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Issue
Name
Authors
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2019/3
System for trainees’ actions automatic assessment in computer training complexes
Technical sciences

Authors: Tatiana M. PAPILINA graduated from Gubkin Russian State University of Oil and Gas in 2012. She is Candidate of Technical Sciences, assistant professor at the Department of Automated Control Systems of Gubkin Russian State University of Oil and Gas (National Research University). She is specialist in training software development and distributed and cloud systems design.
E-mail: papilina.tm@asugubkin.ru
Roman L. BARASHKIN graduated from Gubkin Russian State University of Oil and Gas in 2006. He is Candidate of Technical Sciences, assistant professor at the Department of Process Control of Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in simulation modeling and process automation. He is author of more than 20 scientific publications. E-mail: barashkin.r@gubkin.ru
Nikita S. VASILYUK graduated from Gubkin Russian State University of Oil and Gas (National Research University) in 2018. He is Master’s degree student at the Department of Automated Control Systems, Gubkin University (National Research University). He is specialist in distributed data processing and analysis. E-mail: sowow359@ya.ru

Abstract: The paper summarizes the theoretical knowledge and practical experience in computer-training complexes (CTC) development and proposes a system for real time automatic student’s actions assessment. The system controls that students’ actions follow the regulated sequence taking into account achievement of target indicators and compliance with technological limitations. The system has been tested as part of gas treatment unit CPC. The results can be used in CTC for continuous technological processes control

Index UDK: 004.9:622.691+004.9:622.279

Keywords: training software, computer learning systems, automatic assessment of trainees’ actions, online learning, process control system

Bibliography:
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2. Sträter O. Cognition and safety: an integrated approach to systems design and assessment. Routledge, 2005, 288 p.
3. Asiryan A.V., Grigor’ev L.I. K otsenke chelovecheskogo faktora v ergaticheskikh sistemakh. Avtomatizatsiya, telemekhanizatsiya i svyaz’ neftyanoy promyshlennosti, 2018, no. 9, p. 46-51.
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6. Chistikov S.P., Lavrukhin V.K., Asanov T.A., Grigor’ev L.I., Ermolaev A.I. Tendentsii razvitiya integrirovannykh avtomatizirovannykh sistem upravleniya v gazodobyche. Gazovaya promyshlennost’, 2006, no. 5, p. 199-203.
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10. Abel J. Aging HPI workforce drives need for operator training systems. Hydrocarbon Processing, November 2011, p. 11-16.
11. Sardanashvili S.A., Mitichkin S.K., Leonov D.G., Shvechkov V.A. Innovatsii v podgotovke dispetcherskogo personala gazodobyvayushchikh i gazotransportnykh obshchestv. Gazovaya promyshlennost’, 2015, no. 3, p. 80-84.
12. Dozortsev V.M. Mirovoy rynok komp’yuternykh trenazherov dlya obucheniya operatorov: tendentsii, vyzovy, prognozy. Avtomatizatsiya v promyshlennosti, 2016, no. 2, p. 35-38.
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14. Operator Training Simulator. [Elektronnyy resurs] Rezhim dostupa: https://www.yokoga-wa.com/solutions/services/training/operator-training-simulator/, svobodnyy.
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16. Kochueva O.N. Metody otsenki deystviy obuchaemogo v komp’yuternykh trenazhernykh kompleksakh dlya podgotovki dispetcherov v transporte nefti i gaza. Avtomatizatsiya, telemekhanizatsiya i svyaz’ v neftyanoy promyshlennosti, 2018, no. 6, p. 31-36.
17. Dozortsev V.M. Naskol’ko polezny komp’yuternye trenazhery dlya obucheniya operatorov? Golos pol’zovateley. Avtomatizatsiya v promyshlennosti, 2016, no. 7, p. 7-13.
18. Dedov D.L., Krasnyanskiy M.N., Rudnev A.A. Virtual’nyy trenazhernyy kompleks preduprezhdeniya i likvidatsii chrezvychaynykh situatsiy tekhnogennogo kharaktera na osnove modelirovaniya deyatel’nosti cheloveka-operatora. Vestnik TGTU, 2012, no. 4, p. 834-839.
19. Barashkin R.L., Zhedyaevskiy D.N., Kalashnikov P.K., Yuzhanin V.V. Modernizatsiya komp’yuternogo trenazhernogo kompleksa po protsessam podgotovki gaza k transportu dlya primeneniya v uchebnom protsesse vuza. Sovremennaya nauka: Aktual’nye problemy teorii i praktiki, 2019, no. 3/2, p. 5-10.

2017/3
Simulation by means of Petri nets and design of distributed multiuser software suites for gas transportation
Technical sciences

Authors: Dmitry G. LEONOV graduated from Gubkin Russian State University of Oil and Gas in 1992. He is Candidate of Technical Sciences, assistant professor at the Department of Automated Control Systems of Gubkin Russian State University of Oil and Gas (National Research University). Leading developer of the software suite for the gas transportation systems «Vesta». He is author of more than 50 scientific and methodical publications. E-mail: dl@asugubkin.ru
Tatyana M. PAPILINA graduated from Gubkin Russian State University of Oil and Gas in 2012. She is assistant lecturer at the Department of Automated Control Systems of Gubkin Russian State University of Oil and Gas (National Research University). She is specialist in distributed and cloud systems design. E-mail: papilina.tm@asugubkin.ru

Abstract: The article discusses the development and integration of modern distributed software suites in gas transportation dispatching systems. The proposed solution includes transformation of Vesta suite network system into the base of an open integration platform. The platform allows uniting of heterogeneous software suites and standardizes data format and protocols by means of open API. The complexity of tasks necessitates the use of mathematical apparatus providing generalized representation of the whole system. The design of concordant application protocols in distributed computing systems is considered. The matter deals with heterogeneous software interaction and connections of synchronous and asynchronous components of «Vesta» software used in gas transportation industry. The models of the system have been designed by means of colored Petri nets

Index UDK: 51-7:622.691

Keywords: control systems software, automatic dispatch control system, oil and gas transport, colored Petri net

Bibliography:
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9. Papilina T.M. Platforma razrabotki prikladnykh web-instrumentov dlya dispetcherskogo personala neftegazovoy otrasli. Avtomatizatsiya, telemekhanizatsiya i svyaz’ v neftyanoy promyshlennosti, 2015, no. 11, p. 41-46.
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