RU98387U1 - DECISION MAKING SUPPORT SYSTEM FOR OPERATING AND DISPATCHING AND OPERATING PERSONNEL OF AUTOMATED SORTING SLIDES (DSS KDK SU) - Google Patents

Abstract

 A decision support system for the operational dispatching and operating personnel of an automated sorting slide, containing a block of data sources for an automated process control system, the first information output of which is connected to the first information input of a data processing and cleaning unit, configured to analyze and process data, the first information the output of which is connected to the first information input of the telemetry database unit, made with possible the ability to accumulate operational information on the operation of controlled equipment, the first information output of which is connected to the first information input of a multidimensional database unit, configured to accumulate and store long-term information, the second information output is connected to the first information input of a knowledge base unit, which is capable of accumulating experience and knowledge, the third information output is connected to the first information input of the device parameter control unit, made with the ability to configure and control threshold values for the functioning parameters of equipment and personnel, the fourth information output is connected to the first information input of the reporting unit, configured to display current information about the status of the equipment being monitored and the work of the personnel, the fifth information output is connected to the first information input of the smart unit analysis of device parameters, made with the possibility of optimizing planning and conducting technical

Description

The utility model relates to computer technology in railway transport, in particular, to automation and telemechanics systems that provide monitoring, diagnostics and analysis of the operation of mining equipment and personnel work on automated sorting hills. Also, the proposed model can be used in various fields of science, technology and industrial production related to complex and labor-intensive operator or technological activities, including those involving the use of information-analytical systems and decision support systems.

The proposed utility model is aimed at improving the efficiency and safety of the railway automated sorting slide and increasing the reliability of the evaluation of the operation of automatic slide control devices and personnel.

There are known systems that could be used to solve a similar problem, provided that they are substantially modified and adapted to the specifics of the railway sorting slide.

For example, a system whose operation is based on the principle of operational processing and analysis of data from heterogeneous sources of information described in patent RU 2271571, G06Q 30/00.

But a significant drawback of this system is the impossibility of obtaining analytical information in a form convenient for users in order to accumulate knowledge on the best ways to carry out work in case of emergency or typical events occurring during the operation of the equipment.

Or the system described in patent RU 2274895, G06F 17/40. This is an analytical system, the speed of which is quite high and occurs due to the exclusion of data search across the entire database of its field, and the search is localized only by time and distinguishing features of the identifier. Such a solution is closer to the proposed one.

Its disadvantage lies in the insufficiently accurate determination of the growth trends of failures and failures of controlled equipment and a significantly limited number of possible methods of information analysis, due to the construction of a block of intelligent analysis based on Microsoft Excel software. Which ultimately does not allow a comprehensive analysis of the functioning of devices and equipment in a real process.

The task the utility model is aimed at is creating a system that satisfies the need to increase the efficiency and safety of the automated sorting slide and ensures the speed and quality of decisions on the functional and strategic process control of the automated sorting slide.

The problem is solved in that the information-analytical system contains a block of data sources for process control systems (Automated Process Control System), the first information output of which is connected to the first information input of the data processing and cleaning unit, the first information output of which is connected to the first information input of the database block telemetry, the first information output of which is connected to the first information input of the multidimensional database unit, the second information output with connected to the first information input of the knowledge base unit, the third information output is connected to the first information input of the device parameter control unit, the fourth information output is connected to the first information input of the reporting unit, the fifth information output is connected to the first information input of the device parameter analysis block, the knowledge base block with the first information output is connected to the second information input of the operator's workstation (workstation) block , the multidimensional database unit with the first information output is connected to the second information input of the reporting unit, the device parameter control unit with the first information output is connected to the fourth input of the reporting unit, and the device parameters intelligent analysis unit with the first information output is connected to the third information input of the reporting unit, the first information output of which is connected to the first information input of the operator workstation block.

The figure 1 presents a structural diagram of a decision support system for operational dispatching and operating personnel of an automated sorting slide.

The device comprises a control system data source unit 1, connected to a data processing and cleaning unit 2, connected to a telemetry database unit 3, connected to a knowledge base unit 4, a multidimensional database unit 5, a reporting unit 6, a device parameter control unit 7, and a unit an intelligent analysis of the parameters of devices 8, while blocks 5, 7 and 8 are connected to block 6, blocks 4 and 6 are connected to the AWP block of operator 9, and block 7 is connected to block 10, which transmits data to the technical diagnostic and monitoring system (STDM) .

Functional purpose and work of system blocks.

1 - control system data source block

This block contains the primary (scattered) operational information on the functioning of the controlled equipment of the sorting slide, generated by the process control system as a result of recording the technological process of disbanding and forming trains at the automated sorting station.

2 - data processing and cleaning unit.

This unit is designed to collect, process (integrate disparate, previously separated, detailed data, convert to a consistent format and, if necessary, aggregate data, verify logical correctness, bind to time) and download data from automated process control systems on a sorting slide.

3 - block telemetry database.

In this block, the accumulation of operational information on the functioning of the controlled equipment and the work of the personnel of the sorting hill takes place.

4 - knowledge base block.

This block is intended to formalize the knowledge and experience of operating personnel on maintenance and repair of mining equipment in the form of solutions to problems (step by step, with an arbitrary number of steps to complete the work). In the event of a malfunction, the electrician is able to obtain information on the most likely solution to the occurring and identified event and related work. In addition, this block stores reference information (regulatory, methodological, technological and other) related to the work performed and contact information about specialists who provided information on troubleshooting.

5 - block multidimensional database.

In this block, the accumulation and storage of consistent consolidated historical data (facts) on the functioning of the controlled equipment and the work of the personnel of the sorting hill in a multidimensional database takes place.

6 - reporting unit.

This block is intended to provide convenient tools for building arbitrary reports in tabular and graphical form (within the data of a multidimensional database). It enables multidimensional presentation of information and navigation through measurements, access to data of any degree of aggregation. In addition, it provides the ability to dynamically change and save reports, as well as providing users with access to information in familiar to them terms of technological processes

7 - control unit device parameters.

This block is designed to configure and control the threshold values of the parameters of the operation of meters (equipment, personnel, and so on). Setting the threshold values of the parameters of the operation of meters is determined by the internal regulatory documents of the operator’s organization and is carried out by selecting the necessary functioning parameter.

8 - block intelligent analysis of device parameters.

This unit is designed to optimize the planning and conduct of maintenance and repair based on statistical and intellectual analysis of the technical condition of the devices. The unit analyzes the trend of the controlled parameters over time, forming an integral indicator for assessing the state of the controlled equipment, on the basis of which the probable period before the onset of the pre-failure condition is calculated.

9 - operator workstation block.

This block is designed to provide interface interaction between the operator and the system.

10 - data transmission unit in the system of technical diagnostics and monitoring.

This block is intended for transferring a list of all sorting hill objects with highlighting those objects that are controlled by the process control system, a list of the current state of the objects controlled in the process control system and a list of failures and malfunctions of the objects controlled in the process control system to the STDM system.

The system operates as follows.

During the operation of the sorting slide, telemetric data is accumulated from outdoor devices in the control system 1, shown in the diagram as the control system data source block, then these data are transferred to the first information input of the data processing and cleaning unit 2, after the cleaning and processing operations, the data goes to the first information input of the telemetry database block 3, where they are accumulated and issued upon request. From the telemetry database unit 3, the data prepared for analyzing the functioning of the devices falls into the unit 8 for the intellectual analysis of the parameters of the devices through the fifth information output of the telemetry database unit 3 to the first information input of the intelligent unit 8, where the equipment crashes and failures are analyzed according to various criteria, and also forecasting the technical condition of controlled hill devices. After processing, the finished analytical data is transmitted through the first information output of the mining unit 8 to the third information input of the reporting unit 6, from where they arrive in the form of static (with a fixed, predefined structure) or dynamic (with a user-defined structure) through the first information output of the block generating reports 6 to the first information input of the operator 9 automated workstation block. From the first information output of the telemetry database 3 block, the data is transmitted to the first information input of the multidimensional database block 5, where they are stored in a multidimensional form for faster and more convenient generation of reports on the operation of hill devices, then the data is transmitted to the reporting unit 6 through the first information output of the multidimensional database unit 5 to the second information input of the formation unit reports 6. From the third information output of the telemetry database unit 3, the data goes to the first information input of the device parameter control unit 7, where based on in advance of the introduced rules, the current state of the hill devices is determined, then through the first information output of this block the data is transmitted to the fourth information input of the reporting unit 6, and through the second information output to the first information input of the data transmission unit in the STDM 10 system, outputting information on the state of objects, failures, etc. in the form of lists it is made through the first information output of the data broadcasting unit to the STDM 10 system on demand. From the second information output of the telemetry database block 3, the data is transmitted to the first information input of the knowledge base block 4, where information is accumulated to help with work and troubleshooting, information is output through the first information output of the knowledge base block 4 to the second information input of the AWP block 9. The system operator receives all the necessary information on the controlled parameters of the operation of the hill devices through the operator's workstation on demand, in the form of reports, formed in a form convenient for him and makes a conclusion, for example, on the state of equipment for adjusting operational work (tasks) per shift for carrying out preventive maintenance and repair of hump equipment, on the intensity of the sorting slide, or receives reasonable data for compiling an application for replacement of the least reliable devices at the station indicating the scope of equipment delivery, or receives analytical information to evaluate the operation of the operational dispatch and exp lutational personnel of the sorting hill and decides to optimize the process.

All blocks are implemented using standard software and hardware (processors and memory blocks) using the algorithms presented in the description of the blocks.

1 - block data sources of an automated process control system

2 - data processing and cleaning unit

3 - telemetry database block

4 - knowledge base block

5 - block multidimensional database

6 - reporting unit

7 - control unit device parameters

8 - block intelligent analysis of device parameters

9 - block automated workplace operator

10 - data translation unit in the system of technical diagnostics and monitoring (STDM)

Claims (1)

A decision support system for the operational dispatching and operating personnel of an automated sorting slide, containing a block of data sources for an automated process control system, the first information output of which is connected to the first information input of a data processing and cleaning unit, configured to analyze and process data, the first information the output of which is connected to the first information input of the telemetry database unit, made with possible the ability to accumulate operational information on the operation of controlled equipment, the first information output of which is connected to the first information input of a multidimensional database unit, configured to accumulate and store long-term information, the second information output is connected to the first information input of a knowledge base unit, which is capable of accumulating experience and knowledge, the third information output is connected to the first information input of the device parameter control unit, made with the ability to configure and control threshold values for the functioning parameters of equipment and personnel, the fourth information output is connected to the first information input of the reporting unit, configured to display current information about the status of the equipment being monitored and the work of the personnel, the fifth information output is connected to the first information input of the smart unit analysis of device parameters, made with the possibility of optimizing planning and conducting technical device maintenance, while the knowledge base unit is connected with the first information output to the second information input of the operator’s workstation unit, the multidimensional database unit is connected with the first information output with the second information input of the reporting unit, the device parameters control unit with the first information output is connected to the fourth information input reporting unit, the second information output is connected to the unit for transmitting data to the STDM system, the first information the ion output of which is connected to the STDM system, and the unit for the intellectual analysis of device parameters with the first information output is connected to the third information input of the reporting unit, the first information output of which is connected to the first information input of the operator’s workstation.