuration information to the first receiver 431 of the HGU.

Step 462, the first receiver 431 in the HGU receives the first configuration information;

step 463, the first processor of the HGU determines whether the first configuration information is first issued by the first management system EMS, if so, step 464 is performed, otherwise, step 465 is performed;

here, the information that the EMS issues for the first time means that, after the EMS successfully connects with the HGU on the user side, the configuration information for enabling the HGU to connect with the second management system RMS is issued for the first time, and if the configuration information for connecting with the RMS is issued before the EMS, the first configuration information cannot be issued for the first time.

Step 464, the first processor of the HGU stores the first configuration information in the first memory and the first buffer;

in step 465, the first processor of the HGU stores the first configuration information in a first buffer.

Based on the foregoing fig. 4-1 to fig. 4-5, the embodiment of the present invention continues to describe the process of HGU device connection RMS by using HGU as the user-side device, using EMS as the first management system, and using RMS as the second management system. Fig. 4-7 are schematic flow charts of four HGU device connection RMS according to embodiments of the present invention, and as shown in fig. 4-7, the method includes:

step 471, the first processor of the HGU determines whether the RMS is first connected, if so, step 474 is entered; otherwise, go to step 472;

step 472, the first processor of the HGU obtains the second configuration information from the first buffer;

at step 473, the first processor controlled actuator of the HGU connects to the RMS using the second configuration information;

here, the enforcer may connect the second management system RMS according to the second configuration information.

At step 474, the first processor of the HGU retrieves the first configuration information connection RMS from the first memory;

here, the first processor of the HGU controls the executor to connect the second management system RMS using the first configuration information, and then the executor connects the second management system RMS according to the first configuration information.

Here, the first configuration information includes connection parameters, where the connection parameters include a user name and password;

step 475, the second management system RMS modifies the first configuration information and sends the modified parameter value to the HGU;

here, the RMS modifies the user name and password of the HGU into parameters such as random values approved by the RMS, and the parameters approved by the RMS are issued to the HGU as second configuration information;

step 476, the first receiver of the HGU receiving the modified parameter value;

here, the first processor of the HGU stores the second configuration information in the second memory;

step 477, the first processor of the HGU determines whether the modified parameter value is consistent with the content in the first buffer, if yes, step 478 is entered, otherwise, step 479 is entered;

at step 478, the first processor of the HGU discards the modified parameter value;

step 479, the first processor of the HGU stores the modified parameter in the first buffer, and sends the modified parameter value to the OLT through the first transceiver;

here, a first transceiver in the local side device OLT receives the modified parameter value, and forwards the modified parameter value to the first management system EMS; the modified parameter values are then received by a third receiver in the first management system EMS, and the modified parameter values are stored in the second memory 454 by a third processor in the EMS.

In the embodiment of the invention, the EMS issues the first configuration information to the HGU, and the HGU does not directly receive the first configuration information including the connection parameters of the EMS but performs corresponding judgment. The receiver of the HGU receives the first configuration information, and the processor of the HGU judges whether the first configuration information is consistent with the content stored in the second memory of the HGU, if so, the first configuration information is discarded, and the first configuration information generally occurs under the operation triggering conditions of restarting and the like when the first connection is not carried out; if not, the information is saved in a second memory, typically at service activation, relocation, or a change in RMS management system URL.

In the embodiment of the invention, when the HGU is connected for the first time in the RMS, the HGU acquires the first configuration information from the first memory and initiates connection to the RMS by using the first configuration information. And triggering connection when the authentication information of the equipment is locally input, and finishing the registration authentication of the HGU in the RMS management system. If the RMS modifies initial parameters such as user name and password registered by the HGU equipment at the moment, the HGU stores the modified parameters in the second memory. When the HGU is not connected for the first time at the RMS, retrieving connection parameters from the second memory initiates a connection to the RMS. By the arrangement, the HGU can judge and avoid mismatching caused by automatic OMCI issuing configuration and TR-069 initial parameter modification by the HGU, so that the condition of equipment offline is avoided.

If the HGU has configured information such as the TR-069 connection related username, password, and RMS URL and records the information in the first memory of the HGU, two situations may occur in the present application: firstly, a PON network management system is not needed to assist in configuring TR-069 connection information, and a service is directly provided by adopting a pre-configuration result. At the moment, the second memory still stores parameters after the first online connection is modified, non-first connection triggered by operation such as equipment restart and the like is carried out, and TR-069 connection configuration information is acquired from the second memory; and recovering the first connection triggered by operation such as factory setting and the like, and acquiring TR-069 connection configuration information from the first storage. Secondly, the TR-069 connection information is still configured by the EMS. The EMS configuration content is directly stored in the first memory to replace the original pre-configuration information content, and the HGU adopts the EMS configuration connection information to open the service. At the moment, the second memory still stores parameters after the first online connection is modified, non-first connection triggered by operation such as equipment restart and the like is carried out, and TR-069 connection configuration information is acquired from the second memory; and recovering the first connection triggered by operation such as factory setting and the like, and acquiring TR-069 connection configuration information from the second storage.

In this embodiment, the HGU stores the configuration information that is pre-configured or that is primarily issued by the EMS in the first memory, and the configuration parameter that is modified by the RMS in the second memory. And when the HGU is connected for the first time, the configuration information is directly acquired from the first storage, and when the HGU is not connected for the first time, the configuration information is acquired from the second storage. When triggering conditions such as HGU service activation, factory reset of equipment, RMS URL change occur, the content of the first memory may change, and the HGU should perform a first connection process. When triggering conditions such as restart of the HGU equipment occur, the configuration issued by the EMS cannot influence the connection parameters stored by the HGU equipment, and further the conflict problem among multiple management systems cannot occur.

Compared with the prior art, the embodiment of the invention has the following advantages: and the HGU is selected to be executed under the two conditions of first connection and non-first connection of the RMS management system by distinguishing the mode of the HGU executing EMS management system configuration. When the connection is not performed for the first time, the management configuration issued by the EMS is not executed, and the configuration information is acquired from the local, so that the problem of disconnection of the HGU equipment is avoided.

EXAMPLE five

In a fifth embodiment of the present invention, the second solution mentioned in the fourth embodiment will be described, the second solution corresponds to the third embodiment to some extent, and the following second solution is that the third embodiment is applied in a specific scenario.

Specifically, the second solution:

in short, the modified parameter value originally sent by the second management system RMS is sent by the first management system EMS instead. Specifically, the second management system RMS does not directly issue the modified parameter values such as the user name and password of the HGU to the HGU on the user side, but issues the modified parameter values to the device on the user side through the first management system EMS. However, at this time, the first management system EMS may not perform the same configuration for each HGU of the user-side device, and in order to ensure the connection security, a set of corresponding personalized configuration parameters is used for each HGU. Configuration information, i.e. configuration parameter values with higher security, such as user name and password required by the randomly generated HGU to connect to the RMS, is generated at the RMS or integrated management system. The HGU of the user side no longer distinguishes whether the configuration information is the initial configuration information (i.e., the first configuration information) first issued by the first management system EMS or the parameter value modified by the second management system RMS, but the HGU only has one configuration parameter with higher security.

In the prior art, for security authentication, the second management system RMS may modify the user name and password provided by the HGU for connecting the interactive authentication when the HGU first connects to the RMS, and modify the user name and password to random values. In order to avoid conflicts in the management of the first management system and the second management system, in the second solution, the configuration information used by the HGU to connect to the second management system will be issued by the first management system and will not be issued by the second management system.

Fig. 5-1 is a schematic diagram of a system framework according to a fifth second solution of the embodiment of the present invention, as shown in fig. 5-1, the system framework includes an integrated management system, a first management system EMS, a second management system RMS, an office device OLT, and a user-side device HGU. Fig. 5-1 shows a configuration information issuing process in the direction of an arrow with a dotted line, where the second solution does not relate to the first issued configuration information and the modified parameter value, but only one configuration information, and in the prior art, the first issued configuration information is issued by the first management system EMS, and the modified parameter value is issued by the second management system RMS, and in the second solution, the second solution is always issued to the central office device OLT by the first management system OLT and then issued to the user-side device HGU by the central office device OLT.

In the embodiment of the invention, the integrated management system is simultaneously connected with the first management system and the second management system, and the integrated management system can generate specific configuration information according to the service work order and respectively send the configuration information to the first management system and the second management system for configuring the local side equipment and the user side equipment to realize the establishment of the service channel.

The generation of the configuration information in the embodiment of the present invention also includes two processing manners, in the first manner, the configuration information is generated by the integrated management system, and in the second manner, the configuration information is generated by the first management system, where the first manner refers to fig. 5-2 and 5-3 below, and the second manner refers to fig. 5-3 and 5-4 below.

Fig. 5-2 is a schematic diagram illustrating a first configuration of a first management system EMS according to a fifth second solution of the embodiment of the present invention, as shown in fig. 5-2, the first management system EMS includes a fourth processor 521, a third memory 524, a fifth receiver 522, and a fifth transmitter 523, where:

a fifth receiver 522 for receiving the configuration information transmitted from the integrated management system;

a fourth processor 521, configured to store the configuration information received by the fifth receiver 522 in a third memory 524, and further control a fifth transmitter 523 to transmit the configuration information to the OLT;

a third memory 524 for storing the configuration information;

a fifth transmitter 523, configured to send the configuration information to the office end device OLT, so that the office end device OLT forwards the configuration information to the HGU.

On the basis of fig. 5-2, fig. 5-3 is a schematic diagram illustrating a first configuration of a first management system EMS in a fifth second solution according to the embodiment of the present invention, as shown in fig. 5-3, the integrated management system 530 includes a fifth processor 531, a fourth memory 533, a generator 532, and a sixth transmitter 534, where:

a first generator 532 for generating configuration information;

a fifth processor 531 for storing the configuration information in a fourth memory 533 and controlling the sixth transmitter to transmit the configuration information to the first management system RMS;

a sixth transmitter 534 for transmitting the configuration information to the first management system.

Fig. 5-4 is a schematic diagram illustrating a second configuration of the first management system EMS according to a fifth second solution of the embodiment of the present invention, as shown in fig. 5-4, the first management system EMS 540 includes a sixth processor 541, a fifth memory 543, a second generator 542, and a seventh transmitter 544, where:

a second generator 542 for generating configuration information;

a sixth processor 541 for storing the configuration information in a fifth memory 543 and controlling the third transmitter 544 to transmit the configuration information to the first management system RMS and the second management system RMS;

a seventh transmitter 544, configured to send the configuration information to the integrated management system, and send the configuration information to the local side device OLT, so that the configuration information is forwarded to the user side device HGU through the local side device OLT.

On the basis of fig. 5-4, fig. 5-5 are schematic diagrams illustrating a second configuration of the first management system EMS according to a fifth second solution of the embodiment of the present invention, as shown in fig. 5-5, the integrated management system 550 includes a seventh processor 551, a fifth memory 554, a seventh receiver 552 and an eighth transmitter 553, wherein:

a seventh receiver 552 for receiving the configuration information transmitted from the first management system;

a seventh processor 551, configured to store the configuration information received by the fifth receiver 552 in a fifth memory 554, and further configured to control the eighth transmitter 553 to transmit the configuration information to the local end device OLT;

a fifth memory 554 for storing the configuration information;

an eighth transmitter 553, configured to transmit the configuration information to the second management system.

In the embodiment of the present invention, the first generator or the second generator is configured to generate a configuration information pool, such as a user name and password with randomness and higher security, and generate different or the same configuration information for each HGU according to a setting requirement. The generator (the first generator or the second generator) can be implemented in two ways, namely, in the integrated management system (way one) and in the EMS system (way two). The former is planned by a comprehensive management system in a unified way, and the RMS management system does not need to be responsible for modifying parameters such as user name, password and the like. In the latter, the EMS system is responsible for generating random values of parameters such as user name, password and the like, and the comprehensive management system forwards configuration information generated by the EMS.

In the fourth and fifth embodiments, the HGU is prevented from being disconnected under the current management mode setting, and the fourth and fifth embodiments are implemented by two solutions, where the first method is that the HGU of the user side receives the modified parameter value of the second management system RMS, and informs the modified parameter value to the OLT of the office side device and the EMS of the first management system. Therefore, when triggering conditions such as equipment restart occur, the configuration issued by the first management system EMS is consistent with the configuration information approved by the second management system RMS, so that the problem of disconnection of the HGU equipment on the user side can be avoided;

the second method is that the user side device HGU does not adopt the parameter value modified by the second management system RMS, but adopts the parameter directly issued by the first management system EMS even though the parameter is the random value approved by the second management system RMS, the configuration of the two systems originally needed is coordinated to adopt one system for configuration, so-called initial value is not needed to be configured, the problem of conflict among the configuration parameters among a plurality of management systems is avoided, the safety requirement of interaction between the second management system RMS and the user side device HGU is ensured, and the conflict with the GPON standard is also ensured not to occur.

EXAMPLE six

Based on the foregoing method embodiment, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where a first receiving unit, a first determining unit, a first sending unit, a second determining unit, a first obtaining unit, a first connecting unit, and modules included in the units may all be implemented by a processor in a user side device; of course, the implementation can also be realized through a specific logic circuit; in the course of a particular embodiment, the processor may be a Central Processing Unit (CPU), a Microprocessor (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like.

Fig. 6 is a schematic diagram of a configuration of a cooperative management apparatus in a six-multi-management system according to an embodiment of the present invention, and as shown in fig. 6, the apparatus 600 includes a first receiving unit 601, a first determining unit 602, and a first sending unit 603, where:

the first receiving unit is configured to receive second configuration information sent by the second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system;

the first judging unit is used for judging whether the second configuration information is stored in the first judging unit to obtain a first judging result;

the first sending unit is configured to send the second configuration information to a first management system when the first determination result indicates that the second configuration information is not stored in the first sending unit.

In this embodiment of the present invention, the apparatus further includes a discarding unit, configured to discard the second configuration information when the first determination result indicates that the second configuration information is stored in the apparatus.

In this embodiment of the present invention, the apparatus further includes a storage unit, configured to store the second configuration information in the first buffer.

In this embodiment of the present invention, the apparatus further includes a second determining unit, a first obtaining unit, and a first connecting unit, where:

the second judging unit is configured to, when the ue is pre-connected to a second management system, judge whether to connect to the second management system for the first time to obtain a second judgment result, where the second judgment result indicates whether the ue is connected to the second management system for the first time;

the first obtaining unit is used for correspondingly obtaining pre-stored first configuration information or second configuration information according to the first judgment result; the first configuration information is configuration information which is sent by a first management system and used for connecting with the second management system, and the second configuration information is configuration information which is generated by the second management system by using the first configuration information;

the first connection unit is configured to connect to the second management system using the first configuration information or the second configuration information.

Here, it should be noted that: the above description of the embodiment of the apparatus is similar to the above description of the embodiment of the method, and has similar beneficial effects to the embodiment of the method, and therefore, the description thereof is omitted. For technical details that are not disclosed in the embodiments of the apparatus of the present invention, please refer to the description of the embodiments of the method of the present invention for understanding, and therefore, for brevity, will not be described again.

EXAMPLE seven

Based on the foregoing method embodiment, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where a second receiving unit, a second obtaining unit, a first carrying unit, a second sending unit, and modules included in the units may all be implemented by a processor in a first management system; of course, the implementation can also be realized through a specific logic circuit; in the course of a particular embodiment, the processor may be a Central Processing Unit (CPU), a Microprocessor (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like.

Fig. 7 is a schematic structural diagram of a cooperative management apparatus under a seven-management system according to an embodiment of the present invention, and as shown in fig. 7, the apparatus 700 includes a second receiving unit 701, a second obtaining unit 702, a first carrying unit 703 and a second sending unit 704, where:

the second receiving unit 701 is configured to receive a first request message from the ue;

the second obtaining unit 702 is configured to obtain second configuration information in response to the first request message;

the first carrying unit 703 is configured to carry the second configuration information in a first response message;

the second sending unit 704 is configured to send the first response message, so that the ue receives the second configuration information for connecting to the second management system.

In this embodiment of the present invention, the second obtaining unit includes a first receiving module and a first storing module, where:

the first receiving module is configured to receive second configuration information from a user side device, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system;

the first storage module is configured to store the second configuration information.

Here, it should be noted that: the above description of the embodiment of the apparatus is similar to the above description of the embodiment of the method, and has similar beneficial effects to the embodiment of the method, and therefore, the description thereof is omitted. For technical details that are not disclosed in the embodiments of the apparatus of the present invention, please refer to the description of the embodiments of the method of the present invention for understanding, and therefore, for brevity, will not be described again.

Example eight

Based on the foregoing method embodiment, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where a third receiving unit, a third obtaining unit, a second carrying unit, a third sending unit, and modules included in each unit in the apparatus may all be implemented by a processor in a first management system; of course, the implementation can also be realized through a specific logic circuit; in the course of a particular embodiment, the processor may be a Central Processing Unit (CPU), a Microprocessor (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like.

Fig. 8 is a schematic structural diagram of a cooperative management apparatus under an eight-multi-management system according to an embodiment of the present invention, and as shown in fig. 8, the apparatus 800 includes a third receiving unit 801, a third obtaining unit 802, a second carrying unit 803, and a third sending unit 804, where:

the third receiving unit 801 is configured to receive a second request message from the ue, where the second request message is used to request configuration information for connecting to a second management system from a first management system under a first condition;

the third obtaining unit 802, configured to obtain configuration information in response to the second request message;

the second carrying unit 803 is configured to carry the configuration information in a second response message;

the third sending unit 804 is configured to send a second response message, so that the ue receives the configuration information for connecting to the second management system.

In this embodiment of the present invention, the third obtaining unit includes a second receiving module and a second storing module, where:

the second receiving module is used for receiving the configuration information generated and sent by the integrated management system;

the second storage module is used for storing the configuration information.

In this embodiment of the present invention, the third obtaining unit is configured to generate configuration information according to a first rule in response to the second request message.

In this embodiment of the present invention, the third sending unit is further configured to send the configuration information to the integrated management system, so that the configuration information is forwarded to the second management system through the integrated management system.

Here, it should be noted that: the above description of the embodiment of the apparatus is similar to the above description of the embodiment of the method, and has similar beneficial effects to the embodiment of the method, and therefore, the description thereof is omitted. For technical details that are not disclosed in the embodiments of the apparatus of the present invention, please refer to the description of the embodiments of the method of the present invention for understanding, and therefore, for brevity, will not be described again.

Example nine

Based on the foregoing method embodiment, an embodiment of the present invention provides a cooperative management apparatus in a multi-management system, where a fourth sending unit, a fourth receiving unit, an analyzing unit, and a second connecting unit in the apparatus may all be implemented by a processor in a user side device; of course, the implementation can also be realized through a specific logic circuit; in the course of a particular embodiment, the processor may be a Central Processing Unit (CPU), a Microprocessor (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like.

Fig. 9 is a schematic structural diagram of a cooperative management apparatus in a nine-management-system according to an embodiment of the present invention, and as shown in fig. 9, the apparatus 900 includes a fourth sending unit 901, a fourth receiving unit 902, an analyzing unit 903, and a second connecting unit 904, where:

the fourth sending unit 901 is configured to send a second request message under the first condition, where the second request message is used to request configuration information for connecting to the second management system from the first management system;

the fourth receiving unit 902 is configured to receive a second response message, where the second response message is from the first management system and carries the requested configuration information;

the analyzing unit 903 is configured to analyze the second response message to obtain configuration information;

the second connection unit 904 is configured to connect to a second management system using the configuration information.

Here, it should be noted that: the above description of the embodiment of the apparatus is similar to the above description of the embodiment of the method, and has similar beneficial effects to the embodiment of the method, and therefore, the description thereof is omitted. For technical details that are not disclosed in the embodiments of the apparatus of the present invention, please refer to the description of the embodiments of the method of the present invention for understanding, and therefore, for brevity, will not be described again.

Example ten

Based on the foregoing embodiments, an embodiment of the present invention provides a user-side device, where the user-side device includes a first processor, a first receiver, and a first transmitter, where:

the first receiver is configured to receive second configuration information sent by the second management system;

the first transmitter is used for transmitting the second configuration information to a first management system;

the first processor is configured to control the first receiver to receive second configuration information sent by the second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system; judging whether the second configuration information is stored in the mobile terminal, and obtaining a first judgment result; and when the first judgment result shows that the second configuration information is not stored in the first management system, controlling the first transmitter to transmit the second configuration information to the first management system.

Here, it should be noted that: the above description of the embodiment of the ue is similar to the above description of the method, and has the same beneficial effects as the method embodiment, and therefore, the details are not repeated. For technical details that are not disclosed in the embodiment of the ue of the present invention, those skilled in the art should refer to the description of the embodiment of the method of the present invention to understand that, for brevity, detailed description is omitted here.

EXAMPLE eleven

Based on the foregoing embodiments, an embodiment of the present invention provides a management system, where the first management system includes a third receiver, a third transmitter, and a third processor, where:

the third receiver is configured to receive a first request message from the ue;

the third transmitter is configured to transmit the first response message;

the third processor is configured to control a third receiver to receive a first request message from the ue; responding to the first request message, acquiring second configuration information, and carrying the second configuration information in a first response message; and controlling a third transmitter to transmit the first response message so that the user-side equipment receives the second configuration information for connecting the second management system.

Here, it should be noted that: the above description of the first management system embodiment is similar to the above description of the method, and has the same beneficial effects as the method embodiment, and therefore, the description thereof is omitted. For technical details that are not disclosed in the embodiment of the first management system of the present invention, those skilled in the art should refer to the description of the embodiment of the method of the present invention to understand that, for the sake of brevity, detailed description is omitted here.

Example twelve

Based on the foregoing embodiments, an embodiment of the present invention provides a first management system, where the 2 first management system includes a fifth receiver, a fifth transmitter, and a fourth processor, where:

the fifth receiver is configured to receive a second request message from the ue;

the fifth transmitter is configured to transmit the second response message;

the fourth processor is configured to control a fifth receiver to receive a second request message from the ue, where the second request message is used to request configuration information for connecting to a second management system from a first management system under a first condition; responding to the second request message, acquiring configuration information, and carrying the configuration information in a second response message; and controlling a fifth transmitter to transmit the second response message so that the user-side equipment receives the configuration information for connecting the second management system.

Here, it should be noted that: the above description of the first management system embodiment is similar to the above description of the method, and has the same beneficial effects as the method embodiment, and therefore, the description thereof is omitted. For technical details that are not disclosed in the embodiment of the first management system of the present invention, those skilled in the art should refer to the description of the embodiment of the method of the present invention to understand that, for the sake of brevity, detailed description is omitted here.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. It should be understood that, in various embodiments of the present invention, the sequence numbers of the above-mentioned processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention. The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

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

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units; can be located in one place or distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may be separately regarded as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: various media that can store program codes, such as a removable Memory device, a Read Only Memory (ROM), a magnetic disk, or an optical disk.

Alternatively, the integrated unit of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a ROM, a magnetic or optical disk, or other various media that can store program code.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (28)

1. A collaborative management method under a multi-management system, the method comprising:

the method comprises the steps that user side equipment receives second configuration information sent by a second management system, wherein the second configuration information is configuration information generated by the second management system by utilizing first configuration information, and the first configuration information is configuration information which is sent by a first management system and used for being connected with the second management system;

the user side equipment judges whether the second configuration information is stored in the user side equipment to obtain a first judgment result;

and when the first judgment result shows that the second configuration information is not stored in the user side equipment, the user side equipment sends the second configuration information to a first management system.

2. The method of claim 1, further comprising:

and when the first judgment result shows that the second configuration information is stored in the user side equipment, the user side equipment discards the second configuration information.

3. The method of claim 1, further comprising:

and when the first judgment result shows that the second configuration information is not stored in the user side equipment, the user side equipment stores the second configuration information in a first buffer.

4. The method according to any one of claims 1 to 2, further comprising:

when the user side equipment is connected with a second management system in advance, the user side equipment judges whether to be connected with the second management system for the first time to obtain a second judgment result, and the second judgment result indicates whether the user side equipment is connected with the second management system for the first time;

the user side equipment correspondingly acquires pre-stored first configuration information or second configuration information according to the first judgment result, and the method comprises the following steps: when the second judgment result shows that the second management system is not connected for the first time, the user side equipment acquires second configuration information from the first buffer; when the second judgment result shows that the second management system is connected for the first time, the user side equipment acquires the pre-stored first configuration information;

and the user side equipment is connected with the second management system by using the first configuration information or the second configuration information.

5. The method of claim 3, further comprising:

when the user side equipment is connected with a second management system in advance, the user side equipment judges whether to be connected with the second management system for the first time to obtain a second judgment result, and the second judgment result indicates whether the user side equipment is connected with the second management system for the first time;

the user side equipment correspondingly acquires pre-stored first configuration information or second configuration information according to the first judgment result, and the method comprises the following steps: when the second judgment result shows that the second management system is not connected for the first time, the user side equipment acquires second configuration information from the first buffer; when the second judgment result shows that the second management system is connected for the first time, the user side equipment acquires the pre-stored first configuration information;

and the user side equipment is connected with the second management system by using the first configuration information or the second configuration information.

6. The method according to any of claims 1 to 3, wherein the user-side device is a Home Gateway Unit (HGU) in a Passive Optical Network (PON) system or a modem in Digital Subscriber Line (DSL) technology.

7. A collaborative management method under a multi-management system, the method comprising:

a first management system receives a first request message from user side equipment;

the first management system responds to the first request message, acquires second configuration information, and carries the second configuration information in a first response message;

and the first management system sends the first response message so that the user side equipment receives the second configuration information for connecting a second management system.

8. The method of claim 7, wherein before the first management system receives the first request message from the user-side device, the method further comprises:

the first management system receives the second configuration information from the user side device, where the second configuration information is configuration information generated by the second management system by using first configuration information after the user side device is connected to the second management system for the first time, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system;

and the first management system stores the second configuration information.

9. A collaborative management method under a multi-management system, the method comprising:

the first management system receives a second request message from the user side equipment, wherein the second request message is used for requesting configuration information for connecting a second management system from the first management system under a first condition; the first condition comprises that the user side equipment is restarted, and after the user side equipment is successfully connected with the first management system, the second management system is connected for the first time;

the first management system responds to the second request message, acquires configuration information and carries the configuration information in a second response message;

and the first management system sends the second response message so that the user side equipment receives the configuration information for connecting the second management system.

10. The method of claim 9, wherein the first management system obtains configuration information, comprising:

the first management system receives configuration information generated and sent by the integrated management system;

and the first management system stores the configuration information.

11. The method of claim 9, wherein the first management system obtains configuration information, comprising:

and the first management system responds to the second request message and generates configuration information according to a first rule.

12. The method of claim 10, further comprising:

and the first management system sends the configuration information to the comprehensive management system so as to forward the configuration information to a second management system through the comprehensive management system.

13. A collaborative management method under a multi-management system, the method comprising:

the user side equipment sends a second request message under a first condition, wherein the second request message is used for requesting configuration information for connecting a second management system from a first management system; the first condition comprises that the user side equipment is restarted, and after the user side equipment is successfully connected with the first management system, the second management system is connected for the first time;

the user side equipment receives a second response message, wherein the second response message is from the first management system and carries the requested configuration information;

the user side equipment analyzes the second response message to obtain configuration information;

and the user side equipment is connected with a second management system by using the configuration information.

14. The method according to claim 13, wherein the user-side device is a Home Gateway Unit (HGU) in a Passive Optical Network (PON) system or a modem in a Digital Subscriber Line (DSL) technology.

15. A cooperative management apparatus under a multi-management system, the apparatus comprising a first receiving unit, a first judging unit, and a first transmitting unit, wherein:

the first receiving unit is configured to receive second configuration information sent by a second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by a first management system and used for connecting to the second management system;

the first judging unit is used for judging whether the second configuration information is stored in the first judging unit to obtain a first judging result;

the first sending unit is configured to send the second configuration information to a first management system when the first determination result indicates that the second configuration information is not stored in the first sending unit.

16. The apparatus according to claim 15, further comprising a discarding unit configured to discard the second configuration information when the first determination result indicates that the second configuration information is stored in the apparatus.

17. The apparatus according to claim 15, further comprising a storage unit configured to store the second configuration information in a first buffer when the first determination result indicates that the second configuration information is not stored in the first buffer.

18. The apparatus according to claim 17, further comprising a second determining unit, a first obtaining unit and a first connecting unit, wherein:

the second judging unit is configured to, when the ue is pre-connected to a second management system, judge whether to connect to the second management system for the first time to obtain a second judgment result, where the second judgment result indicates whether the ue is connected to the second management system for the first time;

the first obtaining unit is configured to correspondingly obtain pre-stored first configuration information or second configuration information according to the first determination result, and includes: when the second judgment result shows that the second management system is not connected for the first time, the user side equipment acquires second configuration information from the first buffer; when the second judgment result shows that the second management system is connected for the first time, the user side equipment acquires the pre-stored first configuration information;

the first connection unit is configured to connect to the second management system using the first configuration information or the second configuration information.

19. The cooperative management device under the multi-management system is characterized in that the device comprises a second receiving unit, a second obtaining unit, a first carrying unit and a second sending unit, wherein:

the second receiving unit is used for receiving a first request message from the user side equipment;

the second obtaining unit is configured to obtain second configuration information in response to the first request message;

the first carrying unit is configured to carry the second configuration information in a first response message;

the second sending unit is configured to send the first response message, so that the ue receives the second configuration information for connecting to a second management system.

20. The apparatus of claim 19, wherein the second obtaining unit comprises a first receiving module and a first storing module, and wherein:

the first receiving module is configured to receive, before the second receiving unit receives the first request message from the ue, the second configuration information from the ue, where the second configuration information is configuration information generated by the second management system using first configuration information after the ue connects to the second management system for the first time, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system;

the first storage module is configured to store the second configuration information.

21. The cooperative management device under the multi-management system is characterized in that the device comprises a third receiving unit, a third acquiring unit, a second carrying unit and a third sending unit, wherein:

the third receiving unit is configured to receive a second request message from the user side device, where the second request message is used to request configuration information for connecting to the second management system from the first management system under the first condition; the first condition comprises that the user side equipment is restarted, and after the user side equipment is successfully connected with the first management system, the second management system is connected for the first time;

the third obtaining unit is configured to obtain configuration information in response to the second request message;

the second carrying unit is configured to carry the configuration information in a second response message;

the third sending unit is configured to send a second response message, so that the ue receives the configuration information for connecting to the second management system.

22. The apparatus of claim 21, wherein the third obtaining unit comprises a second receiving module and a second storing module, and wherein:

the second receiving module is used for receiving the configuration information generated and sent by the integrated management system;

the second storage module is used for storing the configuration information.

23. The apparatus of claim 21, wherein the third obtaining unit is configured to generate the configuration information according to a first rule in response to the second request message.

24. The apparatus of claim 22, wherein the third sending unit is further configured to send the configuration information to the integrated management system, so as to forward the configuration information to a second management system through the integrated management system.

25. A cooperative management apparatus under a multi-management system, the apparatus comprising a fourth sending unit, a fourth receiving unit, an analysis unit, and a second connection unit, wherein:

the fourth sending unit is configured to send a second request message under the first condition, where the second request message is used to request the first management system for configuration information used for connecting to the second management system; the first condition comprises that user side equipment is restarted, and after the user side equipment is successfully connected with the first management system, the second management system is connected for the first time;

the fourth receiving unit is configured to receive a second response message, where the second response message is from the first management system and carries the requested configuration information;

the analysis unit is used for analyzing the second response message to obtain configuration information;

the second connection unit is used for connecting a second management system by using the configuration information.

26. A user-side device, comprising a first processor, a first receiver, and a first transmitter, wherein:

the first receiver is used for receiving second configuration information sent by a second management system;

the first transmitter is used for transmitting the second configuration information to a first management system;

the first processor is configured to control the first receiver to receive second configuration information sent by the second management system, where the second configuration information is configuration information generated by the second management system by using first configuration information, and the first configuration information is configuration information sent by the first management system and used for connecting to the second management system; judging whether the second configuration information is stored in the mobile terminal, and obtaining a first judgment result; and when the first judgment result shows that the second configuration information is not stored in the first management system, controlling the first transmitter to transmit the second configuration information to the first management system.

27. A first management system, characterized in that the first management system comprises a third receiver, a third transmitter, and a third processor, wherein:

the third receiver is configured to receive a first request message from a user side device;

the third transmitter is used for transmitting a first response message;

the third processor is configured to control a third receiver to receive a first request message from the ue; responding to the first request message, acquiring second configuration information, and carrying the second configuration information in a first response message; and controlling a third transmitter to transmit the first response message so that the user-side equipment receives the second configuration information for connecting a second management system.

28. A first management system, characterized in that the first management system comprises a fifth receiver, a fifth transmitter, and a fourth processor, wherein:

the fifth receiver is configured to receive a second request message from the ue;

the fifth transmitter is configured to transmit a second response message;

the fourth processor is configured to control a fifth receiver to receive a second request message from the ue, where the second request message is used to request configuration information for connecting to a second management system from a first management system under a first condition; responding to the second request message, acquiring configuration information, and carrying the configuration information in a second response message; controlling a fifth transmitter to transmit the second response message so that the user-side device receives the configuration information for connecting the second management system; the first condition comprises that the user side equipment is restarted, and after the user side equipment is successfully connected with the first management system, the second management system is connected for the first time.

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