CN101656713A - Method, equipment and system for integrating data information targets - Google Patents

Abstract

In order to reduce the data information maintenance cost and improve the consistency, the integrity and the initiative of data information in a communication network, the embodiment of invention discloses a method and equipment for integrating data information targets of the information communication network and relates to network communication technology. The method comprises the following stepsthat: an information base target entity receives data processing requests; and the information base target entity searches positions of the data information targets matched with the data processing requests according to the data processing requests and processes the data information targets according to the data processing request, wherein the data information targets are the data information targets which are formed by modeling active targets. The method, the equipment and the system are mainly applied in the data fusion technology of the communication network.

Description

Data information object integration method, equipment and system

Technical Field

The present invention relates to the field of network technologies, and in particular, to a method, a device, and a system for integrating data information objects in an information communication network.

Background

With the rapid development and popularization of information communication technology, TIME business convergence consisting of communication (Telecom), Internet (Internet), content Media (Media), and consumer Electronics (consumer Electronics) has become a necessary trend.

In the process of implementing TIME service convergence, the integration and cooperation of data information in a network environment, including dynamic context state information and relatively static subscription information, is critical. However, in the current information communication network, a plurality of user Subscription data, Service context data, network context data, device context data, etc. are distributed in different physical storage devices, such as HLR (Home Location Register)/HSS (Home Subscription Server), AAA (Authentication, Authorization, Accounting, Authentication, Authorization, and Accounting), SDP (Service Delivery Platform), etc.

In the prior art, a limited data information integration under a converged service is usually realized by using a Business/Operation support system (BOSS) and a service delivery platform.

The BOSS takes a network as a center to realize the combination of services, the management of fee packages and network elements. The method comprises the steps of storing an original file of user subscription data information in a BOSS system, storing a large number of copies of various original context data and subscription data information in network elements (such as HLR, HSS, AAA and the like) in an information communication network environment, storing user service (application) subscription data in an SDP, and copying copies of part of user network subscription data and charging data in the BOSS system. In this way, the data information is tightly coupled to the service operation environment.

In the technology for realizing the integration of the data information by using the BOSS and the SDP, because a large number of copies of various data information exist between the BOSS and each network element device in the information communication network, the problem of inconsistency of data stored between the network element devices is caused, meanwhile, the workload of data maintenance is large, the maintenance cost is high, and more importantly, the difficulty and the complexity of service melting are increased.

Disclosure of Invention

Embodiments of the present invention provide a method and an apparatus for integrating data information objects, so as to reduce the cost of maintaining data in a communication network and improve the consistency of data information.

The embodiment of the invention provides an integration method of data information objects, which comprises the following steps:

the information base object entity receives a data processing request;

the information-based object entity searches the position of a data information object matched with the data processing request according to the data processing request and processes the data information object according to the data processing request; and the data information object is subjected to active object modeling processing.

An information-based object entity, the information-based object entity being located in an information-based overlay network, comprising:

a receiving unit for receiving a data processing request;

and the operation unit is used for searching the position of the data information object matched with the data processing request according to the data processing request and processing the data information object according to the data processing request.

The embodiment of the invention also provides a distributed information-based overlay network system, so as to reduce the cost of maintaining data in a communication network and improve the consistency of data information.

A distributed information-based overlay network system, comprising: at least one agent entity and at least one information-based object entity; wherein,

the agent entity is used for receiving a data information processing request of the network element equipment and sending the data processing request to the information base object entity;

and the information-based object entity is used for storing the data information object subjected to the active object modeling processing, searching the position of the data information object matched with the data processing request, and processing the data information object according to the data processing request.

It can be seen from the above that, in the embodiment of the present invention, the data information object processed by the active object model in the information communication network is stored in the information-based object entity in the information-based overlay network, so that the data information of each network element device is independent from its execution logic. When each network element device needs to execute corresponding data operation, it will request the information base object entity to process corresponding data information object for it through the interface between the network element device and the information object entity. Therefore, the embodiment of the invention can realize the unified management of the data information, reduce the repeated copying of the data information among network element equipment, keep the consistency and the integrity of the data information and reduce the maintenance cost of the data information.

Drawings

FIG. 1 is a schematic diagram of a distributed data information overlay network according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an information-based overlay network according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a method for integrating data information objects according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating a method for integrating data information objects according to an embodiment of the present invention;

FIG. 5 is a block diagram of an information-based object entity according to an embodiment of the present invention;

fig. 6 is a schematic diagram of an information-based object entity according to an embodiment of the present invention.

Detailed Description

The embodiment of the invention provides an integration method and equipment of data information in an information communication network and an information-based overlay network. The technical solutions of the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

In the embodiment of the invention, data information in each network element device in an information communication network, such as user subscription data, service context data, network context data, device context data and the like, is independent from the execution logic of the network element device, active object modeling processing is carried out on each type of data information to form a data information object, a distributed data information superposition network is formed on a network control plane, and the data information object is stored in the distributed data information superposition network. Through the distributed data information superposition network, the unified management of the data information is realized, so that the process of repeated copying of a large amount of data information is reduced, and the maintenance cost is reduced.

In the above-mentioned distributed data information overlay network, as shown in fig. 1, the network can be divided into three components: a Network domain, a service domain and a distributed information-based Overlay Network (IBON).

As shown in fig. 2, the distributed information-based overlay network includes a proxy entity 21, configured to receive a data processing request of a network element device, and send the data processing request; an information-based Object Entity (IBOE) 22, configured to store the data information Object subjected to the active Object modeling processing, search for a position of the data information Object matching the received data processing request, perform corresponding processing on the data information Object, and send a data information processing result obtained by processing the data information Object to the network element device.

The data processing request comprises a modification request for a data information object, a deletion request for the data information object, an addition request for the data information object or a search request for the data information object, and the like. Correspondingly, the processing of the data information object by the information-based object entity includes modifying the corresponding data information object, deleting the data information object, adding the data information object, or searching the data information object, etc.

In addition, in order to further ensure consistency and integrity of the data information object after the data information object is correspondingly processed, the information-based overlay network may further include: the arbitration and coordination entity 23 is configured to perform validity detection, such as collision detection, consistency detection, integrity detection, and the like, on a data information processing result returned by the information-based object entity according to a predetermined policy; and after the detection of the data information processing result passes, sending a detection passing message to the information-based object entity 22, so that the information-based object entity sends the data information processing result to the network element equipment.

In the distributed data information overlay network shown in fig. 1, the network Domain (Net-Domain) may include: client terminal environments such as mobile terminals, home networks, and sports networks; telecommunications domain access network environments such as: GSM (Global System For Mobile Communication), CDMA (Code-Division Multiple Access), UMTS (Universal Mobile telecommunications System), WiMAX (worldwide interoperability For Microwave Access), LTE (long term Evolution), and the like; a carrier web environment, such as: SDH (Synchronous digital hierarchy), WDM (Wavelength Division Multiplexing), and the like; telecommunications basic capability platforms such as: MGW (Media Gateway), SMSC (short message Service center), etc.

In the network domain, each network element device has a SLEE (Service Logic execution environment) responsible for executing the function of the network element device. After the data information is decoupled from the SLEE, the SLEE carries out real-time and dynamic data information interaction through an information interaction interface between the SLEE and the IBON.

A Service-Domain may include: the internet, the intranet and other functional domains provide business services for service users. The SDP in the service domain is responsible for generating and delivering services, is an execution environment of service logic, is decoupled from data information, and performs real-time and dynamic interaction of the data information with the IBON through an interface.

The information communication network can be divided into three layers according to functions, wherein the uppermost layer is a service logic topological layer facing specific service requirements, the middle layer is a common unified control plane layer, and the bottommost layer is a physical device and a transmission network layer. Thus, the distributed data information overlay network as shown in fig. 1 may be partitioned into control plane layers.

Further, the data information stored in the information-based object entity 22 is a data information object that has undergone an active object modeling process. The active object enjoys the initiative to invoke other objects or its own operations and has full control over its own operations when invoked by other objects, the active object having potential "concurrency", i.e. having "parallel" behavior with other objects. For each object that needs to be executed concurrently, requests for the object method are decoupled from method execution. Such decoupling is designed to enable methods called by clients to be automatically converted into method request objects and passed to method implementation servers, where the method request objects are in turn converted back into method calls and executed on object implementations.

Specifically, in the embodiment of the present invention, the following entities are required to participate in the active object modeling of the data information in the information-based object entity: an agent, an active queue, a scheduler, a server, an arbitration and coordination entity, and an information-based object entity.

Wherein the proxy provides an interface to invoke publicly accessible methods of the active object. The construction and queuing of method request objects is triggered on the scheduler's active queue when the agent-defined method is invoked. Futures (Future) is a result save queue in the agent that allows the client to get the results of a method invocation after the server has finished executing the method. In order to ensure concurrency, a method request called by the client is immediately returned to the client in a futures mode, and the client can inquire a futures result in a blocking or polling mode. The active queue is used to maintain pending method requests created by the agent and to track which method requests are to be executed.

The scheduler is responsible for managing the active queue of pending method requests, deciding the next dequeued method request, and executing on the server implementing the method. The definition of a server is the behavior and state modeled as an active object. It implements methods defined in the agent and corresponding method requests, the server being executed under the control of the scheduler.

The arbitration and coordination entity performs rule conflict and consistency detection on the data information object according to certain strategies and rules (such as user states, charging rules, service priority setting and the like) so as to keep the consistency and integrity of the data information returned to the client.

The information-based object entity is a storage entity of the data information object, and forms a data information object quadruple by performing objectification modeling on the data information objects, and the data information object quadruple is expressed in the following way: object 1 ≦ i ≦ m {0(i) |. Wherein 0(i) < OID, Attributes, Status, Methods >, Object represents the set of all objects, 0(i) represents a certain Object in the set, OID is the Object identifier of the Object, Attributes of the Object are represented by the Attributes, Status represents the state of the Object, and Methods represent the method of the Object.

In the active object mode, the collaboration process between the participating entities mainly includes the following stages:

stage 1: request and scheduling phase: the client invokes a method on the proxy, triggering the creation of a method request. The method requests that the parameters of the maintenance method, as well as any other execution methods and returned results, be bound. The agent then passes the method request to the dispatcher, which places it in an enable queue. If the method request is defined as "two-way" (asynchronous), a binding of futures is returned to the client that called the method. If the method request is defined as "one-way" (synchronous), no futures are returned, i.e., it returns no value.

And (2) stage: an execution stage: the dispatcher monitors the enable queue and determines which method requests have become runnable. When a recipe request becomes operational, the dispatcher dequeues it, binds it to the IBOE access server, and dispatches the appropriate recipe for that server to access the IBOE object.

And (3) stage: and a finishing stage: the results are stored in futures and the dispatcher continuously monitors the enable queue for runnable method requests. After a two-way method request is completed, the client may obtain its results by rendezvousing with futures. In general, any client that meets futures can obtain its results. When method requests and futures are no longer referenced, they are deleted or garbage collected.

After the network is constructed, when a certain network element device requests to process a certain data information object, as shown in fig. 3, the method for integrating data information objects in an information communication network according to an embodiment of the present invention may include the following steps:

step 31, the information-based object entity receives a data processing request sent by the network element equipment;

the information-based object entity is positioned in the information-based overlay network. When the network element equipment sends a data processing request, the network element equipment can acquire relevant information of the proxy entity capable of receiving the data processing request according to the object relationship between the network element equipment and the proxy entity stored in the network element equipment, so that the data information processing result required by the network element equipment can be accurately acquired.

When a proxy entity forwards a data processing request of network element equipment for an information-based object entity, the proxy entity searches the information-based object entity with data information corresponding to the data processing request according to the received data processing request, and then the proxy entity sends the data processing request to the information-based object entity.

In addition, the agent entity is used for realizing the functions of object registration and discovery, session control of linking the information-based overlay network and an external entity, intercommunication between IBON and the like in the information-based overlay network.

Step 32, the information-based object entity searches the position of the data information object matched with the data processing request according to the data processing request, and correspondingly processes the data information object; and the data information object is subjected to active object modeling processing.

Wherein, the corresponding processing of the data information object by the information-based object entity comprises: and deleting the corresponding data information object, adding the corresponding data information object, or searching the corresponding data information object according to the data processing request of the network element equipment.

The process of locating the information-based object entity to the matching data information object may comprise: and generating a method object according to the data processing request, then scheduling the method object by the scheduler, mapping the method to the service servant, positioning the corresponding data information object by the information-based object entity, and performing corresponding processing.

In addition, as shown in fig. 4, before the step 31, in order to improve efficiency of searching for a corresponding data information object, the method according to the embodiment of the present invention further includes:

step 301, storing the data information object after the active object modeling processing in an information-based object entity in the information-based overlay network.

In order to enable the network element device to accurately obtain the processing result of the data information requested to be processed, the method according to the embodiment of the present invention further includes:

and step 33, the information-based object entity sends a data information processing result to the network element equipment.

Meanwhile, in order to further ensure the integrity and consistency of the data information object after the data information object is correspondingly processed, before step 33, the method according to the embodiment of the present invention may further include:

331, an arbitration and coordination entity in the information-based overlay network detects the data information processing result according to a policy, such as user state, charging rule or service priority setting, to ensure the integrity and consistency of the data information processing result;

step 332, after the detection of the data information processing result passes, sending a detection passing message to the information-based object entity, so that the information-based object entity sends the data information processing result to the network element device.

As can be seen from the above description, the embodiment of the present invention enables data information of each network element device to be decoupled from its execution logic by storing data information in an information communication network into an information-based object entity in an information-based overlay network. When each network element equipment needs to execute corresponding data, it will request the information-based object entity to transmit corresponding data for it through the interface with the information-based object entity. Therefore, the embodiment of the invention can realize the unified management of the data information and reduce the repeated copying of the data information among network element equipment, thereby correspondingly reducing the cost of maintaining the data information.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

As shown in fig. 5, the information-based object entity includes: a receiving unit 52, and an operating unit 53. Wherein, the receiving unit 52 is configured to receive a data processing request; and the operation unit 53 is configured to search, according to the data processing request, a location of a data information object matching the data processing request, and process the data information object according to the data processing request.

Also in this embodiment, the data processing request includes a modification request for a data information object, a deletion request for a data information object, an addition request for a data information object, or a search request for a data information object. The processing of the data information object by the information-based object comprises modifying the data information object, deleting the data information object, adding the data information object or searching the data information object.

Therefore, as shown in fig. 6, the operation unit 53 may include the following components:

an operation module 531 for modifying or deleting or adding data information objects; a searching module 532 for searching the data information object.

Furthermore, as shown in fig. 6, the information-based object entity further includes: a storage unit 51 for storing the data information object subjected to the active object modeling process; a first sending unit 54, configured to send a data information processing result obtained by processing the data information object to the network element device.

In addition, the receiving unit 51 is further configured to receive a detection passing message sent by an arbitration and coordination entity in the information-based overlay network; the sending unit 54 sends the data information processing result to the network element device through the message according to the detection. Correspondingly, the information-based object entity further comprises: the second sending unit 55 is configured to send a data information processing result to the network element device through the message according to the detection.

The embodiment of the invention enables the data information of each network element device to be decoupled from the execution logic of the network element device by storing the data information in the information communication network into the information-based object entity in the information-based overlay network. When each network element equipment needs to execute corresponding data, it will request the information-based object entity to transmit corresponding data for it through the interface with the information-based object entity. Therefore, the embodiment of the invention can realize the unified management of the data information and reduce the repeated copying of the data information among network element equipment, thereby correspondingly reducing the cost of maintaining the data information.

Meanwhile, the data information object stored in the information-based object entity is processed by the active object model, so that the data information object can actively detect and sense the change of the external environment and automatically modify the behavior of the data information object, and the data information object has the characteristics of consistency, closure and initiative, thereby being capable of providing an information source which can accurately and timely meet the requirements of a user and providing basic conditions for the environment (service and user) sensing intelligent development of an information communication network.

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 claims.

Claims (18)

1. A method for integrating data information objects, the method comprising:

the information base object entity receives a data processing request;

the information-based object entity searches the position of a data information object matched with the data processing request according to the data processing request and processes the data information object according to the data processing request; and the data information object is subjected to active object modeling processing.

2. The method of claim 1, wherein prior to the step of receiving a data processing request by the information-based object entity, the method further comprises:

and storing the data information object subjected to the active object modeling processing in an information-based object entity in the information-based overlay network.

3. The method of claim 2, wherein after the step of storing the data-information object subjected to the active object modeling process in an information-based object entity located in the information-based overlay network, the method further comprises:

a proxy entity positioned in the information-based overlay network receives a data processing request of network element equipment;

the agent entity searches an information-based object entity with data information corresponding to the data processing request according to the data processing request;

and the proxy entity sends the data processing request to the information-based object entity.

4. The method of claim 1, wherein after said step of processing said data information objects in accordance with a data processing request, said method further comprises:

and the information base object entity sends a data information processing result obtained after the data information object is processed to the network element equipment.

5. The method according to any of claims 1-4, wherein the data processing request comprises a request for modifying a data information object, a request for deleting a data information object, a request for adding a data information object, or a request for searching a data information object.

6. The method of any of claims 1-4, wherein the information-based object entity processing the data message object according to the data processing request comprises modifying the data message object, deleting the data message object, adding the data message object, or searching the data message object.

7. The method of claim 1, wherein after said step of processing said data information objects in accordance with a data processing request, said method further comprises:

the arbitration and coordination entity in the information-based overlay network carries out validity detection on the data information processing result according to a strategy;

and after the detection of the data information processing result passes, sending a detection passing message to the information-based object entity so that the information-based object entity sends the data information processing result to network element equipment.

8. The method of claim 1, wherein the data-information objects are stored in quadruples.

9. The method according to claim 7, wherein the detecting validity of the data information processing result comprises: and detecting the conflict, consistency and integrity of the data information processing result.

10. A distributed information-based overlay network system is characterized by comprising at least one agent entity and at least one information-based object entity; wherein,

the agent entity is used for receiving a data information processing request of the network element equipment and sending the data processing request to the information base object entity;

and the information-based object entity is used for storing the data information object subjected to the active object modeling processing, searching the position of the data information object matched with the data processing request, and processing the data information object according to the data processing request.

11. The distributed information-based overlay network system of claim 10, wherein the information-based object entity is further configured to send a data information processing result obtained by processing the data information object to the network element device.

12. The distributed information-based overlay network system of claim 11 wherein said information overlay network further comprises:

the arbitration and coordination entity is used for detecting the data information processing result sent by the information base object entity according to a preset strategy; when the detection of the data information processing result passes, sending a detection passing message to the information-based object entity;

the information-based object entity is further configured to send a data information processing result obtained by processing the data information object to the network element device after receiving the detection passing message.

13. The distributed information-based overlay network system of claim 12 wherein the detection of the data-information processing results by the arbitration and coordination entity comprises: conflict detection, consistency detection and integrity detection.

14. An information-based object entity, wherein the information-based object entity is located in an information-based overlay network, comprising:

a receiving unit for receiving a data processing request;

and the operation unit is used for searching the position of the data information object matched with the data processing request according to the data processing request and processing the data information object according to the data processing request.

15. The information-based object entity of claim 14, further comprising:

and the storage unit is used for storing the data information object subjected to the active object modeling processing.

16. The information-based object entity according to claim 14 or 15, further comprising:

a first sending unit, configured to send a data information processing result obtained by processing the data information object to the network element device.

17. The information-based object entity of claim 16, further comprising a second sending unit;

the receiving unit is also used for receiving a detection passing message sent by the arbitration and coordination entity;

and the second sending unit is used for sending a data information processing result to the network element equipment through the message according to the detection.

18. The information-based object entity according to claim 14, wherein the operation unit comprises:

the operation module is used for modifying, deleting or adding the data information object;

and the searching module is used for searching the data information object.

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