RU177378U1 - Automated system for assessing and predicting the health risk of crew members of designed ships and ships - Google Patents

Abstract

The utility model relates to computer technology, in particular to a system for assessing and predicting the health risk of crew members of ships under the influence of professional conditions, and more specifically to automated design systems, and can be used in the automated design of ships and ships. a system comprising a database of ships or prototype ships, a database of a designed ship, regulatory databases, a database data on health risks to crew members of ships or prototype ships, a base for calculation methods of human health risk, sampling blocks, comparison blocks, a data storage unit, a health risk calculation and determination unit for a ship or prototype ship, a comparison block, a control unit, a storage database factor significance factors, four sampling units, a control unit, a data input and data output unit. The components are combined by links into a single system that allows you to calculate the expected health risk to crew members during the design of ships or ships, including taking into account the experience of ships or ships - prototypes. Information from the system can be directly used by the user, or sent to a computer-aided design system for ships or ships.

Description

The utility model relates to computer technology, in particular, to a system for assessing and predicting the health risk of crew members of ships and ships under the influence of professional conditions, and more specifically to automated design systems, and can be used in the automated design of ships and ships. The task is to expand the operational and functional capabilities of the system while increasing the evaluation efficiency.

A well-known reference system for assessing and controlling occupational risks in the field of labor relations (RF patent for utility model No. 78961, class G06F 12/00, application 10.06.08, publ. 10.12.08).

The known system comprises a server database, a unit for receiving a user request, a unit for selecting addresses of permanent personality data, a unit for determining the depth of sampling of personality data, a unit for generating address signals for writing and reading, and a unit for identifying personality data in series, a unit documenting data, a unit for receiving records of a server database and a unit for switching channels for outputting data, while the other output of the documenting unit is also connected to the course of forming the block, the second output unit is connected to one input of the identification block, one of the block output is connected to one input unit and one output unit is connected to one input of a block.

The disadvantage is limited functionality, because it only allows you to get the requested data for specific employees, in particular, taking into account their age, without any assessment of the total professional risk.

Also known is an automated system for assessing and controlling occupational risks in the field of labor relations (RF patent for utility model No. 77605, class G06F 17/30, application 05.06.08, publ. 10.10.08).

The known system comprises a server database, a unit for receiving a user request sequentially interconnected, a selection block (sampling) addresses of permanent personality data, a unit for identifying the number of cycles for reading database records, a selection block for temporarily selecting data records, a generation unit for generating signals for reading database records as well as a series-connected block of identification (comparison) of database records, determining the depth of data sampling and a block of cumulative analysis data block, data output unit, while one of the outputs of the identification unit is connected to the input of the selection unit, one of the outputs of the unit for determining the depth of sampling is connected to one of the inputs of the identification unit, one of the outputs of the unit is connected to one of the inputs of the unit, one of the outputs of the unit connected to one of the inputs of the block, one of the outputs of the block and the block are connected to one of the inputs of the block.

At the same time, the system receives a request in the form of a code for the request receiving unit, which is then decrypted in the unit by last name, passes to the unit where it is stored and where the impulse of reading information from the server database is generated, by which the information is read from the database and transmitted to a block where the requested information from the block is compared with the data available in the database by last name and gender, and where their coincidence or mismatch is recorded, and from where the comparison result is sent to the user through the data output block. With the help of a block that determines the depth of the sample, and a block that refines the reading cycle, this information is confirmed or re-requested by the date of birth. In the block, information is accumulated and summarized for further analysis.

The disadvantage is the limited operational and functional capabilities, as Allows you to only get the requested data for specific employees (personal data, age), without evaluating the total risk, and no means are provided to calculate the expected risk to human health.

The closest in technical essence and adopted as a prototype is an automated information and reference system for assessing and monitoring professional risks in the field of labor relations (RF patent for utility model No. 121617, class G06F 17/30, application 19.06.2012, published on 27.10.2012 )

The well-known automated reference system for assessing and controlling occupational risks in the field of labor relations contains databases such as: a database of actual data on the state of health of employees, occupational diseases and injuries, and a database of standard health indicators taking into account age, as well as industry data on occupational diseases and injuries, a database of the actual parameters of existing production equipment and a database of regulatory data on such equipment, an enterprise database for kticheskoy staff qualification and regulatory framework, a database of actual production conditions in the workplace and the base of normative data on the working environment, evidence base and the base of optimal data for length of service and age. The outputs of these databases are connected to the inputs of the data sampling circuitry connected by the outputs to the inputs of the comparison circuits. The outputs of the comparison circuits are connected to the inputs of the sampling circuit, the output of which is connected to a chain of series-connected units of accumulating data summation, a calculator, a comparator, and a data output unit. There is also a request receiving unit connected by an output to a control unit, two outputs of which are connected to circuits and data samples. The third output of the control unit is connected to the second input of the calculator, the third input of which is connected to the output of the device for storing the significance factors of each of the factors and possible values of the risk assessment, the second output connected to the second input of the comparator. The output of the data output unit is the output of the system.

The disadvantage is limited functionality, which does not allow to assess the professional risk to the health of workers of only an existing facility, not allowing to predict the risk to the health of workers in relation to the designed structures and technical means. There is no possibility of using the experience of operating prototypes for which data on the actual level of professional risk to the health of personnel have already been obtained and on its basis to optimize the habitability of transport objects, in particular, ships and ships, in computer-aided design systems.

The objective of the claimed is to expand the operational and functional capabilities of the system, and the technical result of the claimed is that in a system that includes: a database of actual data on the state of health of staff, occupational diseases and injuries and a database of normative indicators of health, taking into account age, as well as data by industry for occupational diseases and injuries, a database of the actual parameters of existing production equipment and a database of regulatory data for such equipment, the database is given enterprises on the actual qualifications of personnel and the regulatory qualification base, a database of actual production conditions at workplaces and a database of regulatory data on production conditions, an actual database and an optimal database of experience and age. In this case, the first outputs of the databases are connected from the first to tenth inputs of the first block of data sampling, connected in parallel in pairs by topics with outputs to the inputs of six comparison blocks. The only outputs of each of the comparison blocks are connected from the first to fifth inputs of the second block of the sample, the only output of which is connected to a chain of series-connected data storage unit and data output unit. There is also a request receiving unit connected to the first output with the first input of the control unit, the first output of which is connected to the eleventh input of the first data sample block, and the second output with the sixth input of the second data sample block. The output of the data output unit is the output of the system.

In contrast to the prototype, the following units were introduced: a risk calculation unit, a vessel or prototype ship determination unit, third and fourth data sampling units, a database on the estimated health status of the crew members of the designed vessel or ship, a database on the parameters of the ship equipment or weapons proposed for installation, a database of the crew members of ships and ships expected during the design process, a database of expected conditions at the workplaces of the designed ship or ship, a database of the length of service and age of crew members of the designed vessel or ship, a database of actual conditions in residential premises in ships and prototype ships, a database of standard values for conditions in residential ship and ship premises, a database of expected conditions in residential premises of a designed vessel or ship, a database of health risk indicators for crew members of ships or prototype ships, a database of health risk calculation methods, a unit for comparing data on actual conditions in the living quarters of the vessel or prototype ship with normative values for conditions in residential ship and ship premises, a unit for comparing risk values. In addition, the databases on actual conditions and system data are considered as factual databases for ships or prototype ships of the designed vessel or ship, and the request receiving unit is considered as a data input unit. The data input unit is connected by the second output to the only input of the database of health risk calculation methods, which is the only way connected to the second input of the risk calculation unit. The third output of the control unit is connected to the third input of the risk calculation unit, the fourth input of which is connected to the first output of the database of storing significance factors of each of the factors and possible values of the risk assessment, the second output connected to the second input of the risk value comparison unit, the only output associated with the first input data output unit. A database of normative values for conditions in residential ship or ship premises and a database of actual conditions of residential ship and ship premises of ships and prototype ships with the first outputs connected in parallel to the inputs with the twelfth and thirteenth of the first block of data sampling, the output of which is pairwise related with the sixth comparison unit. The only way out of which is connected to the seventh input of the second block of data sampling. The only outputs of the design databases and the second outputs of the databases on the actual conditions of ships and prototype ships are connected in parallel with the first to twelfth inputs of the third block of data sampling, the only output from which is connected to the single input of the unit for determining the ship or prototype ship. The only output of the vessel or prototype ship determination unit is connected to the second input of the control unit. The fourth output of which is connected with the thirteenth input of the third block of data sampling, and the fifth output with the first input of the fourth block of data sampling, with the second input of which is connected the only output of the database on health risks of crew members of ships or prototype ships, the only way out of the fourth block of sampling connected to the second input of the data output unit, which is the output of the system. The introduction of a risk calculation unit, a vessel or prototype ship determination unit, a third and fourth sampling unit, a database for storing the significance coefficients of each of the factors and possible risk assessment values, a database on the health status of crew members expected when designing a vessel or ship, and a database on methods for calculating health risks, a database on the parameters of the ship equipment proposed for installation, a database on the qualifications of ship’s crew members assumed during the design, or robbery, a database of expected conditions at the workplace of the designed ship or vessel, a database of estimated length of service and age of crew members of the designed ship or ship, a database of actual conditions in living quarters in ships or prototype ships, a database of standard values for conditions in residential ship and ship premises, a database of expected conditions in the living quarters of the designed ship or ship, a unit for comparing risk values, a unit for comparing data on actual conditions in residential the premises of the vessel or prototype ship with normative values for conditions in residential ship and ship premises, with the above relationships between the blocks makes it possible to predict the possible health risk of crew members of the designed vessels or ships based on the results of comparison with standard values of environmental factors, as well as taking into account data about the actual risk to the health of workers received during the operation of ships or prototype ships and it is possible to accurately calculate its level, increasing the efficiency of the system and Advan ced its performance and functionality.

The technical result is a quantitative forecast of the risk to the health of crew members, suitable for use in the optimization process in computer-aided design of ships and ships.

The drawing shows a system containing databases, such as 1 - a database of actual data on the health status of crew members of ships or prototype ships, occupational diseases and injuries, 2 - a database of actual parameters of the existing production equipment of ships or prototype ships, 3 - database data of prototype ships on the actual qualifications of personnel, 4 - a database of actual production conditions at the workplaces of ships or ships - prototypes, 5 - a database of actual data on the experience and age of members of the crew pages of prototype vessels, 6 - a database of actual conditions in residential premises in prototype vessels, 7 - a database of regulatory health indicators taking into account age, 8 - a database of regulatory data on production equipment of ships, 9 - a database of the required qualifications of crew members -prototypes, 10 - a database of regulatory data on production conditions at workplaces of sea, river and other vessels or ships, 11 - a database of regulatory requirements for the length and age of members of ships or prototype ships, 12 - a database of regulatory values for conditions in residential ship or ship premises, 13 - a database on the estimated health status of the crew members of the designed vessel or ship, 14 - a database on the parameters of the proposed equipment for installation of ship equipment, 15 - a database on the expected qualifications of crew members of ships or ships, 16 - a database of the expected conditions at the workplaces of the designed ship or ship, 17 - a database of the estimated length of service and age of crew members of the designed ship or ship, 18 - the database op ponents for expected conditions in the residential area of the projected ship or vessel, 19 - the database of health risk indicators crew members and ships prototypes, 20 - risk calculation methods database health.

Moreover, the outputs of these databases 1-12 are connected in parallel with the inputs of the data sampling unit 21, connected by the outputs to the inputs of the comparison blocks 22-27. The outputs of comparison blocks 22-27 are connected to the inputs of the second sampling block 28, the output of which is connected to a chain of series-connected data storage unit 29, risk calculation unit 30, risk value comparison unit 31, and data output unit 32. There is also a data input unit 33 connected by an output to an input of a control unit 34, four outputs of which are connected in parallel with blocks 21, 28, 35, 36 of data samples. The fifth output of the control unit 34 is connected to the third input of the risk calculation unit 30, the fourth input of which is connected to the output of the database 37 for storing the significance factors of each of the factors and possible values of the risk assessment, and the second input with the output of the base 20 of the calculated methods of risk to human health. Two inputs of the comparison unit 31 are connected, each separately, with the output of the risk calculation unit 30 and the second output of the database 37 for storing the significance factors of each of the factors and possible values of the risk assessment. Databases 1-6 are connected by the second outputs to the inputs of the data sampling unit 35, to the inputs of which the bases 13-18 are also connected in parallel. The output from block 35 is connected to the input of the vessel or prototype ship determination unit 38. The output of the vessel or prototype ship determination unit 38 is connected to the input of the control unit 34, the fourth output of which is connected to the data sampling unit 36, the second output of which is connected to the base data 19 on indicators of risk to the health of workers obtained during the operation of ships or prototype ships. The output of the sampling unit 36 is connected to the data output unit 32. An exit from block 32 is an exit from the system. Connections between blocks and databases are indicated by lines in which an arrow indicates entry to a block or database.

Databases (DB) 1-20: evidence database on the health status of crew members of ships or prototype ships, occupational diseases and injuries, a database of normative health indicators taking into account age, a database of actual parameters of existing production equipment of ships or prototype ships, a database of regulatory equipment for the production of ships or prototype ships, a database of ships or ships - prototypes for the actual qualifications of personnel, a database for the required qualifications of crew members with ships or prototype ships, a database of actual production conditions at the workplaces of ships or prototype ships, a database of regulatory data on production conditions at the workplaces of sea, river and other ships or ships, a factual database of the experience and age of crew members of ships- prototypes, a database of regulatory requirements for the experience and age of members of prototype vessels, a database of the estimated health status of crew members of the designed vessel, a database of parameters proposed for installation with new equipment, a database of the expected qualifications for designing crew members of ships or ships, a database of expected conditions at the workplaces of the designed ship, a database of estimated length of service and age of crew members of the designed ship, a database of actual conditions in the living quarters of the ships prototypes, a database of standard values for conditions in residential ship premises, a database of expected conditions in the living quarters of the designed vessel, a database of health risk indicators rovyu crew members and ships prototypes, risk measurement techniques and health database is a memory.

Blocks 21, 28, 35, 36 of data sampling are intended for communication of the receiving device with various data sources and are multiplexer selectors.

Blocks 22-27 comparison, the unit for comparing risk values 31 are used to compare the design data with the normative and are comparators.

The data storage unit 29 is intended for storage and delivery to the data risk calculation unit based on the results of comparison with the outputs of the sampling unit 28. The risk calculation unit 30 is used to calculate the amount of risk, implements the risk calculation algorithm, and is a computing module.

Block 32 data output is used to represent the calculated value of the risk and (or) information about the health risk of the crew of the ship or prototype ship.

Block 33 data input is designed to enter a request into the system.

The control unit 34 is designed to control the operation of the system, is a control circuit that distributes the data entered into the system among the sampling blocks 21, 28, 35, 36.

A database 37 for storing the significance factors of each of the factors and possible values of the risk assessment is an implementation of a random access drive.

The determination unit 38 of the ship or prototype ship is a computing module.

The inventive works as follows: the data entry unit 33 receives constantly updated information about the regulatory requirements for ships or ships, about the technical characteristics and health status of crew members of operating ships or ships, the methodological apparatus for calculating the risk to the health of seafarers, which are accordingly sent to the database 20, 37 - directly, and through the control unit 34 and, respectively, through 21 and 36 the sampling blocks in the databases 1-12 and 19. In the same way, when developing a new project, the expected technical parameters characteristics of the vessel and information about crew members are entered into databases 13-18 through the data sampling unit 35. When a user receives a request to make a health risk forecast for members of the designed vessel, a signal from the data input unit 33 is sent to the control unit 34, from which the request data block 35 receives a command to request the necessary information about the expected health status of the ship’s crew members, about the proposed qualifications of the personnel of the designed ship, the parameters specified in the draft oizvodstvennogo equipment design production conditions in the workplace, the design conditions in places of recreation, as well as by age and length of service of the crew members of the designed vessel. Upon request, from the data input unit 33 through the control unit 34 and the data sampling unit 21, a request is issued for the issuance of data on ships and prototype ships and regulatory data from databases 1-6 and 7-12, respectively. Block 21 receives the specified information from databases 1-6 of the actual data of ships and prototype ships, as well as regulatory data, respectively, from databases 7-12 of the relevant regulatory indicators. This information comes from block 21 of the sample to the relevant topic blocks 22-27 comparison, where there is a comparison of actual and regulatory data for each of the potential risk factors. The comparison results for each of the risk factors from the outputs are received by a signal from the control unit 34 through the sampling unit 28 to the data storage unit 29. From block 29, the information enters the risk calculation block 30 and where the risk value is calculated, the risk factor significance coefficients are supplied from the database 37 for storing the significance factors of each of the factors and possible values of the risk assessment. The calculation of risk is carried out according to the selected method from the database of 20 calculated methods of risk to human health, a signal about the choice of a particular method is supplied from the data input unit 33.

The calculated value of the integral indicator of occupational risk comes from the output of the risk calculation unit 30 to the unit for comparing risk values 31, where, for comparison, the risk values are supplied from the database 37 to determine, according to the results of the comparison, the risk level. The results from the unit for comparing risk values 31 are supplied to the data output unit 32, from where they can, for example, be transferred to the computer-aided design system of ships or ships, displayed on the screen, or printed on a printer.

If it is necessary to use the experience of operating ships or prototype ships, the user sends a signal to the control unit 34 through the request input unit 33, from where the command 35 receives the request to receive data on the designed vessel or ship from databases 13-18, and from databases 1- 6 information on operating ships or ships. Information from the sampling unit 35 enters the determination unit 38 of the ship or prototype ship, which serves to determine the prototype closest to the designed ship or ship. Information about the selected type of vessel or prototype ship from the determination unit 38 is sent to the control unit 34, from where a signal about the request for the accumulated health information of the crew members of the selected vessel or prototype ship is sent to the data sampling unit 36. Information to the sampling unit 36 comes from database 19 and sent to the output of data 32, where they can be, for example, accepted by the computer aided design of ships, or printed on a printer.

The inventive system has a novelty in comparison with the prototype, differing from it in such essential features: a risk calculation unit, a unit for determining a vessel or prototype ship, third and fourth sampling units, a database on the health status of the crew of the vessel assumed during design, a database on the parameters of the ship equipment proposed for installation, a database of the projected qualifications of crew members, a database of the expected conditions at the workplace project vessel, a database of estimated length of service and age of crew members of the designed vessel, a database of actual conditions in the living quarters in ships and prototype ships, a database of standard values for the conditions in residential shipbuildings, a database of expected conditions in the living quarters of the designed a vessel, a unit for comparing data on actual conditions in the living quarters of a ship or a prototype ship with standard values for conditions in residential ship and ship premises, a unit for comparing ri ska, communication of the outputs of the actual databases and design databases with the sampling units connected by the inputs through the control unit with the data input unit, and the outputs with the comparison units of the actual and normative data, connecting the outputs of the comparison units through the sampling units to the data storage unit connected by the output with the input of the risk calculation unit, the connected output through the comparison unit with the data output unit, and the second and third inputs with the output of the database storing the significance coefficients of each of the factors and possible values of APIS risk database and output health risk calculation methods, the presence of the control unit associated with the sample block, the determination of the vessel or ship and prototype data input unit, providing a plurality of achieving the desired result.

The inventive can be widely used in preventive medicine, in the field of shipbuilding safety, is an integral part of the computer-aided design of ships or ships, and therefore meets the criterion of "industrial applicability".

Claims (1)

An automated system for assessing and forecasting the risk to the health of crew members of designed ships and ships, containing a database of actual data on the health status of crew members of ships or prototype ships, occupational diseases and injuries, a database of actual parameters of the existing production equipment of ships and prototype ships, a database of ships and prototype ships according to the actual qualifications of personnel, a database of actual production conditions at the workplaces of ships and prototype ships Pov, a database of actual data on the length of service and age of crew members of ships and prototype ships, a database on actual conditions in living quarters in ships and prototype ships, a database of normative health indicators taking into account age, a database of normative data on the production equipment of ships and ships prototypes, a base for the required qualifications of crew members of ships and prototype ships, a database of regulatory data on production conditions at the workplaces of sea, river and other ships and ships, a base of regulatory requirements the experience and age of members of ships and prototype ships, a database of standard values for conditions in residential ship and ship premises, while the first outputs of the databases are connected from the first to tenth inputs of the first block of the data sample, connected in parallel in pairs on the subject outputs to the inputs six comparison blocks, the only outputs of each of the comparison blocks are connected from the first to fifth inputs of the second sampling block, the only output of which is connected to a chain of sequentially connected accumulation blocks data and data output unit, there is also a data input unit connected to the first output with the first input of the control unit, the first output of which is connected to the eleventh input of the first data sample unit, and the second output with the sixth input of the second data sample unit, the output of the data output unit is system output, characterized in that it additionally includes: a risk calculation unit, a vessel or prototype ship determination unit, third and fourth data sampling units, a database on the estimated health status of crew members the designed ship or ship, the database on the parameters of the proposed equipment for the installation of ship equipment or armament, the database on the expected qualifications of crew members of ships and ships, the database on the expected conditions at the workplaces of the designed ship or ship, the database on the estimated length of service and age crew members of the designed vessel or ship, a database of actual conditions in residential premises in ships and prototype ships, a database of standard values for conditions in ship and ship premises, a database of the expected conditions in the living quarters of the designed vessel or ship, a database of health risk indicators for crew members of ships or prototype ships, a database of health risk calculation methods, a unit for comparing data on actual conditions in the living quarters of the vessel or prototype ship with normative values for conditions in residential ship and ship premises, a unit for comparing risk values, a data input unit is connected to the second output with a single input of the method database health risk calculation dick, which is the only way connected to the second input of the risk calculation unit, the third output of the control unit is connected to the third input of the risk calculation unit, the fourth input of which is connected to the first output of the database of storing significance factors of each of the factors and possible values of risk assessment, the first the input connected to the third output of the request input unit, and the second output connected to the second input of the risk comparison unit, the only output associated with the first input of the request block yes data, a database of standard values for conditions in residential ship or ship premises and a database of actual conditions of residential ship and ship premises of ships and prototype ships with the first outputs connected in parallel to the inputs from the twelfth to thirteenth of the first data sampling block, the outputs of which are pairwise related to the sixth comparison unit, the only output associated with the seventh input of the second comparison unit, the only outputs of the design databases and the second outputs of the databases are actually they are connected to the conditions of ships and prototype ships in parallel with the first to twelfth inputs of the third data sampling unit, the only output from which is connected to the only input of the vessel or prototype ship determination unit, the only output of the vessel or prototype ship determination unit is connected to the second input of the control unit the fourth output of which is connected with the thirteenth input of the third block of data sampling, and the fifth output with the first input of the fourth block of data sampling, with the second input of which there is a single output b the basics of data on indicators of the health risks of crew members of ships or prototype ships, the output from the fourth block of the sample is connected with the second input of the data output block, which is the output of the system.

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