RU2441274C2 - Automated system of operating management of enterprise activities - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: network system comprises a server with a server communications module and with a central database joined by a double-sided link with external data sources, one client terminal with a client communications module, server and client communications modules are connected by a double-sided link via a communication channel. The server is additionally equipped with a module for generation of an individual control point for a current client and a module of individual data sample for the current client and is configured so that the module of generation of the individual control point for the current client is connected by one input to the external data sources, with its second input is connected to the server communications module, and with the output is connected to the input of the central database, which is connected to the output of the server communications module.

EFFECT: expansion of functional capabilities of the network system due to provision of data exchange coordination between a server and a client, possibility to monitor changes of data parameters due to the possibility to use low-speed communication channels in the system.

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Description

The present invention relates, in general, to computer networks and, in particular, to the transfer and processing of data between client and server applications, such as network databases, file applications. The invention can be used in various sectors of the economy (for example, in trade, industrial activity of an enterprise with a complex organizational structure, large volumes of production) to automate the process of accounting for the operational and economic activities of the enterprise.

One of the tasks of information systems used to automate the planning and accounting processes of the operational and economic activities of an enterprise with large volumes of databases and with a large number of both local and geographically remote users is the need to ensure coordinated work of a large number of users in data update modes, in including in the absence or high cost of high-speed channels. In modern conditions of operation of the enterprise, it is absolutely necessary that the data entered into the system be available immediately after the registration of the operation performed to all users of the system, i.e. the system must continuously monitor changes in the process parameters of the operational and economic activities of the enterprise.

Traditional architectures of a client-server-type software package are known, including a central server (central database) and a number of client terminals (Jon Sneijder "Effective TCP / IP Programming", Fig. 1.1., Http://www.ozon.ru / context / detail / id / 126048 /, http://www.infocentr.ru/~bugaga/tcpip/main.html). The functional parts of this complex interact with the help of communication tools (modules) according to the "request-response" scheme: one of them (the client) performs an active function, i.e. initiates requests, and the other (server) passively answers them. However, such a system does not ensure the coordinated work of a large number of users in data update modes, and therefore, its use in the conditions of modern requirements for organizing the operational and economic activities of the enterprise is not effective. That is, the disadvantage of the known system is that its functionality is limited.

The objective of the invention is to expand the functionality of the network system by ensuring consistency of data exchange between the server and the client, the ability to control changes in data parameters, and also due to the possibility of using low-speed (low-performance) communication channels in the system.

The problem is realized in that in a network system containing a server with a server communication module and with a central database connected by two-way communication with external data sources, and at least one client terminal with a client communication module, while the server and client communication the modules are connected by two-way communication through the communication channel, the server additionally contains a module for generating an individual control point for the current client, a module for individual data sampling for the current client and configured so that the module for creating an individual control point for the current client is connected to external data sources with one input, connected to the server communication module with the second input, and connected to the central database input, which is connected to the output of the server communication module, and connected to the output two-way communication with the module of individual data sampling for the current client, the output-input of which is connected to the server communication module; the at least one client terminal further comprises a local database, a checkpoint generation and information recording module, a data sampling module, an information processing and acquisition module, a control core and a communication initiation determination module, and is configured so that the communication initiation determination module is connected with the input of the control core, which is connected by two-way communications with the module for collecting and processing information and with the local database and its output is connected with the data sampling module connected to the client communication module, the information collection and processing module is connected by two-way communication with the local database and with the input of the control point generation and information recording module, which is connected to the output of the client communication module and the input of the local database, and the local database is connected to the output of the client communication module and is connected by two-way communication with the control core and with the data sampling module; the central database contains a set of common data, a set of individual data of at least one client terminal, and current sets of common data and individual data of at least one client terminal synchronized with individual current data sets contained in the local database data; the local database contains individual current data sets synchronized with the current sets of common data and individual data of at least one client terminal contained in a central database; the data sampling module is configured to generate sets of modified data of the local database, requiring synchronization with the current sets of common data and individual data of at least one client terminal contained in the central database; the individual data sampling module for the current client is configured to generate sets of modified data of the central database, requiring synchronization with individual current data sets contained in the local database; the checkpoint generation and information recording module provides the formation and introduction into the local database of an individual current data set synchronized with the current set of common data and individual data of at least one client terminal contained in a central database; an individual control point generation module for the current client provides the generation and introduction into the central database of the current set of common data and individual data of at least one client terminal synchronized with the individual current data set contained in the local database; the information collection and processing module is configured to input the changed data into the local database and into the module for generating a control point and recording information; external data sources are configured to enter the changed data into the central database and into the module for generating an individual control point for the current client; the control core is configured to control the operation of the module for collecting and processing information and controlling the operation of the network system; the module for determining the moment of communication initiation is configured to set and determine the time for communication with the server; the server communication module and the client communication module are configured to pack, unpack, encrypt, decrypt, receive and transmit data.

By introducing into the system of the local database the control core, the module for generating an individual control point for the current client, the module for individual data sampling for the current client, the module for generating the control point and recording information, the module for data sampling, the module for processing and collecting information, the module for determining the moment of initiation due to the proposed special configuration of the introduced components with other server components and at least one client terminal, it becomes possible to change information common to all users that is stored in the central database, both from the server side — by receiving data from external sources in the central database, and from the side of at least one client terminal — by entering information into the local database from module for collecting and processing information. In this case, information about changes in the central database and / or in the local database of at least one client terminal is delivered to the local databases of all client terminals connected to the system and is copied to the central database. Moreover, it becomes possible to automatically adjust the amount of information transmitted, the frequency and duration of server communication sessions with each specific client terminal. Thus, the inventive network system ensures the consistency of data exchange between the server and the client terminal, allows you to continuously monitor changes in data parameters; and it also becomes possible to use low-speed (low-performance) communication channels in the system. All this allows you to use the inventive system to automate the planning and accounting processes of the operational and economic activities of the enterprise with large volumes of databases and with a large number of both local and geographically remote users, including in the absence or high cost of high-speed channels, that is, it expands functionality of the claimed system.

The essence of the invention is illustrated in the drawing, which presents a functional diagram of a network system.

The network system (see drawing) contains a server (1) with a server communication module (4) and with a central database (6) connected by two-way communication with external data sources (9), and at least one client terminal (2 ) with a client communication module (3) and with a local database (10). The server communication module (4) and the client communication module (3) are connected by two-way communication via the communication channel (5) and are configured to pack, unpack, encrypt, decrypt, receive and transmit data.

The central database (6) contains (not shown) a set of common data, a set of individual data of at least one client terminal (2), and current sets of common data and individual data of at least one client terminal (2), synchronized with individual current data sets contained in a local database (10).

The local database (10) contains (not shown) individual current data sets synchronized with the current sets of common data and individual data of at least one client terminal (2) contained in the central database (6).

The server (1) also contains a module for the formation of an individual control point for the current client (7), which is connected to external data sources with one input (9), and connected to the server communication module (4) with the second input, and connected to the central database input with the output (6), which is connected to the output of the server communication module (4) and connected by two-way communication with the individual data sampling module for the current client (8), the output-input of which is connected to the server communication module (4).

The individual data sampling module for the current client (8) is configured to generate sets of modified data of the central database (6) that require synchronization with individual current data sets contained in the local database (10).

The module for creating an individual control point for the current client (7) provides the formation and introduction into the central database (6) of the current set of common data and individual data of at least one client terminal (2) synchronized with the individual current data set contained in local database (10).

External data sources (9) are configured to enter the changed data into the central database (6) and into the module for generating an individual control point for the current client (7).

At least one client terminal (2) also contains a module for determining the moment of initiation of communication (15), which is connected to the input of the control core (14), which is connected by two-way communications with the module for collecting and processing information (13) and with a local database ( 10) and its output is connected to the data sampling module (12) connected to the input of the client communication module (3). The module for collecting and processing information (13) is connected by two-way communication with the local database (10) and with the input of the module for generating a control point and recording information (11), which is connected to the output of the client communication module (3) and with the input of the local database (10) ) The local database (10) is connected to the output of the client communication module (3) and is connected by two-way communications with the control core (14) and with the data sampling module (12).

The data sampling module (12) is configured to generate sets of modified data of the local database (6) that require synchronization with the current sets of common data and individual data of at least one client terminal (2) contained in the central database (6) .

The module for generating a control point and recording information (11) provides the formation and introduction into the local database (10) of an individual current data set synchronized with the current set of common data and individual data of at least one client terminal (2) contained in the central database (6).

The module for collecting and processing information (13) is configured to enter the changed data into the local database (10) and into the module for generating a control point and recording information (11).

The control core (14) is configured to control the operation of the module for collecting and processing information (13) and control the operation of the network system.

The module for determining the moment of initiation of communication (15) is configured to set and determine the time for communication with the server (1).

In the inventive system, various communication channels can be used, for example, a LAN connection, an Internet connection via a dedicated wired channel, a mobile GPRS / EDGE / 3G connection, etc.

The modular components of a network system can be a class or a set of interconnected classes and interfaces that are physically integrated into dynamically connected libraries (DLLs).

The components of the inventive network system can be implemented using software and hardware on standard personal computers.

The following describes an example implementation of a network system. To simplify the description, instead of the wording “individual current data set synchronized with the current set of common data and individual data of at least one client terminal contained in the central database”, the term “synchronization checkpoint with the server” is used, and instead of the wording “The current set of common data and individual data of at least one client terminal synchronized with the individual current set of data contained in the local database OF DATA "is used, the term" customer individual control point. "

In the process of operational and economic activities of the enterprise, for the automation of which a network system can be used, a set of data common for all client terminals (2), sets of individual data of client terminals (2) are entered into the central database (6).

New or changed information is accumulated in the local database (10) of the client terminal (2). This can be, for example, data on the quantity and types of goods sold or in stock, etc. New or changed information is received in the local database (10), as well as in the module for generating a control point and recording information (11) from the information collection and processing module (13), where the information can be processed according to certain criteria. The process of accumulating new or changed information on the “client” continues until a communication session with the server (1) occurs, the implementation time of which is set and determined by the module for determining the moment of communication initiation (15). The moment of communication can be determined by various conditions, for example, by a time interval, by timer, at a given time, etc. After the module for determining the moment of communication initiation (15) determines that it is necessary to contact the server (1), it initiates a signal that arrives at the server, and the “client” expects a response from the server (1). If the answer is received and has the correct format, then the data sampling module (12) selects from the local database (10) information that has appeared or changed since the last communication session (that is, from the moment that the previous “synchronization checkpoint with server "); a packet (set) of data is formed from the selected information, which, using the client communication module (3), is sequentially compressed, encrypted, and sent to the server (1) via the communication channel (5).

In turn, the server (1), having received a data packet from the client terminal (2), using the server communication module (4) unpacks it and decrypts it, the received information is transmitted to the central database (6), and then to the client terminal (2 ) a signal is triggered notifying that the information has been successfully saved. After receiving a notification signal from the server (1), the “client” “marks” the data as successfully transmitted, i.e. the module for generating a control point and recording information (11) creates a new "control point for synchronization with the server", which is stored in a local database (10). "Client" goes into standby mode information from the server (1).

The individual data sampling module (8) selects from the central database (6) information received from external data sources (9) or changed by them since the last communication session with the current “client” (ie, from the moment corresponding to the previous “ individual customer checkpoint "); a package (set) of data is formed from the selected information, which requires synchronization with individual current data sets contained in a local database (10); the generated data packet using the server communication module (4) is subjected to sequential compression, encryption and sending to the client terminal (2) through the communication channel (5). In turn, the client communication module (3) unpacks the received data packet, decrypts it; the received information goes to the local database (10), after which a signal is sent to the server (1) about the successful receipt and storage of information. Server (1) “marks” the selected data as successfully transferred to the current client, i.e. the individual control point formation module for the current client (7) creates a new “individual customer control point”.

The client terminal (2) disconnects from the server (1) and proceeds to the mode of collecting and changing information.

Claims (1)

A network system comprising a server with a server communication module and a central database connected by two-way communication with external data sources, and at least one client terminal with a client communication module, while the server and client communication modules are connected by two-way communication via a communication channel characterized in that the server comprises a module for generating an individual control point for the current client, an individual data sampling module for the current client, and configured so that the module for generating an individual control point for the current client is connected to external data sources by one input, connected to the server communication module by the second input, and connected to the central database input, which is connected to the output of the server communication module, and connected by two-way communication with the module individual data sampling for the current client, the output-input of which is connected to the server communication module; at least one client terminal further comprises a local database, a checkpoint generation and information recording module, a data sampling module, an information processing and acquisition module, a control core and a communication initiation determination module, and is configured so that the communication initiation determination module is connected with the input of the control core, which is connected by two-way communications with the module for collecting and processing information and with the local database and its output is connected with the data sampling module connected to the client communication module, the information collection and processing module is connected by two-way communication with the local database and with the input of the control point generation and information recording module, which is connected to the output of the client communication module and the input of the local database, and the local database is connected to the output of the client communication module and is connected by two-way communication with the control core and with the data sampling module; the central database contains a set of common data, a set of individual data of at least one client terminal, and current sets of common data and individual data of at least one client terminal synchronized with individual current data sets contained in the local database data; the local database contains individual current data sets synchronized with the current sets of common data and individual data of at least one client terminal contained in a central database; the data sampling module is configured to generate sets of modified data of the local database, requiring synchronization with the current sets of common data and individual data of at least one client terminal contained in the central database; the individual data sampling module for the current client is configured to generate sets of modified data of the central database, requiring synchronization with individual current data sets contained in the local database; the module for generating a control point and recording information provides the formation and introduction into the local database of an individual current data set synchronized with the current set of common data and individual data of at least one client terminal contained in a central database; an individual control point generation module for the current client provides the generation and introduction into the central database of the current set of common data and individual data of at least one client terminal synchronized with the individual current data set contained in the local database; the information collection and processing module is configured to input the changed data into the local database and into the module for generating a control point and recording information; external data sources are configured to enter the changed data into the central database and into the module for generating an individual control point for the current client; the control core is configured to control the operation of the module for collecting and processing information and controlling the operation of the network system; the module for determining the moment of communication initiation is configured to set and determine the time for communication with the server; the server communication module and the client communication module are configured to pack, unpack, encrypt, decrypt, receive and transmit data.