CN104660547A - Service platform for realizing telecommunications - Google Patents

Abstract

An embodiment of the invention provides a service platform for realizing telecommunications. The service platform comprises a uniform interface protocol unit, an application interface adaptation protocol unit, a tree-like object model unit and a channel layer and description layer interaction mechanism unit, wherein the uniform interface protocol unit is used for setting different protocols in an application layer, a description layer and a channel layer; the application interface adaptation protocol unit is used for providing an application interface adaptation protocol which is used in the application layer and is independent of the channel layer and the description layer; the application interface adaptation protocol provides a request service parameter and a return service parameter; the tree-like object model unit is used for describing the request service parameter and the return service parameter in the application interface adaptation protocol unit; the channel layer and description layer interaction mechanism unit for providing an interaction model between the description layer and the channel layer, encapsulating a protocol supported by the channel layer in the interaction model, and providing an interface used in the description layer. No matter which improvements are made on each unit related to a T service platform, the layered setting supports the requirements of each improved unit.

Description

A kind of service platform realizing telecommunication

Technical field

The present invention relates to telecommunication technology, refer to a kind of service platform realizing telecommunication especially.

Background technology

Telematics is the compound word of telecommunication (Telecommunications) and information science (Informatics), and Telematics service platform provides the information such as radio communication, satellite navigation and text-to-speech by wireless network to the terminal be built in the means of transportations such as automobile, aviation, boats and ships, train.

Due to the specification disunity of each manufacturer terminal, the technical specification of automobile vendor and business demand are day by day diversified, and the level of availability of the service system of content supplier (CP, Content Provider) is uneven, causes Telematics to be faced with various problems:

User's request is many, and change is fast, and Telematics cannot catch up with the rhythm of changes in demand.The developer of WebGIS thirsts for there is one based on the solution of enterprise-level application, and terminal producer and content supplier cannot respond the change of automobile vendor fast, and data refresh mode is single, and data structure is many and assorted, and data heterogeneous question is serious.Advance and carry out in Telematics business procedure, need to tackle multiple automobile vendor Service interface protocol, the interactive interface specification of multiple CP, the technical specification of multiple car-mounted terminal manufacturer etc., this needs to consume human and material resources energetically and repeatedly links up confirmation, development& testing etc., and causes the problems such as potential risks to the business of on-line operation.

There are the following problems for prior art: Telematics service platform relates to manufacturer terminal, content supplier, automobile vendor and system manufacturer, due to the protocol specification disunity that existing Telematics service platform uses, the upgrading change that result in either party all can cause occurring between self and Telematics service platform and other side incompatible.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of service platform realizing telecommunication, solve in prior art, the protocol specification disunity that existing Telematics service platform uses, the upgrading change that result in either party all can cause occurring between self and Telematics service platform and other side incompatible.

For solving the problems of the technologies described above, embodiments of the invention provide a kind of service platform realizing telecommunication, comprising: unified interface protocol element, are provided with different agreements for layering in application layer, describing layer and channel layer; Application interface adapting protocol unit, uses in application layer for being provided in, and independent of the application interface adapting protocol of described channel layer and described describing layer, described application interface adapting protocol provides requested service parameter and returns service parameter; Tree-shaped object model unit, in described application interface adapting protocol unit, describes described request service parameter and returns service parameter; Channel layer and describing layer interaction mechanism unit, for providing interaction models between describing layer and channel layer, encapsulate the agreement of channel layer support, and be provided in the interface used in describing layer in described interaction models.

In described service platform, unified interface protocol element comprises: application layer module, for in application layer, support concrete assembly function and the agreement needed for business function, define the functional interface of concrete assembly function and business function, service parameter, return results, asynchronous delivery parameter and business object; Describing layer module, define data structure and controling parameters, for providing one in describing layer, agreement is described, when there are differences between the different described communication protocol that channel layer is chosen, the difference between different described communication protocol is shielded in described description agreement, and, in described description agreement, redundancy is carried out to the difference between different described communication protocol; Channel layer module, for choosing the service platform of different communication protocol access telecommunications in channel layer, described communication protocol at least comprises Short Message Service, transmission control protocol/Internet Protocol, User Datagram Protocol/Internet Protocol and HTML (Hypertext Markup Language).

In described service platform, the combination of interaction models specifically channel layer and describing layer; The combination of described channel layer and describing layer comprises: the combination of the combination of the combination of the combination of the short connected mode of TCP and GPB format content, HttpGET mode and json format content, HttpPOST mode and xml format content, the short connected mode of TCP and arbitrary string content, and, the combination of the short connected mode of TCP and json format content.

In described service platform, channel layer and describing layer interaction mechanism unit comprise: request-answer-mode module, for supporting synchronous real-time, interactive, comprise: the session term of validity of configuration and client, connect with client, authentication and subscription authentication are carried out to client, carries out real-time, interactive with client; Service push mode module, for supporting asynchronous delivery, comprising: by return messages or be applied in same return data bag the client be sent to through certification, is split according to the data structure of return messages by client to return data bag.

In described service platform, also comprise: TokenId unit, for in request-answer-mode or service push mode, whether the verification TokenId when receiving and process the service request of client is effective for service end, after verification TokenId is effective, in the survival period of TokenId, allow to carry out service communication between described service end and client.

In described service platform, tree-shaped object model unit comprises: iterative algorithm module, for adopting iterative algorithm to describe parameter name, parameter type and parameter value in required parameter and return data object, described service parameter comprises required parameter and return data object.

In described service platform, the tree-shaped object of tree-shaped object model unit support comprises: XML and JSON.

A kind of exterior terminal, can carry out with service platform alternately.

The beneficial effect of technique scheme of the present invention is as follows: in application layer, describing layer and channel layer, layering arranges different agreements to realize business and communication interaction, no matter each unit that T service platform relates to there occurs what is improved, and this layering is arranged all supports each unit proposed requirement after improving; The application interface adapting protocol independent of channel layer and describing layer is used again in application layer, reduce development cost and the risk of Telematics business, adapt to the diversity of current Telematics business change and agreement, enhance suitability, and tree-shaped object model is provided, service parameter can be described very flexibly and return service parameter.

Accompanying drawing explanation

Fig. 1 represents a kind of structural representation realizing the service platform of telecommunication;

Fig. 2 represents that different agreements is in the structural representation of three layers;

Fig. 3 represents the structural representation of channel layer and describing layer combination of protocols;

Fig. 4 represents asks-replys mutual schematic flow sheet;

Fig. 5 represents the schematic flow sheet of service request processing logic;

Fig. 6 represents that service pushes mutual schematic flow sheet.

Embodiment

For making the technical problem to be solved in the present invention, technical scheme and advantage clearly, be described in detail below in conjunction with the accompanying drawings and the specific embodiments.

The infrastructure service ability of expansion Telematics service platform (being called for short: T service platform), adopt the communication protocol of extensive use, be aided with the stronger tree-shaped object of semantic extension ability as data model, concentration of risk is controlled at T service platform, to reduce manufacturer terminal, service provider and the content supplier degree of dependence to communication protocol.

The embodiment of the present invention provides a kind of service platform realizing telecommunication, as shown in Figure 1, comprising:

Unified interface protocol element 11, arranges different agreements for layering in application layer, describing layer and channel layer;

Application interface adapting protocol unit 12, uses in application layer for being provided in, and independent of the application interface adapting protocol of described channel layer and described describing layer, described application interface adapting protocol provides requested service parameter and returns service parameter;

Tree-shaped object model unit 13, in described application interface adapting protocol unit 12, describes described request service parameter and returns service parameter;

Channel layer and describing layer interaction mechanism unit 14, for providing interaction models between describing layer and channel layer, encapsulate the agreement of channel layer support, and be provided in the interface used in describing layer in described interaction models.

The technology provided is provided, in application layer, describing layer and channel layer, layering arranges different agreements to realize business and communication interaction, no matter each unit that T service platform relates to there occurs what is improved, and this layering is arranged all supports each unit proposed requirement after improving; The application interface adapting protocol independent of channel layer and describing layer is used again in application layer, reduce development cost and the risk of Telematics business, adapt to the diversity of current Telematics business change and agreement, enhance suitability, and tree-shaped object model is provided, service parameter can be described very flexibly and return service parameter.

As shown in Figure 2, different agreements is divided into three layers: application layer (Application Layer), describing layer (Descriptive Layer) and channel layer (Channel Layer).Application layer is positioned at the superiors, direct reply business change, and change is frequent relatively; Describing layer is under application layer; Channel layer is positioned at bottom; Describing layer and channel layer relatively stable.

Unified interface protocol element 11 provides for T service platform the new communication protocol formulated based on common communication protocol, is that T service platform is exclusive, and all users observe this agreement to ensure the versatility of T service platform.Application layer (the Application Layer of T service platform is respectively by unified interface protocol element 11, be called for short A layer), describing layer (Descriptive Layer, be called for short D layer) and channel layer (Channel Layer, abbreviation C layer) communication interface standard is provided.

Unified interface protocol element 11, the protocol specification of property based on the unified interface agreement provided is the specification source of concrete agreement.Unified interface agreement defines in Telematics business, comprise Intelligent mobile equipment, type of message between CMS and each side of content supplier, define the communication interaction mechanism between T service platform and exterior terminal, this communication interaction mechanism includes but not limited to that service end and car-mounted terminal are applied, mobile phone is applied, business etc. between call center and service provider (SP, Service Provider).

Unified interface protocol element 11 layering arranges different agreements, simplify function responsibility and the business complexity of exterior terminal, as far as possible variable factor-communication interaction mechanism is concentrated on T service platform, reduce the degree of coupling between application layer, describing layer and channel layer.

Channel layer and describing layer interaction mechanism unit 14, for providing interaction models between C layer and D layer, in interaction models, encapsulating the agreement of C layer support, and being provided in the interface used in D layer;

Application interface adapting protocol unit 12, uses in A layer for being provided in, independent of the concrete application interface adapting protocol of C layer and D layer; Be mainly used in the request of service parameter and return description.The application layer be implemented on metastable channel layer and describing layer agreement is change, after being provided with the concrete application interface adapting protocol independent of channel layer and describing layer, the assembling that application layer carries out business application system can become extremely convenient, does not need to carry out depthwise construction.

Tree-shaped object model unit 13, for adopting iterative algorithm to describe parameter name, parameter type and parameter value in required parameter and return data object, being applied in application interface adapting protocol unit 12, being responsible for the description of service parameter.

In a preferred embodiment, unified interface protocol element 11 comprises:

Application layer module, in application layer, supports the agreement needed for concrete assembly function and business function, defines the functional interface of concrete assembly function and business function, service parameter, returns results, asynchronous delivery parameter and business object;

Describing layer module, define data structure and controling parameters, for providing one in describing layer, agreement is described, when there are differences between the different described communication protocol that channel layer is chosen, the difference between different described communication protocol is shielded in described description agreement, and, in described description agreement, redundancy is carried out to the difference between different described communication protocol;

Channel layer module, for choosing the service platform of different communication protocol access telecommunications in channel layer, described communication protocol at least comprises Short Message Service (SMS, Short Messaging Service), transmission control protocol/Internet Protocol (has another name called network communication protocol, TCP/IP, Transmission ControlProtocol/Internet Protocol), User Datagram Protocol/Internet Protocol (UDP/IP, UserDatagram Protocol/Internet Protocol) and HTML (Hypertext Markup Language) (HTTP, Hypertext transferprotocol).

Wherein, application layer, cover car-mounted terminal, mobile phone, call center, and the agreement that the business such as WEB door must be followed when using correlation function, by definition functional interface, the service parameter relevant to assembly function and business function, return results, asynchronous delivery data and business object etc. realize having called relevant assembly function and business function.

Describing layer, defines data structure and controling parameters, the data representation form of operating specification-describe business and data as extend markup language (XML, Extensible Markup Language), binary system and character string etc.Based on the communication protocol that channel layer is chosen, to arrange in pairs or groups flexibly corresponding data representation form according to the feature of communication protocol, improve the semantic meaning representation ability of communication efficiency and communication protocol to greatest extent.Describing layer should possess relative independentability, reduces the degree of coupling of self and channel layer and application layer, makes whole business application system have more flexibility and autgmentability.

Channel layer, describes the access capability of T service platform, access way, communication capacity and means of communication, supports access way and the communication ports such as SMS, TCP/IP, UDP/IP, HTTP.For the concrete business characteristic of Telematics, support that T service platform selects corresponding access way to meet the requirement of the such as aspect such as efficiency and stability.

Unified interface protocol element 11 layering arranges different agreements, can make each layer more clear in logical relation, reduce the degree of coupling between each layer, and taken into full account the Liquified gas tanker of Telematics business, as the real-time and autgmentability requirement etc. of the network communication quality of exterior terminal, system resource, business.

For solving the technical problem that the present invention proposes, should meet between describing layer from channel layer: owing to selecting different channel layers, the control message of describing layer also can change, and thus requires that employing technology or business means guarantee consistency and the universality of describing layer agreement.For communication protocol TCP/IP and HTTP, car-mounted terminal TBOX more employing TCP/IP, and with mutual more employings of WEB application etc. be HTTP.The header part of http protocol itself contains the controling parameters such as such as time-out time, and in ICP/IP protocol, there is no this two fields, thus when channel layer adopts HTTP, need will these two fields are also contained in control message in describing layer, therefore, realize the suitable redundancy of control message, ensure that no matter which kind of communication protocol channel layer selects, and describing layer all can remain unchanged.

As shown in Figure 3, in the Three-tider architecture of OpenUIP, channel layer and describing layer are usually used as a solution or be combined in present practical application scene, the combination of channel layer and describing layer of OpenUIP specification.

In a preferred embodiment, the combination of interaction models specifically channel layer and describing layer;

The combination of described channel layer and describing layer comprises: the combination of the combination of the combination of the combination of the short connected mode of TCP and GPB format content, HttpGET mode and json format content, HttpPOST mode and xml format content, the short connected mode of TCP and arbitrary string content, and, the combination of the short connected mode of TCP and json format content.

In a preferred embodiment, channel layer and describing layer interaction mechanism unit 14 comprise:

Request-answer-mode module, for supporting synchronous real-time, interactive, comprising: configuration and the session term of validity of client, connect with client, carry out authentication and subscription authentication to client, carry out real-time, interactive with client;

Service push mode module, for supporting asynchronous delivery, comprising: by return messages or be applied in same return data bag the client be sent to through certification, is split according to the data structure of return messages by client to return data bag.

Request-answer-mode module, service push mode module is based on the various combination of channel layer and describing layer, and providing the interaction mechanism between channel layer and describing layer, can be request-answer-mode usually, or service push mode.

Channel layer and describing layer interaction mechanism, the basis of unified interface agreement further describes describing layer and channel layer, and detailed analysis has been done to its each side such as pluses and minuses and performance, the matched combined of channel layer and describing layer comprehensive comparation and assessment have been done, ensure that technological layer performance and stability, reduce communications cost.

Request-answer-mode, i.e. request-reply mechanism, a request once returns, and is synchronous, real-time.Which kind of communication protocol no matter request-answer-mode select, the service end of Telematics business is before the service request of formal process client, first can require that client carries out authentication and subscription authentication, can be register also can be client id invested in request data package.As shown in Figure 4, comprising:

Step 41, client and service end connect;

Step 42, client sends request to service end;

The session term of validity after login is configurable, is arranged flexibly according to concrete business demand by each application system; In particular cases, request message can indicate service end in message header need not return messages.

Step 43, service end return data bag;

Step 44, the connection of foundation before client disconnects to service end request.

As shown in Figure 5, service push mode, as asynchronous delivery:

Step 51, client and service end connect 1;

Step 52, client sends request 1 to service end;

Step 53, server end completes propelling movement logical process, service end return messages 1; Server active push message or service are to the client through certification, and these services or message may, by customization, also may be that user is by the triggering such as note or call center.

The service push mode of connection Network Based, after server end completes propelling movement logical process, will PUSH message be generated and be kept in message queue, once client sends connection request, service end will be taken out the splicing of corresponding PUSH message and be handed down to client in return data bag from message queue.

Step 54, service end is carried out asynchronous object and is delivered 1;

Step 55, service end is carried out asynchronous object and is delivered 2;

In order to reduce network request number of times in practical application, promote Consumer's Experience, asynchronous delivery object and return messages must be sent to client in same return data bag, and client splits it according to the data structure of return messages.

Step 56, client sends request 2 to service end;

Step 57, service end return messages 2;

Step 58, the connection of foundation before client disconnects to service end request.

In a preferred embodiment, also comprise:

TokenId unit, in request-answer-mode or service push mode, whether the verification TokenId when receiving and process the service request of client is effective for service end,

After verification TokenId is effective, in the survival period of TokenId, allow to carry out service communication between described service end and client.

No matter which kind of interaction models service end and client adopt, in service request processing logic, as shown in Figure 6:

Step 61, service end all correctly must get the identity information of client,

Step 62, returns corresponding TokenId to client after service end is verified,

Step 63, client sends service request 1-TokenId to service end, service end receive and the service request of process client time whether can verify TokenId effective, TokenId may be expired after section sometime, also may be never expired, need depending on concrete business demand.

Step 64, service end sends service request to client and returns 1, TokenId in survival period, and client and T service platform just can carry out Business Processing and communicate, otherwise need again to log in or carry out authentication.

Step 65, client sends service request 2-TokenId to service end,

Step 66, service end sends service request to client and returns 2.

All component in T service platform all needs encapsulation when carrying out data and transmitting, and changes isomeric data, and all output and input data acquisition tree-shaped object model, reduced the communications cost of user, improve communication efficiency by structure efficient data model.

In a preferred embodiment, the tree-shaped object (Tree-likedObject) that tree-shaped object model unit 14 is supported has: XML and JSON.

Two kinds of divisions are carried out according to normally used technical approach, and XML is mainly used in transmission and the parsing of JAVA back-end data, and JSON is generally used for indicated object in JavaScript program.Certainly, two kinds of modes do not have absolute division limits, can say two kinds of different expression forms of just data.

The system of the communication interaction that T service platform faces is many and Heterogeneous data is serious, tree-like object can meet the requirement of multiple mutual side at technical elements, business demand change can be met again simultaneously and expand requirement, tree-like object adopts iteration thinking to express required parameter or the return data object of arbitrary form, comprise parameter name, parameter type and parameter value, it can express the object of arbitrary structures, possesses good flexibility, thus in the scene that some specifications or agreement cannot cover, practical value is had.

For XML and JSON, XML and JSON is broadly a kind of tree-shaped object, in practical application, tree-shaped object has Three models: fundamental type, Collection and Map, basic type demand can be met, the ability of type mongodb database can be supported simultaneously, there is stronger ability to express, tree-shaped object can meet business demand, the business object meeting various ways requires and needs, as, Telematics business object, required parameter, return results, asynchronous delivery object, data need not can complete mutual conversion from flowing to object by other means when multi-party communication and circulation, as tree-shaped object can export as describing layer agreement conventional in the Telematics business such as XML and JSON very flexibly, also corresponding TLObject object can be converted to from XML and JSON etc.Business object is applied in request and response, its type is tree-like object, tree-like to as if define a kind of special platform objects form, can infinite stages expand, there is good autgmentability, clear in structure, simultaneously, the different-format of contents of object can be obtained, such as: the content of text of XML and JSON form by conversion.

The embodiment of the present invention provides a kind of exterior terminal, can carry out alternately with service platform.

Service platform comprises:

Unified interface protocol element 11, arranges different agreements for layering in application layer, describing layer and channel layer;

Application interface adapting protocol unit 12, uses in application layer for being provided in, and independent of the application interface adapting protocol of described channel layer and described describing layer, described application interface adapting protocol provides requested service parameter and returns service parameter;

Tree-shaped object model unit 13, in described application interface adapting protocol unit 12, describes described request service parameter and returns service parameter;

Channel layer and describing layer interaction mechanism unit 14, for providing interaction models between describing layer and channel layer, encapsulate the agreement of channel layer support, and be provided in the interface used in describing layer in described interaction models.

Advantage after employing this programme is: no matter each side that T service platform relates to there occurs what is improved, because layering is provided with different agreements, type of message, Message Transmission and control specification, communication interaction mechanism, and tree-shaped object model is provided, all support each side's proposed requirement after improving, again owing to using the concrete business interface independent of channel layer and describing layer in application layer, and adapting protocol, thus development cost and the risk of Telematics business is reduced, adapt to the diversity of current Telematics business change and agreement, enhance suitability.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the prerequisite not departing from principle of the present invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (8)

1. realize a service platform for telecommunication, it is characterized in that, comprising:

Unified interface protocol element, is provided with different agreements for layering in application layer, describing layer and channel layer;

Application interface adapting protocol unit, uses in application layer for being provided in, and independent of the application interface adapting protocol of described channel layer and described describing layer, described application interface adapting protocol provides requested service parameter and returns service parameter;

Tree-shaped object model unit, in described application interface adapting protocol unit, describes described request service parameter and returns service parameter;

Channel layer and describing layer interaction mechanism unit, for providing interaction models between describing layer and channel layer, encapsulate the agreement of channel layer support, and be provided in the interface used in describing layer in described interaction models.

2. service platform according to claim 1, is characterized in that, unified interface protocol element comprises:

Application layer module, in application layer, supports the agreement needed for concrete assembly function and business function, defines the functional interface of concrete assembly function and business function, service parameter, returns results, asynchronous delivery parameter and business object;

Describing layer module, define data structure and controling parameters, for providing one in describing layer, agreement is described, when there are differences between the different described communication protocol that channel layer is chosen, the difference between different described communication protocol is shielded in described description agreement, and, in described description agreement, redundancy is carried out to the difference between different described communication protocol;

Channel layer module, for choosing the service platform of different communication protocol access telecommunications in channel layer, described communication protocol at least comprises Short Message Service, transmission control protocol/Internet Protocol, User Datagram Protocol/Internet Protocol and HTML (Hypertext Markup Language).

3. service platform according to claim 1, is characterized in that, the combination of interaction models specifically channel layer and describing layer;

The combination of described channel layer and describing layer comprises: the combination of the combination of the combination of the combination of the short connected mode of TCP and GPB format content, HttpGET mode and json format content, HttpPOST mode and xml format content, the short connected mode of TCP and arbitrary string content, and, the combination of the short connected mode of TCP and json format content.

4. service platform according to claim 1, is characterized in that, channel layer and describing layer interaction mechanism unit comprise:

Request-answer-mode module, for supporting synchronous real-time, interactive, comprising: configuration and the session term of validity of client, connect with client, carry out authentication and subscription authentication to client, carry out real-time, interactive with client;

Service push mode module, for supporting asynchronous delivery, comprising: by return messages or be applied in same return data bag the client be sent to through certification, is split according to the data structure of return messages by client to return data bag.

5. service platform according to claim 4, is characterized in that, also comprises:

TokenId unit, in request-answer-mode or service push mode, whether the verification TokenId when receiving and process the service request of client is effective for service end,

After verification TokenId is effective, in the survival period of TokenId, allow to carry out service communication between described service end and client.

6. service platform according to claim 1, is characterized in that, tree-shaped object model unit comprises:

Iterative algorithm module, for adopting iterative algorithm to describe parameter name, parameter type and parameter value in required parameter and return data object, described service parameter comprises required parameter and return data object.

7. service platform according to claim 1, is characterized in that, the tree-shaped object of tree-shaped object model unit support comprises:

XML and JSON.

8. an exterior terminal, is characterized in that, the service platform in 1 ~ 7 any one can be wanted to carry out alternately with right.