RU2703183C1 - Integrated information-analytical system for ensuring the quality of automated military systems - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: invention relates to integrated information-analytical system for providing quality of automated military systems (AMS). System comprises automated workstations, text and graphic information input means, a printer for producing report documents, a database server including a centralized data storage, wherein it is presented in the form of an operation level comprising an automation object (operator), and providing automation levels, each of which comprises automation objects (customer, developer, manufacturer), wherein level automation objects are connected through a wide-area network and each includes an automated workstation, a data transmission server, a database server comprising a module for inputting and correcting requirements for quality indices of the AMS and its components, a module for collecting and processing information on the state of AMS, a module for interaction and formation of solutions.

EFFECT: automation of quality assurance of AMS.

5 cl, 1 dwg

Description

The claimed invention relates to automation systems based on the use of computers and relates to the technology of creating software and hardware to ensure the quality of automated military systems (ASVN) in the process of their functioning and development.

The objective of the claimed invention is the automation of processes of information and analytical activities geographically

Distributed subjects of the life cycle (LC) of ASVN (operator, customer, developer, manufacturer) involved in the formation of decisions to ensure the quality of ASVN in the process of their functioning and development.

The territorial information system of the municipality is known from the prior art (utility model No. 66826 of November 20, 2006), which contains communications, system software and application software, a metadata database, geospatial databases, display and documentation tools, a database of regulatory and regulatory documents and conditions, means of display and documentation and the core of the system, the outputs and inputs of which are connected to the means of communication, system and software, means from presentation and documentation, as well as to the metadata database, geospatial database and regulatory regulatory documents and conditions, combined into one subsystem.

A well-known geo-information system (utility model No. 18586 dated 03/13/2001) containing communication tools, software, a metadata base, geospatial data bases, reception control and fulfillment tools for consumers and display and documentation tools, and reception and execution control applications is made in the form of a system core, the outputs and inputs of which are connected to communication tools, system and software, display and documentation tools, as well as to the metadata database and a geospatial database integrated into one subsystem.

However, these systems are not intended to ensure the quality of automated military systems (ASVN) in the process of their functioning and development.

Closest to the claimed solution is an integrated information and analytical support system (utility model No. 90240 of September 24, 2009), which is implemented according to the three-level architecture of distributed information systems: the client part, the server part on the application server and the server part as a database. Unfortunately, it can only provide the selection of the required information, in accordance with a given subject area, due to the formation of an individual virtual workspace by the user, and access to it, namely, providing quick access to retrieve data from a previously created data array, their analytical processing , viewing and saving, as well as the ability to quickly add, calculate and delete data from your workspace.

The described system consists of the following elements: a personal computer connected to the control computer via network communication equipment; information input unit, authorization unit; information selection unit; information presentation unit; block for forming a “workbook” of the user analytical data processing unit; information storage unit. These elements of the system can be applied to the claimed solution only with the partial formation of one level of automation that does not provide interaction between other automation objects (subjects of the ASVN LC), i.e. this system will not ensure the processing of documented information by all subjects of the ASVN LC during the formation of decisions on ensuring the quality of ASVN in the process of its functioning and development.

The technical result of the claimed invention is to ensure the efficiency of processing documented information by the subjects of the LC ASVN when forming decisions on ensuring the quality of ASVN in the process of their functioning and development.

The task and the specified technical result are achieved by the fact that the integrated information and analytical system of quality assurance of the automatic data collection system contains at least four workstations, a means for entering text and graphic information, a printing device used to produce reporting documents, a database server including a centralized data warehouse and computational logic modules. The indicated technical result is ensured by the implementation of the claimed system of functional capabilities of the computing and logical modules by means of the corresponding blocks included in them, as well as by presenting the system as an operating level containing an automation object (exsguatant) and at least one providing automation level, each of which contains at least three automation objects (customer, developer, manufacturer), while level automation objects are connected through a global a computer network and each network includes at least one workstation, a data transfer server, a database server, which also contains a computational-logical module for input and adjustment of requirements to the quality indicators of the automatic navigation system and its components, including blocks whose name reflects them functional purpose and capabilities of the module: input and adjustment unit for the values of quality indicators, composition and requirements for the characteristics of the ASVN and its components; a unit for linking quality indicators to the components of the ASVN using an information model of the state of the ASVN, a computational logic module for collecting and processing information about the state of the ASVN, including blocks whose name reflects their functional purpose and capabilities of the module: a unit for collecting information about the state of quality characteristics of the ASVN and its components regarding detected inconsistencies; block input, editing, display, monitoring the state of the information model of the ASVN; block for the exchange of information and data synchronization with complexes of means of automation of the activity of subjects of the LC ASVN; a unit for generating reports for analysis in various information sections, a computational-logical module for interaction and decision making, which includes blocks whose name reflects their functional purpose and module capabilities: a unit for decomposing and assembling the necessary document from various elements of the information model of the state of the automatic navigation system; unit for the formation and adjustment of the routes of documents passing through the subjects of the LC ASVN; an access rights delimitation unit, wherein the database server, the data transfer server and the workstation inside one automation object are integrated into a local area network.

The presence of a database server containing a computational logic module for input and adjustment of requirements to the quality indicators of the ASVN and its components is necessary for the operational formation of a system of balanced indicators of the ASVN, providing an assessment of the quality characteristics of the ASVN and its components.

The presence of a database server containing a computational logic module for collecting and processing information about the state of the ASVN is necessary to automate the processes of collecting and processing information about the state of the quality characteristics of the ASVN and its components.

The presence of a database server containing a computational-logical module for interaction and decision-making is necessary for the efficient organization of the processing of electronic documents, as well as the formation and adjustment of the routes for documents to pass through all subjects of the LC ASVN with differentiation of access rights.

The integration of a database server, a data transfer server, and a workstation within a single automation object, combined into a local area network, is expedient for ensuring the process of automated operation of the system.

A typical workstation may include a monitor, keyboard, mouse-type manipulator, system unit. This is necessary for organizing the interaction of the official of the relevant subject of the ASVN LC with the system as its user.

The use of a system of secure channels of information exchange of a global computer network helps to ensure the confidentiality of the transmitted information between automation objects.

Automated workstations of automation objects can be represented by automated workstations of different functional workstations. This view contributes to the separation of the functional responsibilities of various officials of the subjects of the LC ASVN participating in the formation of decisions to ensure the quality of ASVN.

The figure depicts a specific example of an integrated information and analytical system for assuring quality assurance systems, where the operating level (6) contains the automation object of the operating organization ASVN (operator) and three objects of automation of the assuring level (7), which are the ordering organization (customer), enterprises developing (developer) and manufacturing (manufacturer) ASVN.

The integrated information and analytical system of quality assurance of the ACVN contains at least four workstations (1), a means for entering text and graphic information (2), a printing device (3), four database servers (4), four data transfer servers (10 ), according to the invention, consists of the operating level (6) and at least one automation level providing (7), each of which may contain at least three automation objects (8), while the objects of level automation are connected through a global of-area network (9).

Each automation object contains at least one automated workstation (1), a data transfer server (10), a database server (4) containing a centralized data warehouse (5), as well as computational and logical modules: inputs and corrections requirements for quality indicators of ASVN and its components (11), collection and processing of information about the state of ASVN (12), interaction and formation of decisions (13). In this case, the database server (4), the data transfer server (10) and the workstation (1) inside one automation object are integrated into a local area network (14). The workstation (1) contains a monitor, keyboard, mouse-type manipulator, and a system unit. The system can use secure channels of information exchange of a global computing network (9) between automation objects (8).

The computational-logical module for input and adjustment of requirements to the quality indicators of the ASVN and its components (11) includes blocks characterizing the functional capabilities of the module: the block of input and adjustment of the values of quality indicators, composition and requirements for the characteristics of the ASVN and its components; a unit for linking quality indicators to the components of the ASVN using the information model of the state of the ASVN.

The computational-logical module for collecting and processing information about the state of the ASVN (12) includes blocks that characterize the functionality of the module: a block for collecting information about the state of the quality characteristics of the ASVN and its components in terms of detected inconsistencies; block input, editing, display, monitoring the state of the information model of the ASVN; block for the exchange of information and data synchronization with complexes of means of automation of the activity of subjects of the LC ASVN; reporting unit for analysis in various information sections.

The computational-logical module for interaction and decision-making (13) includes blocks that characterize the module’s functionality: a decomposition and assembly unit for the required document from various elements of the information model of the ASNS state; unit for the formation and adjustment of the routes of documents passing through the subjects of the LC ASVN; block of differentiation of access rights.

Implementation of a system consisting of an operating level (6) containing an automation object (8), which is a set of automation tools for the operation of the operating organization of the ASVN (operator), and at least one providing automation level (7), each of which may contain at least than three automation objects (8), which are complexes of means of automation of the activity of the subjects of the LC ASVN, participating in the formation of decisions to ensure the quality of the operated ASVN (customer, developer, from prepared by) through a global computer network (9), it is necessary for the operational interaction of the subjects of the ASVN LC during the formation of decisions on ensuring the quality of the ASVN in the process of their functioning and development.

It is advisable to include at least one automated workstation (1), a data transfer server (10), a database server (4) in the structure of each automation object (8) to automate the processes of information and analytical activities of the subjects of the LC ASVN.

The presence of a database server (4), containing a computational-logical module for input and adjustment of requirements to the quality indicators of the ASVN and its components (11), is necessary for the operational formation of a system of balanced indicators of the ASVN, providing an assessment of the quality characteristics of the ASVN and its components.

The presence of a database server (4), containing a computational logic module for collecting and processing information about the state of ASVN (12), is necessary to automate the processes of collecting and processing information about the state of quality characteristics of ASVN and its components.

The presence of a database server (4), containing a computational-logical module for interaction and decision-making (13), is necessary for the efficient organization of electronic document processing processes, as well as the formation and adjustment of document flow routes through all subjects of the ASVN LC with differentiation of access rights.

The integration of a database server (4), a data transfer server (10) and an automated workstation (1) inside one automation object (8), united in a local area network (14), is expedient for ensuring the process of automated operation of the system.

A typical workstation (1) may include a monitor, keyboard, mouse-type manipulator, and system unit. This is necessary for organizing the interaction of the official of the relevant subject of the ASVN LC with the system as its user.

The use of a system of secure channels of information exchange of a global computing network (9) helps to ensure the confidentiality of transmitted information between automation objects (8).

The computational-logical module for input and adjustment of requirements for quality indicators of ASVN and its components (11) may include: a block for input and adjustment of values of quality indicators, composition and requirements for characteristics of ASVN and its components; a unit for linking quality indicators to the components of the ASVN using the information model of the state of the ASVN. The presence of these blocks provides the on-line editing of requirements for the quality indicators of ASVN.

The computational-logical module for collecting and processing information about the state of the ASVN (12) may include: a unit for collecting information about the state of the quality characteristics of the ASVN and its components in terms of detected inconsistencies; block input, editing, display, monitoring the state of the information model of the ASVN; block for the exchange of information and data synchronization with complexes of means of automation of the activity of subjects of the LC ASVN; reporting unit for analysis in various information sections. The presence of these blocks provides automation of the processes of collecting and processing information about the state of the quality characteristics of ASVN and its components.

The computational-logical module of interaction and decision-making (13) may include: a decomposition and assembly unit for the necessary document from various elements of the information model of the state of the ASVN; unit for the formation and adjustment of the routes of documents passing through the subjects of the LC ASVN; block of differentiation of access rights. The presence of these blocks ensures the efficiency of the implementation of the processes of information and analytical activity of the subjects of the LC ASVN when developing, coordinating and approving decisions that affect the change in the quality characteristics of the ASVN and its components.

Automated workstations (1) of an automation object (8) can be represented by automated workstations (1) of different functional workstations. This view contributes to the separation of the functional responsibilities of various officials of the subjects of the LC ASVN participating in the formation of decisions to ensure the quality of ASVN.

A system consisting of software and hardware with a fundamentally new implementation of the interconnected computational and logical modules declared in the technical solution works as follows.

The official of the automation object at the automated workstation of the automation object of the providing level, using the computational logic input module and adjusting the requirements for the quality indicators of the ASVN and its components, enters the minimum and maximum values and sets the possible range of change in the values of the quality indicators of the ASVN and its components. The entered information enters the centralized data warehouse on the database server through the local computer network of the corresponding providing level of automation, then through the local computer network of the automation object of the providing level it enters the data transfer server of the object of this automation object. In turn, the computational-logical module for interaction and decision-making generates an electronic document with the specified quality indicators of the ASVN and sends it along the formed route for approval and approval with other subjects of the ASVN LC providing the level of automation through the data transfer server via the global computer network. After the approval and approval of the set values of the quality indicators of the ASVN and its components, the data server of the automation object of the providing level, which initiates the input (adjustment) of the quality indicators of the ASVN, communicates with the data server of the operational level through the global network. Now the information is available at the workstation of the automation object of the operational level. The described information exchange between the automation object of the providing level and the automation object of the operation level is used in the exchange of information in the process of information-analytical activity of the subjects of the LC ASVN.

At the automated workstation of the automation object of the operating level, using the computational logic module for collecting and processing information about the state of the ASVN, the information model of the state of the ASVN and its components is edited, then information is collected on the state of the quality characteristics of the ASVN and its components in terms of identified inconsistencies for the given indicators . In case of deviations from the established requirements for acceptable values of the established quality indicators (inconsistencies), an analytical report is generated in various information sections in relation to the identified design, production and operational deficiencies. Further, the information on the detected inconsistencies is recorded in the centralized data warehouse of the automation object of the operating level and through the local computer network of the automation object of the operational level it is transmitted to the data transmission server of the operational level, through the global computer network - to the data transmission server of the automation facility of the providing level and then through the local computer network of an automation facility of a supporting level is recorded in a centralized data storage facility that automation of the providing level and becomes available at the automated workstation of the automation object of the providing level, while in the computational-logical module of interaction and formation of decisions a complaint is formed and the route of its passage through the relevant subjects of the LC ASVN (automation objects of the providing level) through the global computer network using data transfer servers of an appropriate level of automation for forming windows atelnogo solutions in order to proceed with respect to the identified discrepancies.

For example, in order to increase the efficiency of the formation of decisions on ensuring the quality of the DIA, it is advisable to simultaneously provide joint processing of complaints in parallel with the plan of corrective and preventive actions for identified inconsistencies (deviations from the established requirements for acceptable values of the quality indicator of the DIA and its components) and recording the approved decision on a centralized data storage of the automation object of the providing level. Further, the approved decision with the corrective and preventive action plan through the global computer network becomes available to all subjects of the ASVN LC for their implementation.

The described integrated information and analytical system for assuring quality of ASVN, including the described means for automating the activities of the subjects of the ASVN LC and interconnected computational and logical modules by automating the main processes of processing documented information by all subjects of the ASVN LC, allows achieving a technical result in comparison with analogs - ensuring the efficiency of processing of documented information subjects of the LC ASVN in the formation of decisions to ensure the quality of ASVN the process of their functioning and development.

Claims (5)

1. An integrated information and analytical system for ensuring the quality of automated military systems (ASVN), containing at least four workstations, a means for entering text and graphic information, a printing device used to produce reporting documents, a database server that includes a centralized data warehouse, characterized in that it is presented in the form of an operating level containing an automation object (operator), and at least one providing ur Automation ramp, each of which contains at least three automation objects (customer, developer, manufacturer), while level automation objects are connected through a global computer network and each includes at least one automated workstation, data transfer server, database server , which also contains a computational-logical module for input and adjustment of requirements to ASVN quality indicators and its components, including blocks whose name reflects their functional purpose and possible of the module: the input unit and adjusting the values of quality indicators, the composition and performance requirements ASVN and its components; a unit for linking quality indicators to the components of the ASVN using an information model of the state of the ASVN, a computational logic module for collecting and processing information about the state of the ASVN, including blocks whose name reflects their functional purpose and capabilities of the module: a unit for collecting information about the state of quality characteristics of the ASVN and its components regarding detected inconsistencies; block input, editing, display, monitoring the state of the information model of the ASVN; block for the exchange of information and data synchronization with complexes of means for automating the activities of the subjects of the ASVN life cycle; a unit for generating reports for analysis in various information sections, a computational-logical module for interaction and decision making, which includes blocks whose name reflects their functional purpose and module capabilities: a unit for decomposing and assembling the necessary document from various elements of the information model of the state of the automatic navigation system; a block for the formation and adjustment of documents passing routes through the subjects of the ASVN life cycle; an access rights delimitation unit, wherein the database server, the data transfer server and the workstation inside one automation object are integrated into a local area network. 2. The system according to claim 1, characterized in that the system uses secure channels of information exchange of the global network. 3. The system according to p. 1, characterized in that the computational-logical module for input and adjustment of requirements for quality indicators of ASVN and its components includes: a unit for input and adjustment of values of quality indicators, composition and requirements for characteristics of ASVN and its components; a block for linking quality indicators to the components of the ASVN using the information model of the state of the ASVN. 4. The system according to claim 1, characterized in that the computational logic module for collecting and processing information about the state of the ASVN includes: a unit for collecting information about the state of the quality characteristics of the ASVN and its components in terms of detected inconsistencies; block input, editing, display, monitoring the state of the information model of the ASVN; block for the exchange of information and data synchronization with complexes of means for automating the activities of the subjects of the ASVN life cycle; reporting unit for analysis in various information sections. 5. The system according to claim 1, characterized in that the computational-logical module for interaction and decision-making includes: a decomposition and assembly unit for the required document from various elements of the information model of the ASNS state; a block for the formation and adjustment of documents passing routes through the subjects of the ASVN life cycle; block of differentiation of access rights.

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