BG2789U1 - Data transmission system between two or more servers - Google Patents

Abstract

This utility model relates to a data transmission system between two or more servers and finds application in communication channels on the Internet. The system includes a central coordinating server comprising a relational integrating communication module, a non-relational integrating communication module, one or more link modules, a storage relational module, a non-relational storage module, and a data conversion module. The client servers with relational communication module are connected to client servers with relational module through the relational communication module of the central coordinating server. The client servers with a non-relational communication module are connected to client servers with non-relational module through the non-relational communications module of the central coordinating server. The servers with a different communication module are connected to each other through the appropriate communication modules on the central server and the data converter.

Description

(54) DATA TRANSMISSION SYSTEM BETWEEN TWO OR MORE SERVER (57) This utility model refers to a data transmission system between two or more servers and is applicable to communication channels on the Internet. The system includes a central coordinating server consisting of a relational integrating communication module, a non-relational integrating communication module, one or more communication modules, a relational data storage module, a non-relational data storage module, and a data conversion module. The relational communication module client servers are connected to the relational module client servers via the relational communication module of the central coordinating server. Client servers with non-relational communication module

N1

N2

N3

C1

C2

NW

The 2789 UIs are connected to the client servers with a non-relational module via the non-relational communication module of the central coordinating server. The servers with different communication module are connected to each other through the respective communication modules of the central server and the data converter.

claims, 1 figure

2789 UI (54) DATA TRANSMISSION SYSTEM BETWEEN TWO OR MORE SERVER

Field of technology

This utility model refers to a system for data transfer between η number of servers and finds application for building communication channels on the Internet, where the integration of data in communication between a large number of existing different e-commerce platforms is mandatory.

BACKGROUND OF THE INVENTION

Various systems are known in which data is exchanged, where for the transfer of data between two or more servers it is necessary to establish a communication channel between each of the servers. When it comes to data transfer between η per number of servers, the total required number of connections is calculated based on a triangular function. Thus, a system is established in which the data for each of the two servers is unified during their exchange, and a physical communication connection is established for each individual pair of servers. For example, a system consisting of four servers - A, B, C and H, will require six separate communication links for data transmission - (AB), (A-C), (Α-Ν), (C). -C), (Β-Ν) and (CN), where it will be necessary to implement exactly the same number of communication modules. With a system consisting of a large number of interconnected servers, this solution is complex to implement. Its main disadvantage is the need to implement a communication module that is specific and specific to the other party. This technical solution is not applicable when exchanging data between a large number (n) of servers with different types of databases. Such a system is not applicable without unification of the communication modules, according to the type of database used. Another major drawback is that in most cases with a volume of data between individual pairs of servers, the flow of information remains unprotected - unencrypted, without covering the norms and standards of data protection in such cases.

Technical essence of the utility model

The task of the utility model is to create a system for data transfer between η number of client servers through a central coordinating server, which will carry out the data transfer connection between the individual client servers, reducing the number of direct connections.

The task is solved through a data transmission system, which includes:

• central coordinating server;

• the central coordinating server consists of a relational integrating communication module, a non-relational integrating communication module, one or more communication modules, a relational data storage module, a non-relational data storage module and a data conversion module;

• one or more client servers, which consist of an operational module, a storage module and an integrating relational communication module;

• one or more client servers, which consist of an operational module, a storage module and an integrating non-relational communication module;

• the central coordinating server is connected in both directions to each of the client servers through its module for connection to a communication line via the Internet;

• each of the client servers is connected in both directions to the central coordinating server through its integrating communication module;

• each client server with a relational integrating communication module is connected to any other client server with a relational integrating module through the respective communication modules of the central coordinating server and the relational communication module of the central coordinating server;

• each client server with a non-relational integrating communication module is connected to any other client server with a non-relational integrating module through the respective connection modules of the central coordinating server and the non-relational communication module of the central coordinating server;

• each client server with a relational integrating communication module is connected to any other client server with a non-relational integrating module through the respective connection module of the central client server, the relational integrating module of the central coordinating

2789 a UI server, which in turn is connected to the data converter of the central client server, the non-relational integrating module of the central client server and the corresponding connection module of the central client server;

• each client server with a non-relational integrating communication module is connected to any other client server with a relational integrating module via the corresponding connection module of the central client server, the non-relational integrating module of the central coordinating server, which in turn is connected to the data converter. a client server, the relational integrating module of the central client server and the corresponding connection module of the central client server;

• in one specific example, the connection modules of the central coordinating server are routers;

• in one specific example, the integrating relational communication module of the client server is an integrating relational communication module with data encryption;

• in one specific example, the integrating non-relational communication module of the client server is an integrating non-relational communication module with data encryption.

Explanation of the attached figure

Figure 1 shows a data transmission system with a central coordinating server and four client servers, according to the present utility model.

Examples of implementation of the utility model

Figure 1 shows a data transmission system with a central coordinating server and four client servers.

The system of Figure 1 includes a central coordinating server 1. The central coordinating server 1 consists of a relational integrating communication module 2.1, a non-relational integrating communication module 2.2, four communication modules 4.1, 4.2, 4.3 and 4.4, a relational storage module 3.1, a non-relational data storage module 3.2 and data conversion module 5.

The system also includes four client servers A, B, C and N. Client server A consists of an operational module A3, a storage module A2 and an integrating non-relational communication module A1. Client server B consists of an operational module B3, a data storage module B2 and an integrating relational communication module B1. Client server C consists of an operational module C3, a data storage module C2 and an integrating non-relational communication module C1. Client server N consists of an operational module N3, a storage module N2 and an integrative relational communication module B1.

The four communication modules 4.1, 4.2, 4.3 and 4.4 of the central coordinating server 1 are routers designed to communicate between the central coordinating server and the client servers A, B, C and N, each communication router passing data of the same type as the data. from the specific communication module to which it is connected.

With the proposed utility model, only two options are possible for connections between the client and the central server (the two end servers do not communicate directly with each other):

1. Connection between client servers with a module of the same type.

When the integrating communication module of one client server is the same as the integrating communication module of another client server, the data is temporarily stored by the central server until one of the two parties initiates communication. The model we offer relies on a large enough number of participants with servers using duplicate database types. In this case, the server does not need to take any action related to additional fixes or additional installations. The client installs an already established communication router and communication module, necessary for the communication with the central server.

2. Connection between client servers with a module of different type.

When the integrating communication module of one client server is of a type that is different from the integrating communication module of another client server, the two client servers will use the role of the central server, and in particular of its conversion module, to unify the type of different communication modules for both parties involved in the specific communication.

2789 UI

In the beginning, it is more likely that there are participants who differ from each other in the use of base type. This implies the use of a specific type for the new base for the first time. In the model where two users need to establish a connection and transfer data, each communication router on the client server's side establishes a connection via an Internet communication line to the server through a router responsible for establishing the specific connection to the client server. The data received through the communication module, depending on the type of database, is converted according to a standard defined by the server. Once processed, they are redirected to the respective customer country at his request.

Using the utility model

The advantages of the system, according to the utility model, is the provision of a simplified system with advanced capabilities for transferring encrypted data between a large number of servers with different types of databases. Relational databases that are transmitted through an integrative relational communication module are those databases in which the information about the participants and processes is recorded in tables using a unique primary key - identifier. Non-relational databases that are transmitted through an integrative non-relational communication module are those databases in which the information about the participants and the processes is recorded in a document with a serial number. The data conversion module converts relational databases to non-relational databases and vice versa.

The system according to the utility model reduces the time for establishing a communication channel many times and increases the level of data protection with an encryption module in the central server. The presented utility model finds application in communications between different types of databases. An example application is in the field of e-commerce, where a provider with its own server and database has to exchange data with a large number of its partners with online stores. Such a model is used not only in e-commerce, but also in any integration process, where one type of data has to be converted according to the standards for another type of data.

Description of the markings

Central coordinating server

2.1 Integrating relational communication module of the central coordinating server

2.2 Integrating non-relational communication module of the central coordinating server

3.1 Relational module for data storage on the central coordinating server

3.2 Non-relational module for data storage on the central coordinating server

4.1 Connection module of the central coordinating server

4.2 Central coordination server connection module

4.3 Central coordination server connection module

4.4 Central coordination server connection module

Data conversion module

A Client Server

In the Client Server

With Client Server

N Client server

A1 Integrating non-relational communication module on client server A

A2 Client server data storage module A

I Client server operating module A

B1 Integrating relational communication module on client server

B2 Client server data storage module

Client Server Server Operational Module

C1 Integrating non - relational communication module on client server

C2 Client Data Storage Module

SZ Client Server Operational Module C

N1 Integrating relational communication module on client server

Client server data storage module

N3 Client Server Operational Module N Claims

Claims (3)

A system for transmitting data between two or more client servers via a central coordinating server, characterized in that the central coordinating server (1) is 2789 UI consists of a relational integrating communication module (2.1), a non-relational integrating communication module (2.2), one or more communication modules (4.1, 4.2, 4.3, 4.4), a relational storage module (3.1), a non-relational storage module data (3.2) and data conversion module (5); one or more client servers (B, N) consist of an operational module (B3, N3), a data storage module (B2, N2) and an integrating relational communication module (Bl, N1); one or more client servers (A, C) consist of an operational module (A3, C3), a data storage module (A2, C2) and an integrating non-relational communication module (A 1, N1); the central coordinating server (1) is connected in both directions to each of the client servers (A, B, C, N) through the communication modules (4.1, 4.2, 4.3, 4.4); each of the client servers (A, B, C, N) is connected in both directions to the central coordinating server (1) through its integrating communication module (A 1, B1, C1, N1); each client server with a relational integrating communication module is connected to any other client server with a relational integrating communication module via the respective communication modules of the central coordinating server (1) and the relational communication module of the central coordinating server (2.1); each client server with a non-relational integrating communication module is connected to any other client server with a non-relational integrating communication module via the respective communication modules of the central coordinating server (1) and the non-relational communication module of the central coordinating server (2.2); each client server with a relational integrating communication module is connected to any other client server with a non-relational integrating module via the corresponding connection module of the central client server (1) with the relational integrating module (2.1) of the central coordinating server (1). is connected to the data converter (5) of the central client server (1), the non-relational integrating module (2.2) of the central client server (5) and the corresponding connection module of the central client server; each client server with a non-relational integrating communication module is connected to any other client server with a relational integrating module via the corresponding connection module of the central client server (1) with the non-relational integrating module (2.2) of the central coordinating server (1). is connected to the data converter (5) of the central client server (1), the relational integration module (2.1) of the central client server (5) and the corresponding connection module of the central client server. Data transmission system according to claim 1, characterized in that the communication modules (4.1,4.2,4.3,4.4) of the central coordinating server (1) are routers. Data transmission system according to claims 1 or 2, characterized in that the integrating relational communication module (2.1) and the integrating non-relational communication module (2.2) of the client server (1) are data encrypted communication modules.