CN101800686A - Method, device and system for realizing service - Google Patents

Abstract

The invention discloses a method, a device and a system for realizing service, and relates to the field of communication, which solves the problem of single service type of the conventional micro-network. The technical scheme provided by the embodiment of the invention comprises that a first micro-network client is arranged in a micro-network and is used for receiving micro-network service requests sent by users through user equipment, and providing the micro-network service of the request for the users through the micro-network service function of the first micro-network client according to the micro-network service requests. The embodiment of the invention can be applied in communication networks and provide the micro-network service for the users.

Description

Service implementation method, device and system

Technical Field

The present invention relates to the field of communications, and in particular, to a method, an apparatus, and a system for implementing a service.

Background

In order to solve the problems that the variety of household appliances is various, the functions of various household appliances are single and dispersed, and management and control are not facilitated, the prior art provides a household service system based on a macro network, a user accesses the household service system through the macro network, and the household appliances are managed and controlled through the service functions provided by the household service system.

However, in the prior art, the home service system based on the macro network provides a single type of home service for the user, and cannot meet the home service requirement of the user, so that the service experience of the user is poor.

Disclosure of Invention

Embodiments of the present invention provide a method, an apparatus, and a system for implementing a service, which can provide more types of micro network services and meet service requirements of users.

In one aspect, a service implementation system is provided, which includes:

the first micro network client is arranged in the micro network and used for receiving a micro network service request sent by a user through user equipment and providing the requested micro network service for the user through the micro network service function of the first micro network client according to the micro network service request.

In another aspect, a micro network client is provided, which is disposed in a micro network, and includes:

the receiving module is used for receiving a micro network service request sent by a user through user equipment;

and the service module is used for providing a micro-network service function and providing the requested micro-network service for the user through the micro-network service function according to the micro-network service request received by the receiving module.

In another aspect, a micro network server is provided, which is disposed in a macro network, and includes:

the service request receiving module is used for receiving a micro-network service request of a user;

and the service module is used for sending the micro-network service request received by the service request receiving module to a first micro-network client arranged in a micro-network and providing the requested micro-network service for the user through the first micro-network client.

In another aspect, a method for implementing a service is provided, including: a micro network client arranged in a micro network receives a micro network service request sent by a user through user equipment; and the network client provides the requested micro network service for the user through the micro network service function of the micro network client according to the micro network service request.

In another aspect, a method for implementing a service is provided, including: receiving a micro network service request of a user; and sending the micro network service request to a first micro network client arranged in a micro network, and providing the requested micro network service for the user through the first micro network client.

The service implementation method, the device and the system provided by the embodiment of the invention can provide the requested micro network service for the user through the micro network client arranged in the micro network, and the micro network client is arranged in the micro network, so that the technical scheme provided by the embodiment of the invention can provide more types of micro network services for the user, the problem of single type of micro network service in the prior art is solved, and the requirement of the micro network service of the user can be met.

Drawings

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

Fig. 1 is a schematic structural diagram of a service implementation system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a service implementation system according to another embodiment of the present invention

Fig. 3 is a schematic structural diagram of a micro network client according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a micro network client according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a micro network client according to another embodiment of the present invention;

fig. 6 is a first schematic structural diagram of a micro network server according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a micro network server according to an embodiment of the present invention;

fig. 8 is a flowchart of a service implementation method provided in the embodiment of the present invention;

fig. 9 is a flowchart of a service implementation method provided in the embodiment of the present invention;

fig. 10 is an application timing diagram of a service implementation method, apparatus, and system provided in the embodiments of the present invention;

fig. 11 is an application timing diagram of a service implementation method, apparatus, and system according to another embodiment of the present invention;

fig. 12 is an application timing diagram of a service implementation method, apparatus, and system according to another embodiment of the present invention;

fig. 13 is an application timing diagram of a service implementation method, apparatus, and system according to still another embodiment of the present invention.

Detailed Description

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

In order to solve the problem of single type of micro network service, embodiments of the present invention provide a service implementation method, apparatus, and system.

In the following embodiments, the micro network may be a user's home, office, school, etc.; the micro network traffic may include: a Mobile Switching Center (MSC) exchanges services, remote monitoring, remote DVD playing, video phone, media sharing, intelligent home appliances, leaving messages, online games, and multimedia message/short message sharing, etc.

As shown in fig. 1, a service implementation system provided in the embodiment of the present invention includes:

the first micro network client 101 is configured in the micro network, and is configured to receive a micro network service request sent by a User through User Equipment (UE), and provide a requested micro network service for the User through a micro network service function of the first micro network client 101 according to the micro network service request.

In this embodiment, the micro network service request may include: user information of a user (such as a user name and a password of the user or a used UE type and an IP address and the like) and information such as a requested micro-network service type; optionally, user information of the target user (e.g., the user name of the target user or the UE type and IP address used, etc.) may also be included.

The micro network service functions may include: a Mobile Switching Center (MSC) switching function, a media data acquisition function, a media server function, an infrared learning function, a television signal acquisition and encoding function, and the like, which are not described in detail herein.

In this embodiment, the UE may be any device capable of network connection, for example: a mobile phone, a television, or a computer, etc., and the embodiment of the present invention does not limit the specific form of the UE.

A user can communicate with a first micro network client 101 through a UE in a micro network where the first micro network client 101 is located, and perform a micro network service through the first micro network client 101; the UE in the macro network or the UE in another micro network may also communicate with the first micro network client 101, and perform a micro network service through the first micro network client 101.

In this embodiment, if a user communicates with the first micro network client 101 through a UE in a macro network or a UE in another micro network, the first micro network client 101 may communicate with the UE by using a broadband technology, and further, in order to increase a communication bandwidth between the first micro network client 101 and the UE so that the first micro network client 101 provided by the embodiment of the present invention can provide more high-bandwidth-based micro network services for the user, the first micro network client 101 may communicate with the UE by using a wired broadband (e.g., XDSL, EPON, GPON, or the like) technology.

If a user communicates with the first piconet client 101 through the UE in the piconet where the first piconet client 101 is located, the first piconet client 101 may communicate with the UE by using a Femtocell technology or a Wireless Fidelity (WiFi) technology, and further, if the first piconet client 101 communicates with the UE wirelessly through the Femtocell, the first piconet client 101 may specifically communicate with the UE wirelessly through a local Gi interface, so that the combined application of the piconet client and a locally set piconet service function through the local Gi interface is realized, and a piconet service is provided for the user.

In an actual usage process, if the first micro network client 101 is also in communication with other network devices in the macro network or other micro networks, or other functional devices in the local micro network (such as a camera, a printer, or an air conditioner, etc.), the first micro network client 101 may also be in communication with other network devices in the macro network or other micro networks through a broadband technology (preferably a wired broadband technology), and/or in communication with other functional devices in the local micro network through a Femtocell or WiFi technology, etc.

Of course, in the actual usage process, the first micro network client 101 also uses other manners to implement communication with the UE or other devices, for example: the first micro network client 101 may also communicate with the local UE by using bluetooth technology, ZigBee technology, LAN technology, or the like, which is not illustrated here.

Further, when the user communicates with the first micro network client 101 through the UE in the macro network or the UE in the other micro networks, as shown in fig. 1, the service implementation system provided in the embodiment of the present invention may further include:

and the micro network server 102 is configured to receive a micro network service request sent by the user through the UE, send the micro network service request to the first micro network client 101, and provide the requested micro network service for the user through the first micro network client 101.

In this embodiment, the micro network server 102 may receive a micro network service request sent by a user through a macro network, or may receive a micro network service request sent by a user through a second micro network client 103 arranged in a micro network.

Further, if the micro network server 102 receives a micro network service request through the second micro network client 103 arranged in the micro network, the micro network server 102 may also be configured to identify the micro network service request, and if the micro network service request is non-interactive, the micro network server 102 directly provides the micro network service for the user. In this embodiment, the non-interactive micro network service may include: message leaving, online game, multimedia message/short message sharing and the like.

In this embodiment, the second micro network client 103 may use Femtocell technology, WiFi technology, or the like to perform wireless communication with the UE of the user; the second micro network client 103 may communicate with the micro network server 102 using broadband technology.

Further, in order to increase the communication bandwidth between the second micro network client 103 and the micro network server 102, so that the service implementation system provided in the embodiment of the present invention can provide more high-bandwidth-based micro network services for the user, in this embodiment, the second micro network client 103 may perform wired communication with the micro network server 102 by using a wired broadband technology.

Of course, in the actual usage process, the second micro network client 103 may also implement communication with the UE and with the micro network server 102 in other manners, which is not illustrated here.

Further, in this embodiment, both the first micro network client 101 and the second micro network client 103 may provide a web function, and communicate with the user through the web page to obtain the micro network service request sent by the user.

For example: the first micro network client 101 may provide a micro network service function selection page for the user, the page may provide micro network service function options to the user in a list form, and the user may send a micro network service request to the first micro network client 101 by selecting different service function options.

Of course, in the actual using process, the user may also send the micro network service request to the first micro network client 101 and/or the second micro network client 103 by other manners, for example: a user can send a micro network service request by sending a short message/multimedia message to the first micro network client 101 and/or the second micro network client 103; the following steps are repeated: the user may also send the micro network service request by making a call to the first micro network client 101 and/or the second micro network client 103, which is not described in detail herein.

In the service implementation system provided by the embodiment of the invention, the first micro network client can provide the requested micro network service for the user, and the first micro network client is arranged in the micro network, so that the technical scheme provided by the embodiment of the invention can provide more types of micro network 0 services for the user, the problem of single type of micro network service in the prior art is solved, the requirement of the micro network service of the user can be met, and the first micro network client provided by the embodiment of the invention can provide a uniform web page for the user, and the user can communicate with the first micro network client through the web page, so that the form of sending information to the first micro network client by the user is unified, and the communication mode between the user and the first micro network client is expanded.

As shown in fig. 2, another embodiment of the present invention further provides a service implementation system, which is basically the same as that shown in fig. 1, except that the service implementation system provided in this embodiment may further include:

a user database 104 for storing user information of member users;

the member user described in this embodiment may be a family member, or an internal member of an enterprise, or a cell member of a residential area, and the like.

In this embodiment, the user information stored in the user database 104 may include: a user name and a password when the user registers, an online state (offline/online) of the user, a micro network service type which can be performed by the user, micro network client information (including a domain name and/or an IP address of the micro network client) to which the user belongs, a UE type and an IP address used by the user, and the like.

The embodiment of the present invention does not limit the specific content and form of the user information stored in the user database 104, and in the actual using process, the user information stored in the user database 104 may also include other information related to the user, which is not described herein again.

The first micro network client 101 or the micro network server 102 may be further configured to authenticate the user by using the user information in the user database 104, and obtain an authentication result of the user.

In this embodiment, the first micro network client 101 or the micro network server 102 verifies the user, including authenticating the user and/or verifying the user's right.

Specifically, after receiving the micro network service request, the first micro network client 101 or the micro network server 102 may query the user database 104 according to user information (such as a user name and a password, or an IP address of the UE) carried in the micro network service request, perform identity authentication on the user, determine whether the user is a member user, and if not, cannot perform the micro network service; the first micro network client 101 or the micro network server 102 may also query the user database 104 according to the micro network service type included in the micro network service request, perform permission verification on the user, and determine whether the user has permission to perform the micro network service indicated by the micro network service type. And if the verification is passed, the user can carry out micro-network service.

Optionally, in this embodiment, the step of authenticating the identity of the user by the first micro network client 101 or the micro network server 102 may also be completed in the process of logging in the micro network by the user, which will be described in detail in the following embodiments, and is not described herein again.

Further, after the micro network server 102 authenticates the user and obtains the authentication result, if the micro network service request is the micro network service request sent by the second micro network client 103 arranged in the micro network, the micro network server 102 may also send the authentication result of the user to the second micro network client 103. The second micro network client 103 learns whether the micro network service can be performed according to the verification result. If the micro network service request is sent to the micro network server 102 for the user in the macro network, the micro network server 102 may return the verification result to the user.

In this embodiment, the authentication result of the user includes: identity authentication results and/or permission verification results.

The system for realizing the micro network service further realizes the authority management and control of the micro network member on the basis of providing more types of micro network services for the user, ensures the user information privacy and safety of the micro network member user, and solves the problems that the member user management and control are lacked in the prior art, and the safety of the user information cannot be guaranteed.

Still another embodiment of the present invention further provides a service implementation system, where the system further includes, on the basis of the system shown in fig. 1 or fig. 2:

an internet protocol security gateway (IPSec GW) for securely transmitting information transmitted between the first micro network client 101 and the UE through a protocol and algorithm related to network security transmission, wherein the UE is a UE in a macro network or a UE in another micro network.

In this embodiment, the information transmitted between the first micro network client 101 and the UE may specifically be information related to user information transmitted between the first micro network client 101 and the UE, including information sent during user registration, a micro network service request sent by a user, and the like, which is not described in detail herein.

In this embodiment, the IPSec GW may integrate protocols and algorithms related to network security transport, such as: a network authentication protocol, an encapsulation security payload protocol, a key management protocol, and some algorithms for network authentication encryption, etc., through which information transmitted between the first micro network client 101 and the UE is securely transmitted.

Optionally, the information transmitted between the first micro Network client 101 and/or the second micro Network client 103 and the micro Network server 102 may also adopt a Virtual Private Network (VPN) technology, and the information is securely transmitted by establishing an encrypted tunnel between the first micro Network client 101 and/or the second micro Network client 103 and the micro Network server 102.

The service implementation system provided by the embodiment of the invention further improves the security of the user accessing the micro network by arranging the internet protocol security gateway between the first micro network client and the UE or transmitting information between the first micro network client and/or the second micro network client and the micro network server by adopting the VPN technology on the basis of providing more types of micro network services for the user and implementing authority management and control on member users.

As shown in fig. 3, an embodiment of the present invention further provides a micro network client, which is disposed in a micro network and includes:

a receiving module 301, configured to receive a micro network service request sent by a user through a UE;

in this embodiment, the micro network service request may include: user information of a user (such as a user name and a password of the user or a used UE type and an IP address and the like) and information such as a requested micro-network service type; optionally, user information of the target user (e.g., the user name of the target user or the UE type and IP address used, etc.) may also be included.

The service module 302 is configured to provide a micro network service function, and provide a requested micro network service for a user through the micro network service function according to the micro network service request received by the receiving module 301.

In this embodiment, the service module 302 may include any one or a combination of a mobile switching center switching function sub-module, a media data acquisition function sub-module, a media server function sub-module, an infrared learning function sub-module, a television signal acquisition and coding function sub-module, and the like, so as to implement a micro network service function.

The mobile switching center switching function sub-module is used for performing local mobile switching center switching on the calling service by adopting a mobile switching center switching function when the micro network service requested by the micro network service is the calling service;

the media data acquisition function sub-module is used for acquiring data by adopting a data acquisition function when the micro-network service requested by the micro-network service is remote monitoring;

a media server function sub-module, configured to share, by using a media server function, the media content of a target user indicated by the micro network service request with the user when the micro network service requested by the micro network service is media sharing;

the infrared learning function sub-module is used for learning the key information of the electrical appliance in the micro network where the target user is located and indicated by the micro network service request by adopting an infrared learning function when the micro network service requested by the micro network service is the intelligent electrical appliance service, and controlling the intelligent electrical appliance according to the key indication carried by the micro network service request;

and the television signal acquisition and coding functional submodule is used for acquiring DVD data by adopting the television signal acquisition and coding function when the micro-network service requested by the micro-network service is remote DVD playing, coding the DVD data and then sending the coded DVD data to the user.

Of course, in the actual using process, the service module 302 may further include a sub-module having other micro network service functions, which is not described in detail herein.

In this embodiment, the UE may be any device capable of network connection, for example: a mobile phone, a television, or a computer, etc., and the embodiment of the present invention does not limit the specific form of the UE.

A user can communicate with a micro network client (specifically, a receiving module 301) through a UE in a micro network where the micro network client is located, and perform a micro network service through the micro network client (specifically, a service module 302); the UE in the macro network or the UE in other micro networks may also communicate with the micro network client, and perform the micro network service through the micro network client.

In this embodiment, if a user communicates with a micro network client through a UE in a macro network or a UE in another micro network, the micro network client (specifically, the receiving module 301) may communicate with the UE by using a broadband technology, and further, in order to increase a communication bandwidth between the micro network client and the UE, so that the micro network client provided in the embodiment of the present invention can provide more high-bandwidth-based micro network services for the user, the micro network client may communicate with the UE by using a wired broadband (such as XDSL, EPON, or GPON) technology.

If the user communicates with the micro network client through the UE in the micro network where the micro network client is located, the micro network client can communicate with the UE through a Femtocell technology or a WiFi technology, and further, if the micro network client wirelessly communicates with the UE through the Femtocell, the micro network client can specifically wirelessly communicate with the UE through a local Gi interface, so that the micro network client can be combined and applied with a locally set micro network service function through the local Gi interface, and the micro network service is provided for the user.

Of course, in the actual usage process, the micro network client also uses other ways to implement communication with the UE, for example: the micro network client may also communicate with the local UE by using a bluetooth technology, a ZigBee technology, or a LAN technology, which is not exemplified here.

Further, if the user communicates with the micro network client through the UE in the macro network or the UE in another micro network, the receiving module 301 may receive the micro network service request sent by the user through a micro network server arranged in the macro network; the micro network client communicates with the user through the micro network server.

Further, as shown in fig. 4, the micro network client provided in the embodiment of the present invention may further include:

a web service module 303, configured to provide a web service;

the receiving module 301 may also be configured to receive, through the web service provided by the web service module 303, a micro network service request sent by the user through the UE.

In this embodiment, the web service module 303 may provide a corresponding web page for the user as needed, and communicate with the user through the web page to obtain related information (such as a micro network service request) sent by the user.

For example: when a user initially connects to the micro network client through the UE, the web service module 303 may provide a login page for the user, and the user sends login information to the micro network client through a relevant option provided by the login page to log in; the following steps are repeated: after a user logs in a micro network client through a login page, the web service module 303 may provide a micro network service function selection page for the user, where the page may provide micro network service function options to the user in a list form, the user may send a micro network service request to the micro network client by selecting different service function options, and the receiving module 301 in the micro network client may receive the micro network service request sent by the user through a signal sent by the different web service function options on the service function selection page.

Of course, in the actual using process, the user may also send information such as a micro network service request to the micro network client in other manners, for example: the user can send information such as a micro network service request and the like by sending short messages/multimedia messages to the micro network client; the following steps are repeated: the user may also send information such as a micro network service request by dialing to the micro network client, which is not described herein.

Optionally, in this embodiment, the micro network client may further include an expansion interface module, which is configured to expand a general-purpose or special-purpose device through an interface such as a USB or a PCI, and implement, in combination with software, micro network service application upgrading such as remote education, remote medical treatment, or personal data upload.

The micro network client provided by the embodiment of the invention can provide requested micro network services for users, and the micro network client is arranged in the micro network, so that the technical scheme provided by the embodiment of the invention can provide more types of micro network services for users, the problem of single type of micro network services in the prior art is solved, the requirements of the micro network services of the users can be met, and the micro network client provided by the embodiment of the invention can provide a uniform web page for the users, and the users can communicate with the micro network client through the web page, so that the content of information sent to the micro network client by the users is unified, and the communication mode between the users and the micro network client is expanded.

As shown in fig. 5, another embodiment of the present invention further provides a micro network client, which is substantially the same as that shown in fig. 3 and fig. 4, except that the micro network client provided in this embodiment may further include:

an obtaining module 304, configured to obtain user information of a member user;

the member user described in this embodiment may be a family member, or an internal member of an enterprise, or a cell member of a residential area, etc.; the user information of the member user may include: a user name and a password when the user registers, an online state (offline/online) of the user, a micro network service type which can be performed by the user, micro network client information (including a domain name and/or an IP address of the micro network client) to which the user belongs, a UE type and an IP address used by the user, and the like.

The embodiment of the invention does not limit the specific content and form of the user information of the member user, and in the actual using process, the user information of the member user can also comprise other information related to the user, which is not described herein repeatedly.

The verifying module 305 is configured to verify the user by using the user information obtained by the obtaining module 304, obtain a user verification result, and obtain whether the user can perform the requested micro network service according to the verification result, or receive the user verification result sent by the micro network server, and obtain whether the user can perform the requested micro network service according to the verification result, where the user verification result includes: identity authentication results and/or permission verification results. .

In this embodiment, the verification of the user by the micro network client includes identity authentication of the user and/or permission verification of the user.

Specifically, after the receiving module 301 receives the micro network service request, the verifying module 305 may perform identity authentication on the user according to user information (such as a user name and a password, or an IP address of the UE) carried in the micro network service request and user information of the member user obtained 304 by the obtaining module, and determine whether the user is a member user; and the authority of the user can be verified according to the micro network service type included in the micro network service request and the user information of the member user obtained by the obtaining module 304, and whether the user has the authority for performing the micro network service indicated by the micro network service type is judged.

Optionally, in this embodiment, the process of authenticating the identity of the user by the verification module 305 may also be completed when the user logs in the micro network, which will be described in detail in the subsequent embodiments, and is not described herein again.

Further, as shown in fig. 5, the micro network client provided in the embodiment of the present invention may further include:

a storage module 306, configured to store user information of a member user;

the obtaining module 304 obtains the user information of the member user from the storage module 306.

Of course, in the actual using process, the obtaining module 304 may also obtain the user information of the member user from other network devices, for example: and obtaining the data from the user database, which is not described herein.

It should be noted that, in an actual using process, the multiple modules divided by the micro network client according to the embodiments of the present invention shown in fig. 3 to fig. 5 may also be implemented by one module or functional module having similar functions to the multiple modules, which is not described herein again.

The specific implementation method of the micro network client provided in the embodiment of the present invention may be referred to the service implementation system provided in the embodiment of the present invention, and details are not described here.

The micro-network client provided by the embodiment of the invention further realizes the authority management and control of member users on the basis of providing more types of micro-network services and unified communication modes for the users, and ensures the user information privacy and safety of the member users.

As shown in fig. 6, an embodiment of the present invention further provides a micro network server, including:

a service request receiving module 601, configured to receive a micro network service request of a user;

in this embodiment, the micro network service request may include: user information of a user (such as a user name and a password of the user or a used UE type and an IP address and the like) and information such as a requested micro-network service type; optionally, user information of the target user (e.g., the user name of the target user or the UE type and IP address used, etc.) may also be included.

The service module 602 is configured to send the micro network service request received by the service request receiving module 601 to a first micro network client disposed in the micro network, and provide the requested micro network service for the user through the first micro network client.

Further, as shown in fig. 7, the micro network server provided in the embodiment of the present invention may further include:

a user information obtaining module 603, configured to obtain user information of a member user;

the member user described in this embodiment may be a family member, or an internal member of an enterprise, or a cell member of a residential area, etc.; the user information of the member user may include: a user name and a password when the user registers, an online state (offline/online) of the user, a micro network service type which can be performed by the user, micro network client information (including a domain name and/or an IP address of the micro network client) to which the user belongs, a UE type and an IP address used by the user, and the like.

The embodiment of the invention does not limit the specific content and form of the user information of the member user, and in the actual using process, the user information of the member user can also comprise other information related to the user, which is not described herein repeatedly.

A determining module 604, configured to authenticate the user by using the user information obtained by the user information obtaining module 603, obtain a user authentication result, and obtain whether the user can perform the requested micro network service according to the authentication result, where the authentication result includes: an identity verification result and/or a permission verification result.

Further, in this embodiment, the user information obtaining module 603 may obtain the user information of the member user from the local, or may obtain the user information of the member user from other network devices, for example: and obtaining the data from the user database, which is not described herein.

Further, as shown in fig. 7, the micro network server provided in the embodiment of the present invention may further include:

a sending module 605, configured to send the user authentication result obtained by the determining module 604 to a second micro network client if the micro network service request is received through the second micro network client set in the micro network.

Further, as shown in fig. 7, the micro network server provided in the embodiment of the present invention may further include:

an identifying module 606, configured to identify a type of the micro network service request if the micro network service request is received through a second micro network client;

if the identification module 606 identifies that the type of the request of the micro network service is non-interactive, the service module 602 directly provides the requested micro network service to the user.

The specific implementation method of the micro network server provided in the embodiment of the present invention may refer to the description related to the service implementation system provided in the embodiment of the present invention, and details are not described here again.

It should be noted that, in an actual use process, the multiple modules divided by the micro network server according to the embodiment of the present invention shown in fig. 6 and fig. 7 may also be implemented by a module or a functional unit having a similar function to the multiple modules, which is not described herein again.

The micro network server provided by the embodiment of the invention can provide micro network services for users through the first micro network client, and the first micro network client is arranged in the micro network, so that the technical scheme provided by the embodiment of the invention can provide more types of micro network services for the users, and the requirements of the micro network services of the users can be met; in addition, the technical scheme provided by the embodiment of the invention can realize the authority management and control of the member user, and ensures the user information privacy and safety of the member user.

As shown in fig. 8, an embodiment of the present invention further provides a service implementation method, including:

step 801, a micro network client arranged in a micro network receives a micro network service request sent by a user through UE;

specifically, in this embodiment, the micro network client may receive, through the web service function of the micro network client, a micro network service request sent by a user through the UE.

Step 802, the micro network client provides the requested micro network service for the user through the micro network service function of the micro network client according to the micro network service request.

Further, the service implementation method provided in the embodiment of the present invention may further include:

the method comprises the steps that a micro-network client side obtains user information of member users, the user information is utilized to verify the users, a user verification result is obtained, and whether the users can carry out requested micro-network services or not is obtained according to the verification result; or,

the method comprises the following steps that a micro network client receives a verification result of a user sent by a micro network server, and whether the user can carry out the requested micro network service is obtained according to the verification result, wherein the verification result comprises the following steps: an identity verification result and/or a permission verification result.

In this embodiment, the micro network service function may include any one or a combination of the following: mobile switching center switching function, media data acquisition function, media server function, infrared learning function and television signal acquisition and coding function.

The specific implementation process of the service implementation method provided by the embodiment of the present invention may refer to the service implementation system and the micro network client provided by the embodiment of the present invention, and details are not described here.

The service implementation method provided by the embodiment of the invention can provide the micro network service for the user through the micro network client arranged in the micro network, so that the technical scheme provided by the embodiment of the invention provides more types of the micro network service for the user, and can meet the micro network service requirement of the user; moreover, the authority management and control of the member user are realized, and the user information privacy and safety of the member user are ensured.

As shown in fig. 9, an embodiment of the present invention further provides a service implementation method, including:

step 901, receiving a micro network service request of a user;

step 902, sending the micro network service request received in step 901 to a first micro network client in the micro network, and providing the requested micro network service for the user through the first micro network client.

Specifically, step 902 may include:

inquiring a user database to obtain information of a first micro-network client to which a target user belongs according to user information of the target user carried in a micro-network service request;

establishing a communication link between the user and the first micro network client according to the first micro network client information, and forwarding a micro network service request to the first micro network client;

the first micro network client provides the micro network service requested by the user according to the micro network service request, and transmits the micro network service data to the user through the established communication link.

Of course, in the actual using process, the information of the first micro network client may also be obtained by other methods, for example: the information of the first micro network client may be carried in the micro network service request, which is not limited in this embodiment.

In this embodiment, step 901 may receive a micro network service request sent by a user through a macro network; and receiving a micro network service request sent by a user through a second micro network client arranged in the micro network.

Further, the service implementation method provided in the embodiment of the present invention may further include:

acquiring user information of member users;

and verifying the user by utilizing the user information of the member user, acquiring a user verification result, and acquiring whether the user can carry out the requested micro network service according to the verification result, wherein the verification result comprises: an identity verification result and/or a permission verification result.

Further, if the micro network service request is received through a second micro network client, the verification result of the user is sent to the second micro network client.

Further, the service implementation method provided in the embodiment of the present invention may further include:

if the micro network service request is received through the second micro network client, identifying the type of the micro network service request;

and if the type of the micro network service request is non-interactive, providing the micro network service requested by the user.

In this embodiment, the non-interactive micro network service may include: message leaving, online game, multimedia message/short message sharing and the like.

The specific implementation process of the service implementation method provided by the embodiment of the present invention may refer to the service implementation system and the micro network client provided by the embodiment of the present invention, and details are not described here.

The service implementation method provided by the embodiment of the invention can provide the micro network service for the user through the first micro network client, and the first micro network client is arranged in the micro network, so that the technical scheme provided by the embodiment of the invention can provide more types of micro network services for the user, and the micro network service requirements of the user can be met; in addition, the technical scheme provided by the embodiment of the invention can realize the authority management and control of the member user, and ensures the user information privacy and safety of the member user.

In order to enable those skilled in the art to more clearly understand the technical solutions provided by the embodiments of the present invention, the method, the apparatus, and the system for implementing the micro network service described above are described in detail below with specific embodiments.

In an embodiment provided by the present invention, a user a performs a micro network service through a UE _ a in a macro network, a micro network client, and a UE _ B to which a user B in a micro network where the micro network client is located belongs. The micro-network client communicates with the UE _ A in a wired broadband mode and communicates with the UE _ B in a Femtocell mode. As shown in fig. 10, the method comprises the following steps:

step 1001, a user a sends login information to a micro network client through a UE _ a.

In this embodiment, the UE _ a may be a device capable of performing network connection, such as a mobile phone, a television, or a computer; the micro network client can provide a Web page for a user, the user A can log in the Web page (specifically, a log-in page) provided by the micro network client in a wireless mode through the UE _ A, and log-in information is sent to the micro network client through the Web page, wherein the log-in information can include information such as a user name, a password and the like registered by the user in a wireless community.

Step 1002, the micro network client queries the user database to perform identity authentication on the user a according to the login information of the user a, and obtains an identity authentication result of the user a.

In this embodiment, the user database stores user information of member users of the micro network client, including: user name and password when the user registers the wireless community, on-line state (off-line/on-line) of the user, wireless community service use authority of the user, UE information (including type and/or IP address of the UE) of the user attribution and the like.

Specifically, the micro network client may query the user database according to the user name, the password, and the like of the user a included in the login information, and determine whether the user name and the password are the same as the user name and the password of the user a stored in the user database, and if so, the micro network client passes the identity authentication of the user a, otherwise, the micro network client fails the identity authentication of the user a.

Optionally, when the identity authentication of the user a passes, the micro network client may update the online status of the user a stored in the user database to "online", and modify the UE information (including the type and/or IP address of the UE) to which the user belongs, stored in the user database, according to the information, such as the type and IP address of the UE _ a, contained in the login information.

Alternatively, when the identity authentication of the user a fails, the micro network client may display information such as login failure to the user through a web page.

Step 1003, the user a sends an online user query request to the micro network client through the UE _ a.

Step 1004, the micro network client queries the user database to obtain the online user information according to the online user query request, and sends an online user query response to the user a, wherein the online user query response carries the user information of the online user.

In this embodiment, the user information of the online user includes user information of user B.

Step 1005, the user A selects the user B as the target user according to the user inquiry response, and sends the micro network service request to the micro network client.

In this embodiment, the wireless community service request may carry the micro network service type requested by the user a, the user information of the user B, the user information of the user a, and the like.

Optionally, in this embodiment, the user a may also send a micro network service request to the micro network client through a web page provided by the micro network client.

Step 1006, the micro network client performs permission verification on the user a according to the micro network service request of the user a, and obtains a permission verification result of the user a.

In this embodiment, the wireless community server may query the user database according to the type of the micro network service carried in the micro network service request, and perform the authority verification on the user a.

Optionally, when the authority verification of the user a fails, the micro network client may display information such as the authority verification failure to the user through the web page.

Step 1007, when the authority of the micro network client to the user a is successfully verified, the micro network client provides the micro network service function for the user a and the user B through the micro network service function provided by the micro network client according to the micro network service request of the user a

In this embodiment, the micro network services that the user a and the user B can perform include: MSC switching is carried out on call services of a user A and other UE in the micro network, calling of the user A and a user B is achieved, the user A remotely monitors the user B through UE _ B, the user B remotely plays a DVD for the user A, the user A and the user B carry out media sharing, the user A carries out intelligent household appliance control on the user B, and the like.

In order to implement the above-mentioned micro network service, the micro network service function provided by the micro network client may include: the system comprises an MSC switching function, a media data acquisition function, a media server function, an infrared learning function, a television signal acquisition and coding function and the like.

When the micro network service is MSC switching for the call service of the user A and other UE in the micro network to realize the call of the user A and the user B, after receiving the micro network service request, the micro network client adopts the MSC switching function to establish a communication link between the UE _ A and the UE _ B according to the request, so that the UE _ A and the UE _ B can carry out the call through the communication link.

When the micro network service is that the user A remotely monitors the user B through the UE _ B, the micro network client can control the UE _ B according to the micro network service request of the user A and a preset data acquisition function, acquire data of a scene and the like in the home of the user B through the UE _ B, and transmit the acquired data to the UE _ A to which the user A belongs in a real-time transmission mode, so that the micro network service is completed.

When the micro network service is that the user B plays the DVD for the user A remotely, the micro network client can acquire the DVD data watched by the user B according to the micro network service request of the user A and the preset television signal acquisition and encoding functions, and transmit the acquired signal to the UE _ A to which the user A belongs in a real-time transmission mode, so that the micro network service is completed.

When the micro network service is media sharing between the user a and the user B, the micro network client may transmit content information of a shared folder preset by the user B to the UE _ a to which the user a belongs according to a preset media sharing server function, thereby completing the micro network service.

When the micro-network service is used for the user A to carry out intelligent household appliance control on the user B, the micro-network client learns the key information of the household appliance of the user B according to the preset infrared learning function, and carries out intelligent household appliance control on the user B according to the micro-network service request sent by the user A.

The above-mentioned micro network service performed by the user a and the user B is only an example, and in the actual using process, the user a and the user B may also perform other micro network services, which is not described in detail herein.

Optionally, in this embodiment, the process of authenticating the identity of the user a by the piconet client may also be completed in step 1006, and specifically, the service area server may perform identity authentication on the user a according to the user information of the user a, which is carried in the piconet service request sent by the user a, at this time, steps 1001 and 1002 may not be performed.

Optionally, in step 1003, the user a may also send an online status query request of the user B to the micro network client; in step 1004, the micro network client may query the online status of user B from the user database according to the online status query request of user B, and send the online status of user B to user a through the online status query response of user B; in step 1005, when the user a determines that the user B is online according to the online status query response of the user B, the user a sends a micro network service request to the micro network client.

Optionally, in this embodiment, a storage module may be disposed on the micro network client, and is used to store the user information of the member users of the micro network client in place of the user database.

Further, in this embodiment, IPSec GW may be used to perform secure transmission on information transmitted between user a and the micro network client, where IPSec GW may integrate protocols and algorithms related to network secure transmission, for example: and information transmitted between the user A and the micro network client side, such as a network authentication protocol, an encapsulation security load protocol, a key management protocol, algorithms for network authentication and encryption, is transmitted safely.

The service implementation method, the device and the system provided by the embodiment of the invention can provide the micro network service for the user through the micro network client arranged in the micro network, so that the technical scheme provided by the embodiment of the invention has more requirements on the types of the micro network service provided by the user; the authority management and control of the member user are further realized, and the user information privacy and safety of the member user are ensured.

In another embodiment provided by the invention, the micro network client is Femtocell terminal, and the Femtocell terminal and the micro network server communicate in a wired broadband mode; the Femtocell terminal is arranged in a home local area network environment (the home local area network can also be regarded as a micro network) -Femtocell terminal A is arranged at the home of a user A, and Femtocell terminal B is arranged at the home of a user B; the user A and the user B carry out micro network service through the Femtocell terminal A, the Femtocell terminal B and a micro network server in a core network; the micro network service is specifically a wireless community service, and the micro network server is specifically a wireless community server. As shown in fig. 11, the method comprises the following steps:

step 1101, the user A sends wireless community login information to the Femtocell terminal A in a wireless mode through the UE.

In this embodiment, the UE may be a device capable of performing network connection, such as a mobile phone, a television, or a computer; the Femtocell terminal A can provide a Web page for a user, the user A can log in the Web page (specifically, a wireless community log-in page) provided by the Femtocell terminal A in a wireless mode through the UE, and wireless community log-in information is sent to the Femtocell terminal A through the Web page, wherein the wireless community log-in information can include information such as a user name and a password registered by the user in a wireless community.

Step 1102, Femtocell terminal a sends a wireless community login request to a wireless community server of the core network in a wired broadband manner, wherein the wireless community login request carries the wireless community login information of the user a in step 1101.

Step 1103, the wireless community server queries the user database to perform identity authentication on the user a according to the wireless community login request, and obtains an identity authentication result of the user a.

In this embodiment, the user database stores user information of member users in the wireless community, including: a user name and a password when the user registers the wireless community, an online state (offline/online) of the user, a wireless community service usage authority of the user, wireless community client information (including a domain name and/or an IP address of the wireless community client) to which the user belongs, and the like.

The wireless community server can inquire the user database according to the user name and the password of the user A contained in the wireless community request, and judge whether the user name and the password are the same as the user name and the password of the user A stored in the user database, when the user name and the password are the same, the wireless community server passes the identity authentication of the user A, otherwise, the wireless community server fails the identity authentication of the user A.

Optionally, when the identity authentication of the user a passes, the wireless community server may update the online status of the user a stored in the user database to "online" and update the wireless community client information to which the user a belongs to the information of the Femtocell terminal a (including the domain name and/or IP address of the Femtocell terminal a, etc.).

And 1104, the wireless community server returns a wireless community login response to the femtocell A in a wired broadband mode, wherein the wireless community login response carries the identity authentication result of the user A.

And the wireless community server generates a wireless community login response message according to the identity authentication result in the step 1103 and returns the wireless community login response message to the Femtocell terminal A.

Step 1105, the Femtocell terminal A displays the wireless community login result to the user A according to the wireless community login response.

In this embodiment, when the identity authentication result of the user a carried by the wireless community login response is an identity authentication failure, the Femtocell terminal a displays the wireless community login failure to the user a through the Web page; when the identity authentication result of the user A carried by the wireless community login response is that the identity authentication is passed, the Femtocell terminal A displays the success of the wireless community login to the user A through the Web page, or the Femtocell terminal A displays the Web page containing the wireless community service type to the user A.

In step 1106, the user A sends an online user query request to the wireless community server through the Femtocell terminal A.

Step 1107, the wireless community server queries the user database to obtain the online user information according to the online user query request, and sends an online user query response to the user a through Femtocell terminal a, wherein the online user query response carries the user information of the online user.

In this embodiment, the user information of the online user includes user information of user B.

Step 1108, the user A selects the user B as the target user according to the user inquiry response, and sends the wireless community service request to the Femtocell terminal A in a wireless mode.

In this embodiment, the wireless community service request may carry the wireless community service type requested by the user a, the user information of the user B, the user information of the user a, and the like.

Step 1109, the Femtocell terminal a forwards the wireless community service request of the user a received in step 1108 to the wireless community server in a wired broadband manner.

Step 1110, the wireless community server performs permission verification on the user a according to the wireless community service request of the user a, obtains a permission verification result of the user a, and sends the permission verification result of the user a to the Femtocell terminal a in a wired broadband manner.

In this embodiment, the wireless community server may query the user database according to the wireless community service type carried in the wireless community service request, and perform the authority verification on the user a.

Step 1111, the Femtocell terminal a determines that the user a can perform the wireless community service requested by the user a according to the permission verification result of the user a.

Step 1112, the user a and the user B perform the wireless community service through the Femtocell terminal a, the Femtocell terminal B and the wireless community server, including:

the wireless community server queries a user database to acquire the information of the Femtocell terminal B to which the user B belongs according to the user information of the user B carried in the wireless community service request;

the wireless community server establishes a communication link between the Femtocell terminal A and the Femtocell terminal B according to the information of the Femtocell terminal A and the Femtocell terminal B, and forwards the wireless community service request of the user A to the Femtocell terminal B;

and the Femtocell terminal B transmits the wireless community service data requested by the user A to the Femtocell terminal A through the communication link according to the wireless community service request, and the Femtocell terminal A transmits the wireless community service data to the UE to which the user A belongs in a wireless mode, so that the wireless community service between the user A and the user B is completed.

In this embodiment, the wireless community services that the user a and the user B can perform include: the method comprises the steps that a user A remotely monitors a user B, the user B remotely plays a DVD for the user A, the user A and the user B perform video telephone service, the user A and the user B perform media sharing, and the user A performs intelligent household appliance control on the user B.

In order to implement the above-mentioned wireless community service, the wireless community service function preset in Femtocell terminal B may include: data acquisition, a media server function, an infrared learning function, a television signal acquisition and encoding function and the like.

When the wireless community service is used for remotely monitoring the user B for the user A, the Femtocell terminal B can acquire data of scenes and the like in the user B according to the wireless community service request of the user A and a preset data acquisition function, and transmits the data to the Femtocell terminal A by adopting a real-time transmission mode through the communication link, and transmits the data to the UE to which the user A belongs by adopting a wireless mode through the Femtocell terminal A, so that the wireless community service is completed.

When the wireless community service is that the user B plays a DVD for the user A remotely, the Femtocell terminal B can acquire DVD data watched by the user B according to a wireless community service request of the user A and a preset television signal acquisition and encoding function, transmits the DVD data to the Femtocell terminal A through the communication link in a real-time transmission mode, and transmits the DVD data to the UE to which the user A belongs in a wireless mode by the Femtocell terminal A, so that the wireless community service is completed.

When the wireless community service is the video telephone service of the user A and the user B, the communication link between the Femtocell terminal A and the Femtocell terminal B is established by the Femtocell terminal A and the Femtocell terminal B through an SIP server of an operator network according to the indication of the wireless community server. The user A and the user B can carry out the video telephone service through the Femtocell terminal A, the Femtocell terminal B and the communication link.

When the wireless community service is used for media sharing between the user A and the user B, the Femtocell terminal B can send content information of a shared folder preset by the user B to the Femtocell terminal A through the communication link according to a preset media sharing server function, and the Femtocell terminal A transmits the content information to the UE to which the user A belongs in a wireless mode, so that the wireless community service is completed.

When the wireless community service is used for controlling intelligent household appliances of the user B for the user A, the Femtocell terminal B learns the key information of the household appliances of the user B according to the preset infrared learning function, and controls the intelligent household appliances of the user B according to the wireless community service request sent by the user A.

The above-mentioned wireless community service performed by the user a and the user B is only an example, and in the actual using process, the user a and the user B may also perform other wireless community services, and here, no description is given to each situation one by one, and when performing other wireless community services between the user a and the user B, the wireless community service function corresponding to the wireless community service may be preset on the Femtocell terminal B.

Optionally, in this embodiment, the process of authenticating the identity of the user a by the wireless community server may also be completed in step 1110, and specifically, the wireless community server may perform the identity authentication on the user a according to the user information of the user a, which is carried in the wireless community service request sent by the user a, at this time, steps 1101 to 1105 may not be performed.

Optionally, in step 1106, the user a may also send the online status query request of the user B to the wireless community server through the Femtocell terminal a; in step 1107, the wireless community server may query the online status of user B from the user database according to the online status query request of user B, and send the online status of user B to user a through Femtocell terminal a in response to the online status query of user B; in step 1108, when the user a determines that the user B is online according to the online status query response of the user B, the user a sends a wireless community service request to the Femtocell terminal a in a wireless manner.

Optionally, in this embodiment, after the step 1103, the steps 1104 and 1105 may not be executed, and the wireless community server may determine whether to continue to provide the service for the user according to the identity authentication result of the user in the step 1103 — when the authentication result of the user is that the user is a legal member in the wireless community, the subsequent steps are continuously executed, otherwise, the service for the user is stopped in response to the request sent by the user.

Further, in this embodiment, IPSec GW may be used to perform secure transmission on information transmitted between Femtocell a and the wireless community server, and between Femtocell B and the wireless community server, where IPSec GW may integrate protocols and algorithms related to network security transmission, for example: network authentication protocol, package security load protocol, key management protocol and some algorithms for network authentication encryption; alternatively, VPN technology may be used to securely transmit information transmitted between Femtocell terminal a and the wireless community server, and between Femtocell terminal B and the wireless community server.

According to the service implementation method, the device and the system provided by the embodiment of the invention, the micro network client can provide micro network services for the user through the micro network server, and the micro network client is arranged in the micro network where the user is located, so that the technical scheme provided by the embodiment of the invention can provide more types of micro network services for the user; the micro network client provides micro network service for users through the micro network server in a mode of combining wireless communication and wired communication, so that the speed of accessing the micro network by the users is improved, and the communication bandwidth of the micro network service by the users is increased; the communication bandwidth of the micro network service performed by the user is increased, so that the technical scheme provided by the embodiment of the invention can further provide more micro network services with high bandwidth for the user, is beneficial to the development of the micro network service, can meet the requirement of the user on the micro network service, and improves the service experience of the user in performing the micro network service; furthermore, the embodiment of the invention can realize the management and control of the authority of the private micro-network member, and improves the safety of the user accessing the private micro-network due to the adoption of the IPSec GW and VPN technology.

In another embodiment provided by the invention, the micro network client is a WiFi terminal, and the WiFi terminal and the micro network server communicate in a wired broadband mode; WiFi primary is set in the home local area network environment-WiFi primary A is set in the home of user A; the user A carries out the micro-network service through the WiFi terminal A and a micro-network server in a core network; the micro network service is specifically a wireless community service, and the micro network server is specifically a wireless community server. As shown in fig. 12, the method comprises the following steps:

the steps 1201 and 1205 are substantially the same as the steps 1101 to 1105 as shown in FIG. 11, and are not described herein.

Step 1206, the user a sends a wireless community service request to the WiFi terminal a in a wireless manner.

In this embodiment, the wireless community service request may carry the wireless community service type requested by the user a, the user information of the user a, and the like.

Step 1207, the WiFi terminal a forwards the wireless community service request of the user a received in step 1206 to the wireless community server in a wired broadband manner.

And step 1208, the wireless community server performs permission verification on the user A according to the wireless community service request of the user A, acquires a permission verification result of the user A, and sends the permission verification result of the user A to the WiFi terminal A in a wired broadband mode.

In this embodiment, the wireless community server may query the user database according to the wireless community service type carried in the wireless community service request, and perform the authority verification on the user a.

Step 1209, the WiFi terminal A determines that the user A can perform the wireless community service requested by the user A according to the authority verification result of the user A.

Step 1210, the user a performs a wireless community service through the WiFi terminal a and the wireless community server.

In this embodiment, the wireless community service performed by the user a may include leaving a message, playing an online game, sharing a multimedia message/short message, and the like.

In step 1210, when the wireless community service requested by the user a is a message, the user a may store the message in a public message area of the wireless community server through the WiFi terminal a, thereby completing the wireless community service;

when the wireless community service requested by the user A is an online game, the user A can access a game program preset on a wireless community server through a WiFi terminal A, and the game program provides an online game function for the user;

when the wireless community service requested by the user A is multimedia message/short message sharing, the user A can send the multimedia message/short message to a number corresponding to a designated storage area of the wireless community server by using protocols such as MM7 or SMPP and the like through the WiFi terminal A, so that the wireless community service is completed.

The wireless community service performed by the user a is exemplified, in the actual using process, the user a can also perform other wireless community services, no description is given to each situation here, and when the user a performs other wireless community services, the wireless community server can preset the wireless community service function corresponding to the wireless community service.

Optionally, in this embodiment, the process of authenticating the identity of the user a by the wireless community server may also be completed in step 1208, and specifically, the wireless community server may perform identity authentication on the user a according to the user information of the user a, which is carried in the wireless community service request sent by the user a, at this time, steps 1201 to 1205 may not be performed.

Further, in this embodiment, an IPSec GW may be used to perform secure transmission on information transmitted between the WiFi terminal a and the wireless community server, where the IPSec GW may integrate protocols and algorithms related to network secure transmission, for example: network authentication protocol, package security load protocol, key management protocol and some algorithms for network authentication encryption; alternatively, VPN technology may be employed to securely transmit information transmitted between WiFi terminal a and the wireless community server.

According to the method, the device and the system for realizing the micro network service, the micro network client can provide the micro network service for the user through the micro network server, and the micro network client is arranged in the micro network where the user is located, so that the technical scheme provided by the embodiment of the invention can provide more types of micro network services for the user; the micro network client provides micro network service for users through the micro network server in a mode of combining wireless communication and wired communication, so that the speed of accessing the micro network by the users is improved, and the communication bandwidth of the micro network service by the users is increased; the communication bandwidth of the micro network service performed by the user is increased, so that the technical scheme provided by the embodiment of the invention can further provide more micro network services with high bandwidth for the user, is beneficial to the development of the micro network service, can meet the requirement of the user on the micro network service, and improves the service experience of the user in performing the micro network service; furthermore, the embodiment of the invention can realize the management and control of the authority of the private micro-network member, and improves the safety of the user accessing the private micro-network due to the adoption of the IPSec GW and VPN technology.

In another embodiment provided by the invention, the micro network client is Femtocell terminal, and the Femtocell terminal and the micro network server communicate in a wired broadband mode; femtocell terminal is arranged in a home local area network environment, namely Femtocell terminal B is arranged at home of user B; the user A carries out micro network service with the user B through a public wireless network, a micro network server in a core network and a Femtocell terminal B; the micro network service is specifically a wireless community service, and the micro network server is specifically a wireless community server. As shown in fig. 13, the method comprises the following steps:

step 1301, a user A sends a wireless community login request to a wireless community server through a public wireless network (such as a macro network), wherein the wireless community login request carries information such as a user name and a password of the user A during wireless community registration.

Step 1302, the wireless community server queries a user database to perform identity authentication on the user a according to the wireless community login request, and obtains an identity authentication result of the user a. The specific implementation method may be described in step 1103 shown in fig. 11, and is not described herein again.

Alternatively, when the identity authentication of the user a passes, the wireless community server may update the online status of the user a stored in the user database to "online" and update the wireless community client information to which the user a belongs to null (N/a).

And step 1303, the wireless community server returns a wireless community login response to the user A through the public wireless network, wherein the wireless community login response carries the identity authentication result of the user A.

In step 1304, when the identity authentication result of the user a is passed, the user a sends an online user query request to the wireless community server through the public wireless network.

Step 1305, the wireless community server queries the user database to obtain the online user information according to the online user query request, and sends an online user query response to the user a through the public wireless network, wherein the online user query response carries the user information of the online user.

In this embodiment, the user information of the online user includes user information of user B.

Step 1306, the user A selects the user B as a target user according to the user inquiry response, and sends a wireless community service request to the wireless community server through the public wireless network.

In this embodiment, the wireless community service request may carry the wireless community service type requested by the user a, the user information of the user B, the user information of the user a, and the like.

Step 1307, the wireless community server performs the authority verification on the user a according to the wireless community service request of the user a, obtains the authority verification result of the user a, and determines that the user a can perform the wireless community service requested by the user a according to the authority verification result of the user a.

Step 1308, the user a performs the wireless community service with the user B through the public wireless network, the wireless community server and the Femtocell terminal B, including:

the wireless community server queries a user database to acquire the information of the Femtocell terminal B to which the user B belongs according to the user information of the user B carried in the wireless community service request;

the wireless community server establishes a communication link between the user A and the Femtocell terminal B according to the user information of the user A and the information of the Femtocell terminal B, and forwards the wireless community service request of the user A to the Femtocell terminal B;

and the Femtocell terminal B performs wireless community service by adopting a wireless community service function preset locally according to the wireless community service request, and sends wireless community service data to the user A through the communication link, thereby completing the wireless community service between the user A and the user B.

In this embodiment, the wireless community services that the user a and the user B can perform include: the method comprises the steps that a user A remotely monitors a user B, the user B remotely plays a DVD for the user A, the user A and the user B perform video telephone service, the user A and the user B perform media sharing, and the user A performs intelligent household appliance control on the user B.

In order to implement the above-mentioned wireless community service, the wireless community service function preset in Femtocell terminal B may include: data acquisition, a media server function, an infrared learning function, a television signal acquisition and encoding function and the like.

Optionally, in this embodiment, the process of authenticating the identity of the user a by the wireless community server may also be completed in step 1307, and specifically, the wireless community server may perform identity authentication on the user a according to the user information of the user a, which is carried in the wireless community service request sent by the user a, at this time, steps 1301 to 1303 may not be performed.

Optionally, in step 1304, the user a may also send an online status query request of the user B to the wireless community server through the public wireless network; in step 1305, the wireless community server may query the online status of the user B from the user database according to the online status query request of the user B, and send the online status of the user B to the user a through the public wireless network through the online status query response of the user B; in step 1306, when the user a determines that the user B is online according to the online status query response of the user B, the user a sends a wireless community service request to the Femtocell terminal a in a wireless manner.

Further, in this embodiment, IPSec GW may be used to perform secure transmission on information transmitted between femtocell B and the wireless community server, where IPSec GW may integrate protocols and algorithms related to network security transmission, for example: network authentication protocol, package security load protocol, key management protocol and some algorithms for network authentication encryption; alternatively, VPN technology may be used to securely transmit information transmitted between Femtocell terminal B and the wireless community server.

The method, the device and the system for realizing the micro-network service provided by the embodiment of the invention can realize the management and control of the authority of the member user, improve the safety of the user accessing the private micro-network due to the adoption of the IPSec GW and the VPN technology, and solve the problems that the micro-network in the prior art is lack of the management and control of community members and the safety of the user accessing the public micro-network is poor.

The method, the device and the system for realizing the micro-network service provided by the embodiment of the invention can be applied to a communication network and provide micro-network service for users.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

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 (31)

1. A service enablement system, comprising:

the first micro network client is arranged in the micro network and used for receiving a micro network service request sent by a user through user equipment and providing the requested micro network service for the user through the micro network service function of the first micro network client according to the micro network service request.

2. The system of claim 1, further comprising:

the user database is used for storing the user information of the member users;

the first micro network client is further configured to authenticate the user by using the user information in the user database, obtain an authentication result of the user, and obtain whether the user can perform the requested micro network service according to the authentication result, where the authentication result includes: an identity verification result and/or a permission verification result.

3. The system of claim 1, further comprising:

and the micro network server is used for receiving a micro network service request sent by the user through user equipment, sending the micro network service request to the first micro network client, and providing the requested micro network service for the user through the first micro network client.

4. The system of claim 3,

if the micro network server receives the micro network service request through a second micro network client arranged in a micro network, the micro network server is also used for identifying the micro network service request, and if the micro network service request type is non-interactive, the micro network server directly provides the requested micro network service for the user.

5. The system of claim 3, further comprising:

the user database is used for storing the user information of the member users;

the micro network server is further configured to authenticate the user by using the user information in the user database, obtain an authentication result of the user, and obtain whether the user can perform the requested micro network service according to the authentication result, where the authentication result includes: an identity verification result and/or a permission verification result.

6. The system according to claim 5, wherein if the micro network server receives the micro network service request through a second micro network client disposed in a micro network, the micro network server is further configured to send a verification result of the user to the second micro network client, so that the second micro network client knows whether the user can perform the requested micro network service according to the verification result.

7. The system according to any of claims 3-6, wherein the secure transmission between the first micro network client and the micro network server and/or between the second micro network client and the micro network server is performed by using virtual private network technology.

8. The system of claim 1, further comprising:

and the Internet protocol security gateway is used for carrying out secure transmission on the information transmitted between the first micro-network client and the user equipment through a protocol and an algorithm related to network secure transmission.

9. The system of claim 1,

if the user equipment is the user equipment in the macro network or the user equipment in other micro networks, the first micro network client communicates with the user equipment by adopting a wired broadband technology; and/or the presence of a gas in the gas,

if the user equipment is the user equipment in the micro network where the first micro network client is located, the first micro network client is in wireless communication with the user equipment by adopting a femtocell network technology or a wireless fidelity technology;

and if the first micro network client side adopts the femtocell network technology to carry out wireless communication with the user equipment, the first micro network client side carries out wireless communication with the user equipment through a local Gi port.

10. The system of claim 1, wherein the micro network service function locally provided by the first micro network client comprises any one or a combination of the following:

mobile switching center switching function, media data acquisition function, media server function, infrared learning function and television signal acquisition and coding function.

11. A micro network client, disposed in a micro network, comprising:

the receiving module is used for receiving a micro network service request sent by a user through user equipment;

and the service module is used for providing a micro-network service function and providing the requested micro-network service for the user through the micro-network service function according to the micro-network service request received by the receiving module.

12. The micro network client as claimed in claim 11, further comprising:

the acquisition module is used for acquiring the user information of the member user;

the verification module is configured to verify the user by using the user information obtained by the obtaining module, obtain a user verification result, and obtain whether the user can perform the requested micro network service according to the verification result, or receive the user verification result sent by the micro network server, and obtain whether the user can perform the requested micro network service according to the verification result, where the verification result includes: an identity verification result and/or a permission verification result.

13. The micro network client as claimed in claim 12, further comprising:

the storage module is used for storing the user information of the member user;

the acquisition module acquires the user information of the member user from the storage module.

14. The micro network client as claimed in claim 11, further comprising:

the webpage service module is used for providing webpage service;

the receiving module is further configured to receive, through the web service provided by the web service module, a micro network service request sent by the user through the user equipment.

15. The micro network client according to any of claims 11-14, wherein the service module comprises any one or a combination of sub-modules:

a mobile switching center switching function sub-module, configured to perform local mobile switching center switching on the call service by using a mobile switching center switching function when the micro network service requested by the micro network service is the call service;

the media data acquisition function sub-module is used for acquiring data by adopting a data acquisition function when the micro-network service requested by the micro-network service is remote monitoring;

a media server function sub-module, configured to share, by using a media server function, the media content of a target user indicated by the micro network service request with the user when the micro network service requested by the micro network service is media sharing;

the infrared learning function sub-module is used for learning the key information of the electrical appliance in the micro network where the target user is located and indicated by the micro network service request by adopting an infrared learning function when the micro network service requested by the micro network service is the intelligent electrical appliance service, and controlling the intelligent electrical appliance according to the key indication carried by the micro network service request;

and the television signal acquisition and coding functional submodule is used for acquiring DVD data by adopting the television signal acquisition and coding function when the micro-network service requested by the micro-network service is remote DVD playing, coding the DVD data and then sending the coded DVD data to the user.

16. The micro network client as claimed in claim 11, further comprising:

and the expansion interface module is used for expanding the general or special equipment through a USB or PCI interface and realizing the upgrading of the micro-network service application by combining software.

17. A micro network server, comprising:

the service request receiving module is used for receiving a micro-network service request of a user;

and the service module is used for sending the micro-network service request received by the service request receiving module to a first micro-network client arranged in a micro-network and providing the requested micro-network service for the user through the first micro-network client.

18. The micro network server according to claim 17, wherein the micro network server further comprises:

the user information acquisition module is used for acquiring the user information of the member user;

a judging module, configured to verify the user by using the user information acquired by the user information acquiring module, acquire a user verification result, and obtain whether the user can perform the requested micro network service according to the verification result, where the verification result includes: an identity verification result and/or a permission verification result.

19. The micro network server according to claim 18, wherein the micro network server further comprises:

and the sending module is used for sending the verification result of the user acquired by the judging module to a second micro network client if the micro network service request is received through the second micro network client.

20. The micro network server according to claim 17, wherein the micro network server further comprises:

the identification module is used for identifying the type of the micro network service request if the micro network service request is received through a second micro network client;

and if the identification module identifies that the micro network service request type is non-interactive, the service module directly provides the micro network service requested by the user.

21. The micro network server according to any of claims 17-20, wherein the micro network traffic comprises one or more of:

mobile switching center switching service, remote monitoring, remote DVD playing, video telephone, media sharing, intelligent household appliances, message leaving, online game and multimedia message/short message sharing.

22. A service implementation method is characterized by comprising the following steps:

a micro network client arranged in a micro network receives a micro network service request sent by a user through user equipment;

and the micro network client provides the requested micro network service for the user through the micro network service function of the micro network client according to the micro network service request.

23. The method of claim 22, further comprising:

the micro network client acquires user information of a member user, verifies the user by utilizing the user information, acquires a user verification result, and acquires whether the user can carry out the requested micro network service according to the verification result; or,

the micro network client receives a verification result of the user sent by a micro network server, and acquires whether the user can perform the requested micro network service according to the verification result, wherein the verification result comprises: an identity verification result and/or a permission verification result.

24. The method of claim 22, wherein the receiving, by the piconet client provided in the piconet, the piconet service request sent by the user through the user equipment comprises:

and the micro network client arranged in the micro network receives a micro network service request sent by a user through user equipment through a webpage service function of the micro network client.

25. The method according to any of claims 22-24, wherein the micro network service function comprises any one or a combination of:

mobile switching center switching function, media data acquisition function, media server function, infrared learning function and television signal acquisition and coding function.

26. A service implementation method is characterized by comprising the following steps:

receiving a micro network service request of a user;

and sending the micro network service request to a first micro network client arranged in a micro network, and providing the requested micro network service for the user through the first micro network client.

27. The method of claim 26, wherein receiving the user's request for micro-network service comprises:

receiving a micro network service request sent by a macro network by the user; and/or the presence of a gas in the gas,

and receiving a micro network service request sent by the user through a second micro network client arranged in the micro network.

28. The method of claim 26, further comprising:

acquiring user information of member users;

utilizing the user information of the member user to verify the user, obtaining the user verification result, and obtaining whether the user can perform the requested micro network service according to the verification result, wherein the verification result comprises: an identity verification result and/or a permission verification result.

29. The method of claim 28, further comprising:

and if the micro network service request is received through a second micro network client, sending the verification result of the user to the second micro network client.

30. The method of claim 26, further comprising:

if the micro network service request is received through a second micro network client, identifying the type of the micro network service request;

and if the type of the micro network service request is non-interactive, providing the micro network service requested by the user.

31. The method according to any of claims 26-30, wherein the micro network traffic comprises any one or more of:

mobile switching center switching service, remote monitoring, remote DVD playing, video telephone, media sharing, intelligent household appliances, message leaving, online game and multimedia message/short message sharing.

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