HK1150286A1 - A network information transmit-receive system and the method thereof - Google Patents

Abstract

The invention discloses network information transmission/reception system and method. The system comprises a client, a plurality of outer site servers and an inner site server wherein the client is used for transmitting or receiving the information, the plurality of outer site servers are used for receiving the information of an information transmitter and transmitting the information to an information receiver, and the inner site server is connected with the client and the plurality of outer site servers for receiving the information transmitted by the client and transmitting the informationto corresponding outer site servers, as well as receiving the information transmitted by the outer site servers and transmitting the information to corresponding client. The network information transmission/reception system and method of the invention can integrate several network services in one system to effectively aggregate the network services, and have the advantages of greatly facilitatingthe information communication of people and improving work, study and life efficiencies of people.

Description

Network information transceiving system and method

Technical Field

The invention belongs to the technical field of computer networks, and relates to a network system, in particular to a network information receiving and transmitting system; meanwhile, the invention also relates to a network information receiving and transmitting method.

Background

Most people currently have multiple ways of contacting others in a network. There are more than ten online chat tools, and each person can have a plurality of electronic mailboxes. A student needs to use a different platform if he wants to discuss a topic with other contacts, and has no collaboration and academic communication features. Topic confidentiality issues are encountered if public forums and chat rooms are used.

Inc, in 2009, issued a Preview version of Google Wave. The function of the system is to integrate the email service and the online chat service of the system, and to integrate the characteristics of multi-person cooperation, information sharing and the like. The platform test version is highly rated on the internet as soon as it is released, but can only run in the range of Google's own services, and users who do not use Google cannot use these features.

There is no solution to transmit and receive various tool information in a system, and the present invention solves this problem.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: a network information transmitting/receiving system is provided, which can receive and transmit information of a plurality of network tools.

In addition, the invention further provides a network information transceiving method which can receive and transmit information of a plurality of network tools.

In order to solve the technical problems, the invention adopts the following technical scheme:

a network messaging system, the system comprising:

the client is used for sending or receiving information;

a plurality of outstation servers for communicating the sender and the receiver according to the protocol of the server itself;

the inner station server is connected with the client and the plurality of outer station servers; the inner station server receives the information sent by the client and sends the information to the corresponding outer station server or other clients; the inner station server receives information sent by the outer station server or other clients and sends the information to the corresponding client; the inter-site server includes:

-an outstation protocol processing module for reading the configuration file, reading the basic information of the plug-in according to the relevant configuration of the configuration file and loading the outstation plug-in, and sending and receiving the message required by the message processing module;

the message processing module is used for receiving the information sent by the user and the designated contact persons, comparing the contact way states in the outbound service corresponding to each contact way during sending, and selecting the preferred way of the contact person by comparing the online states and the priorities; or the contact information of the contact person is set by the user.

As a preferred scheme of the invention, a user selects the outbound service which is used by the user and exists in the outbound protocol processing module, and provides a login certificate for the outbound protocol processing module to process login information;

the user can exchange information with the plug-in unit of the external station at any time within the scope of the service authority of the external station through the relationship between the message processing module and the protocol processing module of the external station.

As a preferred scheme of the present invention, according to the difference of the outstation service agreement, the process of receiving the contact information by the user is one of the following three processes:

the contact person directly sends the message to the outstation protocol processing module;

the contact person is sent to the external station protocol processing module through the intermediate external station server; the intermediate external station server receives the information of the information sender and sends the information to an external station protocol processing module of the information receiver;

the user sends information to the external station server, and the external station protocol processing module updates regularly.

As a preferred aspect of the present invention, the website server further includes a theme recognition module;

the new message processed by the message processing module is processed by the theme identification module to be marked as a theme;

any message sent from the message processing module is carried with subject information by the message processing module and sent to the contact; this information may be directly put into the message content (including the header). Or marking the code number of the message in the outbound server in the inbound database (for example, the email can mark the UID);

and when the contact replies, the outstation plug-in analyzes the theme information, marks the ratio of the existing theme information as the theme of the theme information, regards the unmarked theme as a new theme, creates the theme, marks the message and finally stores the message in the database.

As a preferable aspect of the present invention, the in-station server further includes an out-station plug-in;

the external station plug-in is loaded and controlled by an external station protocol processing module, and the main function is to simulate a protocol designed in the plug-in, so that the message processing module can receive and send messages to be sent by the message processing module in the protocol mode;

and if the external station information which can not be directly submitted to the information processing module exists, the external station plug-in unit also needs to convert the original information into the information which can be accepted by the information processing module or convert the information of the information processing module into the information which can be received by an external station protocol.

As a preferable aspect of the present invention, the message processing module further includes a group chat control module for performing message communication with the contacts using a plurality of different protocol tools at the same time.

A network information transceiving method of the above network information transceiving system, the method comprising the steps of:

step A, a user sends information to a contact person;

b, the inner station server receives the information sent by the client and sends the information to the corresponding outer station server or other clients;

the outstation protocol processing module reads the configuration file, reads the basic information of the plug-in according to the relevant configuration of the configuration file and loads the outstation plug-in;

the message processing module receives information sent by a user and designated contact persons, compares the contact information states in the outbound service corresponding to each contact information, and selects the preferred mode of the contact persons by comparing the online states and the priorities; or the contact way of the contact person is set by the user;

and step C, the outstation server receives the information of the information sender and sends the information to the information receiver.

As a preferred scheme of the present invention, according to the difference of the outstation service agreement, the process of receiving the contact information by the user is one of the following three processes:

the contact person directly sends the message to the outstation protocol processing module;

the contact person is sent to the external station protocol processing module through the intermediate external station server; the intermediate external station server receives the information of the information sender and sends the information to an external station protocol processing module of the information receiver;

the user sends information to the external station server, and the external station protocol processing module updates regularly.

As a preferred scheme of the present invention, the method comprises the group chat steps of:

step 1, a user sends information to a plurality of set contacts at the same time;

step 2, the inner station server receives information sent by the user client and sends the information to an outer station server or a plurality of other clients corresponding to a plurality of contacts;

the outstation protocol processing module reads the configuration file, reads the basic information of the plug-in according to the relevant configuration of the configuration file and loads the outstation plug-in;

the message processing module receives information sent by a user and a plurality of designated contact persons, compares the contact information states in the outbound service corresponding to each contact information, and selects the preferred mode of the contact persons by comparing the online states and the priorities; or the contact way of the contact person is set by the user;

and 3, receiving the information of the information sender by the outstation servers corresponding to the plurality of information receivers, and respectively sending the information to the corresponding plurality of information receivers.

The invention has the beneficial effects that: the network information receiving and sending system and the method can integrate a plurality of network service services into one system, and realize effective aggregation of each network service. The information exchange of people is greatly facilitated, and the work, study and life efficiency of people is improved. The invention can make the contact communicate with the user without leaving the network service currently used by the contact.

Drawings

Fig. 1 is a schematic diagram of a contact way of a contact.

FIG. 2 is a diagram of multi-outstation service loading for a plug-in mechanism.

Fig. 3 is a schematic diagram of a user and a process for sending a message to a contact.

Fig. 4 is a schematic diagram of a process for a user to receive a message sent by a contact.

Fig. 5 is a flow chart of the processing after the message processing module receives the message.

FIG. 6 is a flow chart of the identification of the topic identification module.

FIG. 7 is a schematic diagram of a subject being arranged by the subject arranging module.

Fig. 8 is a diagram illustrating group chat sending information.

Fig. 9 is a diagram illustrating a group chat reply message.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example one

The invention discloses a network information receiving and transmitting system, which comprises: client, a plurality of external station servers and an internal station server.

The client is used for sending or receiving information. The client can be an electronic device with a network function, such as a computer and a mobile phone.

The outstation server is used for making the sender and the receiver communicate according to the protocol of the server. The external station server is a server served by an external network; such as servers for MSNs, servers for QQs, servers for mailboxes, and so forth.

Referring to fig. 1, each contact (rectangle) can specify one or more contact addresses (ovals). Each contact has two attributes: contact services and contact addresses. The contact service provides the outstation service that the user has provided his username and password. The contact address is that the outbound service can contact a contact (such as an email address) through the contact address, and the outbound protocol processing module and the user can add and delete the contact list.

The inner station server is connected with the client and the plurality of outer station servers; the inner station server receives the information sent by the client and sends the information to the corresponding outer station server or other clients; and the internal station server receives the information sent by the external station server or other clients and sends the information to the corresponding client. According to the invention, each client and each outstation server are integrated together by arranging the intranet server. Some protocols are point-to-point, that is, the client sends the contact directly without going through the server of the service, so that the client can send the information directly to other clients; while some protocols require forwarding through an external site server.

Referring to fig. 2, the station server mainly includes: the system comprises an outstation protocol processing module and a message processing module.

The outstation protocol processing module is used for reading the configuration file, reading the basic information of the plug-in according to the relevant configuration of the configuration file and loading the outstation plug-in.

With reference to fig. 3, the message processing module is configured to receive information sent by a user and designated contacts, compare the contact status in the outbound service corresponding to each contact, and select a preferred contact by comparing the online status and the priority; or the contact information of the contact person is set by the user.

Not all messages are sent with a designated contact. The user can directly specify the contact way, namely specify the outstation service and address for sending the message, and the message processing module can directly send the message through the outstation protocol module according to the user requirement.

The user selects the outbound service which is used by the user and exists in the outbound protocol processing module, and provides a login certificate for the outbound protocol processing module to process login information; the user can exchange information with the plug-in unit of the external station at any time in the authority range through the relationship between the message processing module and the protocol processing module of the external station.

As shown in fig. 4, according to the different outbound service agreements, the process of receiving the contact information by the user is one of the following three processes: the contact person directly sends the message to the outstation protocol processing module; the contact person is sent to the external station protocol processing module through the intermediate external station server; the user sends information to the external station server, and the external station protocol processing module updates regularly.

Referring to fig. 5 and 6, the message processing module further includes a topic identification module. The messages (user and contact) sent by anyone are relatively independent. Each new message processed by the message processing module is processed by the topic identification module to be marked as a topic. Any message sent from the message handling module will be sent to the contact with the subject information by the message handling module. When the contact replies, the message processing module entrusts the outstation plug-in to analyze the theme information, marks the ratio of the existing theme information as the theme of the theme information, regards the non-existing marked theme as a new theme, creates the theme and marks the message; and finally storing the data into a database.

The message processing module also includes a subject orchestration module. If the subject information in the message of the upper page is exchanged for parent message information, the message processing module can identify the message as a child message (reply) of the parent message. That is, the user can make special comments on a topic, rather than following the previous message as in the current forums. As shown in fig. 7, the inheritance relationship can be infinite theoretically, and one message (reply) can be subordinate to any message or topic, and the topic is not subordinate to any message.

The inside station server further comprises an outside station plug-in; the external station plug-in is loaded and controlled by an external station protocol processing module, and the main function is to simulate the protocol of the plug-in, so that the plug-in can receive and send the message to be sent by the message processing module; and if the external station information which can not be directly submitted to the information processing module exists, the external station plug-in unit also needs to convert the original information into the information which can be accepted by the information processing module or convert the information of the information processing module into the information which can be received by an external station protocol. For example, some forums require posts using UBB code and message processing modules using HTML code, the outstation plug-in converts HTML to UBB and sends the HTML to the outstation server. Similarly, the outstation messages may be somewhat unusable and require conversion. For example, in MSN, the picture (or emoticon) does not appear in a way that is accepted by the message handling module, and the outstation plug-in also needs to be converted to submit to the message handling module.

The message processing module further comprises a group chat control module for communicating messages with contacts using a plurality of different protocol tools. In the message processing module, the group chat control module enables the invention to have message communication with a plurality of different protocol persons. The method is characterized in that anyone (comprising the user and the contact person designated by the user) in all group chat modules can receive the message (comprising the user and the contact person designated by the user) only by sending the message. The contact does not need to change the current contact, even if the contact does not support group chat, the message processing module can transmit the message content, time, author and other information to everyone (including the user and the contact designated by the user). The specific principle is that after receiving a new message (including a user message and a foreign message), the message is forwarded to all but the author.

The network information transceiving system of the present invention is introduced above, and the present invention discloses the network information transceiving system as well as a network information transceiving method of the network information transceiving system, the method comprising the steps of:

step a the user sends information to the contact.

And (B) the inner station server receives the information sent by the client and sends the information to the corresponding outer station server or directly sends the information to other clients.

And the outstation protocol processing module reads the configuration file, reads the basic information of the plug-in according to the relevant configuration of the configuration file and loads the outstation plug-in.

The message processing module receives information sent by a user and designated contact persons, compares the contact information states in the outbound service corresponding to each contact information, and selects the preferred mode of the contact persons by comparing the online states and the priorities; or the contact information of the contact person is set by the user.

The outstation server receives the information of the information sender and sends the information to the information receiver [ step C ].

The network information transceiving method comprises the following steps of:

step 1, the user sends information to a plurality of set contacts at the same time.

And (2) the inner station server receives the information sent by the user client and sends the information to the outer station servers corresponding to the plurality of contacts or directly to a plurality of other clients.

And the outstation protocol processing module reads the configuration file, reads the basic information of the plug-in according to the relevant configuration of the configuration file and loads the outstation plug-in.

The message processing module receives information sent by a user and a plurality of designated contact persons, compares the contact information states in the outbound service corresponding to each contact information, and selects the preferred mode of the contact persons by comparing the online states and the priorities; or the contact information of the contact person is set by the user.

The outstation servers corresponding to the plurality of information receivers receive the information of the information sender and respectively send the information to the corresponding plurality of information receivers.

In summary, the network information transceiving system and method provided by the present invention can integrate multiple network services into one system, thereby implementing effective aggregation of each network service. The information exchange of people is greatly facilitated, and the work, study and life efficiency of people is improved. The invention can make the contact communicate with the user without leaving the network service currently used by the contact.

Example two

Hereinafter, a server for external network service is referred to as an "external station", and a server for realizing the function of the thesis is referred to as an "internal station".

1. Available extranet services

Whether a network service can integrate it depends on the openness of the network service. All supportable using open protocols are known at present. E.g., mailboxes supporting POP3 and SMTP protocols may be integrated; instant chat tools using XMPP protocol are also possible. Partially proprietary protocols may also be implemented with the support of open source components, such as MSNs. Some open-interface web services are also possible (e.g., Facebook). Unfortunately, some network service providers purposely avoid logging in from non-self software or sites (e.g., Tencent's QQ), which currently cannot be integrated, and need to wait for them to be opened before they can be integrated.

2. Using external web services

First, the interior stations need to have the capability to connect to various exterior stations. In use, the user needs to input necessary information to log in to his own network service. Including protocol, username and password; possibly including server, port, whether encryption is required, etc. And the related information input by the user is used for identity confirmation, and after the confirmation is finished, the login information is encrypted and stored in a database for storage so as to be used in the next login.

3. Communication mode of different integrated external network services

Services under different protocols and interfaces of the outstation need to be unified for the user to use. This requires an intermediary who is responsible for receiving, forwarding and storing, which is the server of the home. If user A has two contacts B and C, B uses email and C uses MSN. A publishes a topic for discussion B and C. The flow is shown in fig. 8.

The internal station contacts the corresponding external station by the identity of the user A through the login information provided by the user A and sends the message to the designated contact. That is, contact a and contact B require a to have an email box and contact a and contact C require a to have an MSN account. B and C will see the information sent by a through their own web services.

If B is to reply to the message sent by A, the reply flow is as shown in FIG. 9.

The E-mail replied by B is stored in the A mailbox, and the mailbox server of A does not actively send the reply content to the internal station. The inside station will itself check the mailbox of a and get a reply from the outside station. And when a new response exists, informing the user A to check, and sending a prompt to the user C, wherein the prompt B replies the theme. In the case of C-reply A, the principle is the same. (the process of sending and receiving e-mail is simplified in the figure)

4. Classification of topics, how to organize relatively independent messages

There may be multiple topics under one partition seen in a common forum, and there may be multiple posts under each topic. While we are sending email and instant chat and do not explicitly specify a topic for the content of the current discussion, each email and chat message is relatively independent. This is not appropriate in multi-person collaboration, requiring them to be organized. However, according to the principle of item 3 above, it is necessary to have a function of determining which topic the reply received from the external station belongs to, and then successfully realizing topic classification.

For email, it seems easier to resolve: marking the mail to indicate which topic belongs to, writing the mail at the tail end, and sending the mail to the designated contact. After the contact receives the response, the contact can directly reply. Because the reply mail generally carries the full text of the reply mail, the internal station can easily classify topics according to the marks in the full text.

For instant chat and other web services that do not have the default to retain the original information, the topic cannot be located accurately by tagging. The currently feasible method is to process each message for replying to the instant messaging independently or directly judge the reply to the last topic. This feature requires a more efficient solution as a widely used and efficient means of communication.

For network services (such as forums and micro blogs) with topic characteristics, the number can be directly checked and placed through titles.

5. Management of topics

The cooperation of multiple persons needs a common topic to be carried out, so that the forum mode is preferred. But unlike forums, the web service needs to support the feature of multi-person collaboration (modification of messages posted by others, multi-person voting, if allowed), and at the same time needs to be similar to the confidentiality of group chat. I therefore specify that the subject originator has the right to select contacts and whether they are private subjects, and that anyone who posts a message has the right to decide whether his message allows others to modify it. This caters for the nature of collaboration and privacy.

6. Selection of contacts

A contact is one who can see the topic published by the subject promoter and participate. Not all people can select as contacts. As described in item 3 above, if an e-mail is sent, it is necessary to provide the domestic site with information on your own mailbox account. For the protocol of the instant messaging tool, your contact needs to be present in the contact list of your instant messaging protocol. Just as you can only communicate with people in your contact list in MSN. The internal station provides a page network user to select the contact persons in a classification mode, and the contact person list of the topic can be modified at any time.

7. Processing of passive topics

Not all topics are initiated by the user of the home station, but also by the person of the foreign station. The most typical case is that B discusses a mathematical problem to a by e-mail. After B's email is sent to A's mailbox, once received by the Intranet, this becomes a new topic, which defaults to private topic, and the contacts are limited to A and B only. All permissions including privacy, collaboration, etc. are set to all of a.

The instant messaging mode still needs special treatment, A can set the new message sent by C as a new passive theme at any time, and the same management authority is still owned by the party A receiving the message.

Compared with the topics published by the self, the passive topics have no special place, and are only different from the author and the owner of the management authority.

8. Processing of academic content

As an academic exchange platform, a large number of input features are required. I have adopted the network academic exchange editor that I developed in the last year. However, the editor is mainly based on HTML language, and instant chat and other large-limitation outbound network services do not support the characteristic (even pictures cannot be spread). To solve this problem, once such an outbound service is encountered, the other party may be required to communicate with the system in the web page through the web page of the designated inbound station. This also solves the problem of subject classification of instant messaging information encountered in clause 4.

9. Communication of users in a base station

If the contact is already using the communication platform of the internal station, the complex architecture in item 3 can be completely abandoned, and a set of efficient communication modes of the internal station are used, which is originally achieved by Google Wave, and can be achieved through various technical conditions. This is the most idealized case, but is not the most prominent of the present platform.

10. Application method

The platform solves the problem of information exchange of different network services. Meanwhile, through some characteristics and typesetting similar to skin changing, the skin-changing multifunctional electronic device can completely fulfill the following functions: micro blogs, podcasts, forums, email clients, instant chat tools, personal forgetting books, photo albums, e-commerce and voting systems; as to which of the above items is selected by the user, the platform changes the layout according to the option. In general, where there is information exchange, the platform can be adapted to essentially the same without modifying the logic and data layer code.

The description and applications of the invention herein are illustrative and are not intended to limit the scope of the invention to the embodiments described above. Variations and modifications of the embodiments disclosed herein are possible, and alternative and equivalent various components of the embodiments will be apparent to those skilled in the art. It will be clear to those skilled in the art that the present invention may be embodied in other forms, structures, arrangements, proportions, and with other components, materials, and parts, without departing from the spirit or essential characteristics thereof. Other variations and modifications of the embodiments disclosed herein may be made without departing from the scope and spirit of the invention.

Claims (9)

1. A network information transceiving system, the system comprising:

the client is used for sending or receiving information;

the plurality of outstation servers are used for supporting communication among the clients;

the inner station server is connected with the client and the plurality of outer station servers; the inner station server receives the information sent by the client and sends the information to the corresponding outer station server or other clients; the inner station server receives information sent by the outer station server or other clients and sends the information to the corresponding client; the inter-site server includes:

-an outstation protocol processing module for reading the configuration file, reading the basic information of the plug-in according to the relevant configuration of the configuration file and loading the outstation plug-in, and sending and receiving the message required by the message processing module;

the message processing module is used for receiving the information sent by the user and the designated contact persons, comparing the contact information states in the outbound service corresponding to each contact information during sending, and selecting the preferred mode of the contact person by comparing the online states and the priorities; or the contact information of the contact person is set by the user.

2. The network information transmission/reception system according to claim 1, characterized in that:

the user selects the outbound service which is used by the user and exists in the outbound protocol processing module, and provides a login certificate for the outbound protocol processing module to process login information;

the user can exchange information with the plug-in unit of the external station at any time within the scope of the service authority of the external station through the relationship between the message processing module and the protocol processing module of the external station.

3. The network information transmission/reception system according to claim 1, characterized in that:

according to the difference of the outstation service protocols, the process of receiving the information of the contact person by the user is one of the following three processes:

the contact person directly sends the message to the outstation protocol processing module;

the contact person is sent to the external station protocol processing module through the intermediate external station server; the intermediate external station server receives the information of the information sender and sends the information to an external station protocol processing module of the information receiver;

the user sends information to the external station server, and the external station protocol processing module updates regularly.

4. The network information transmission/reception system according to claim 1, characterized in that:

the website server further comprises a theme identification module;

the new message processed by the message processing module is processed by the theme identification module to be marked as a theme;

any message sent from the message processing module is carried with subject information by the message processing module and sent to the contact person, and the information is directly put into message content including a title; or marking the code number of the message in the external station server in the internal station database;

and when the contact replies, the message processing module entrusts the outstation plug-in to analyze the theme information, marks the theme with the theme information as the theme of the theme information, regards the theme without the mark as a new theme, creates the theme, marks the message and finally stores the message in the database.

5. The network information transmission/reception system according to claim 1, characterized in that:

the inside station server further comprises an outside station plug-in;

the external station plug-in is loaded and controlled by an external station protocol processing module, and the main function is to simulate a protocol designed in the plug-in, so that the message processing module can receive and send messages to be sent by the message processing module in the protocol mode;

and if the external station information which can not be directly submitted to the information processing module exists, the external station plug-in unit also needs to convert the original information into the information which can be accepted by the information processing module or convert the information of the information processing module into the information which can be received by an external station protocol.

6. The network information transmission/reception system according to claim 1, characterized in that:

the message processing module further comprises a group chat control module for communicating messages with contacts using a plurality of different protocol tools;

any person in all the group chat modules can receive the message only by sending the message; the contact person does not need to change the current contact way of the contact person, even if the contact way does not support group chat, the message processing module can transmit the message content, time and author information to each person as usual; after receiving the new message, the message processing module forwards the message to all people except the author.

7. A network information transmission/reception method of the network information transmission/reception system according to any one of claims 1 to 6, characterized by comprising the steps of:

step A, a user sends information to a contact person;

b, the inner station server receives the information sent by the client and sends the information to the corresponding outer station server or other clients;

the outstation protocol processing module reads the configuration file, reads the basic information of the plug-in according to the relevant configuration of the configuration file and loads the outstation plug-in;

the message processing module receives information sent by a user and designated contact persons, compares the contact information states in the outbound service corresponding to each contact information, and selects the preferred mode of the contact persons by comparing the online states and the priorities; or the contact way of the contact person is set by the user;

and step C, the outstation server receives the information of the information sender and sends the information to the information receiver.

8. The network information transceiving method according to claim 7, wherein:

according to the difference of the outstation service protocols, the process of receiving the information of the contact person by the user is one of the following three processes:

the contact person directly sends the message to the outstation protocol processing module;

the contact person is sent to the external station protocol processing module through the intermediate external station server; the intermediate external station server receives the information of the information sender and sends the information to an external station protocol processing module of the information receiver;

the user sends information to the external station server, and the external station protocol processing module updates regularly.

9. The network information transceiving method according to claim 7, wherein:

the method comprises the following steps:

step 1, a user sends information to a plurality of set contacts at the same time;

step 2, the inner station server receives information sent by the user client and sends the information to an outer station server or a plurality of other clients corresponding to a plurality of contacts;

the outstation protocol processing module reads the configuration file, reads the basic information of the plug-in according to the relevant configuration of the configuration file and loads the outstation plug-in;

the message processing module receives information sent by a user and a plurality of designated contact persons, compares the contact information states in the outbound service corresponding to each contact information, and selects the preferred mode of the contact persons by comparing the online states and the priorities; or the contact way of the contact person is set by the user;

and 3, receiving the information of the information sender by the outstation servers corresponding to the plurality of information receivers, and respectively sending the information to the corresponding plurality of information receivers.