doc. RNDr. Viktor Maškov, DrSc.

 

Pozice: docent
Kontakt: České mládeže 8, 400 96 Ústí nad Labem
Kancelář: CN461
Telefon: +42047528 3908
E-mail: viktor.maskov@ujep.cz
Konzultační hodiny: Pondělí: 11:00 – 13:00
Středa: 18:00 – 19:00

Vzdělání

Vysoká škola, elektrotechnická fakulta, Kyjevský institut letectví, Ukrajina od 07/1972 – do 07/1977 – Mgr.
Postgraduální studium (obor – technická diagnostika), Kyjevský institut letectví, Ukrajina od 12/1980 – do 04/1984 – Ph.D.
Doktorský studium (obor- kybernetika a technická diagnostika), Vojenská akademie, Kyjev, Ukrajina od 12/1992 – do 12/1995 – DrSc.

Akademické a vědeckopedagogické tituly

Kandidát věd – 04.1984 (obor – technická diagnostika)
Doktor věd – 7.12.1995 (obor – kybernetika a technická diagnostika)
Docent v oboru kybernetika – 2.11.1999

Profesní zaměření

  • Samodiagnostika komplexních systémů.
  • Formování koalic agenty aliance.

Tvůrčí činnost

Projekty:

  • INWEST – Transfer vědomostí z informatiky pro hospodářský rozvoj česko-saského pohraničí.
  • Project „Univerzitní centrum podpory pro studenty se specifickými vzdělávacími potřebami“ J.Fišer, V.Mashkov, L.Michalec „Datové struktury a algoritmy samokontroly v Pythonu“. pp.7-323, 2014.

Spolupracuje na připravě projektů:

  • LEARN – Celoživotní vzdělávání v oblasti informatiky jako faktor rozvoje časko-saského pohraničí.
  • TISIS – Translational Innovation System for Industry 4.0. Strategies.

Web aplikace:

  • webová aplikace (http://vtan.ujep.cz/PNgenerator). Je součástí článku:
    V. Mashkov, J. Barilla, P. Simr. Applying Petri Nets to Modeling of Many-Core Processor Self-Testing when Tests are Performed Randomly, Springer, Journal of Testing, 2013, DOI: 10.1007/s10836-012-5346-8.
  • webová aplikace (http://vtan.ujep.cz/PNsimulator). Je součástí článku:
    V. Mashkov, P. Simr, J. Bicanek. System Unit Self-Diagnosis. Článek submitted.
  • webová aplikace (http://vtan.ujep.cz/pnsimulator-coalition). Je součásti článku: V.Mashkov, J.Barilla, P.Simr, J.Bicanek. Modeling and simulation of coalition formation. Int. Conference SIMULTECH-2015, France, pp.329-336, ISBN: 978-989-758-120-5.

Pedagogická činnost

Školitel 4 Ph.D. studentů.

Připravil a přednášel následující kurzy:

  • Software fault tolerance, dependability of distributed applications (in the English language) Univerzitas Carolina Pragensis, matfyzpress, Praha, 2005
  • Modern approaches to providing fault tolerance of software  systems  and distributed internet-based applications (in the English language) Univerzitas Carolina Pragensis,matfyzpress, Praha, 2006
  • Úvod do spolehlivosti softwarových systému
  • Dependabilita informačních systémů
  • Dependabilita HW systémů
  • Dependabilita SW systémů
  • Značkovací jazyky
  • Programování pro internet I a II

Publikační činnost

65 publikací v ruštině

V angličtině a v češtině:

  1. Victor Mashkov. Identification of airborne control computer systems technical state on the basis of cross-testing // Proc. of the 5th MINI CONF. ON VEHICLE SYSTEM DYNAMICS, 1996 Budapest, pp. 78-88
  2. Dr. Viktor Mashkov New approach to fault tolerant aircraft computer systems design // Proc. of the First International Conference on Unconventional Flight, 1997, Budapest, pp. 114-119
  3. Mashkov V. Barabash O. Self-control of computer systems on the basis of wandering diagnostic nucleus // 3-я Украiнська конференцiя з автоматичного керування («Автоматика-96»): Т.: 3.- Севастополь: Сев. ГТУ, 1996.- с 36-37
  4. V.A. Mashkov, O. V. Barabash Self-testing of multimodule systems based on optimal check-connection structures // Engineering Simulation, 1996, Vol.13, pp. 479-492
  5. V.A. Mashkov, O. V. Barabash Self-checking of modular systems under random performance of elementary checks // Engineering Simulation, 1995, Vol. 12, pp. 433-445
  6. dr. Viktor Mashkov Self-control and self-diagnosis of aircraft computer systems on the basis of wandering diagnostic nucleus // Proc. of the 11th Hungarian Days of Aeronautical Sciences, 1996, Budapest, pp. 171-174
  7. V.I. Gostev, V.A. Mashkov, O.A. Mashkov Intermodular exchange of diagnostic information in self-diagnosis of complex systems // Cybernetics and Computing Technology (discrete control systems) ALLERTON PRESS, INC., No 105, pp. 95-103, 1995
  8. V.I. Gostev, V.A. Mashkov, O.A. Mashkov Self-diagnosis of modular systems in random performance of elementary tests. // Cybernetics and Computing Technology (discrete control systems) ALLERTON PRESS, INC., No 105, pp. 104-111, 1995
  9. V.A. Mashkov, O. V. Barabash Self-checking and self-diagnosis of module systems on the principle of walking diagnosis kernel. // Engineering Simulation, 1998, Vol.15, pp. 43-51.
  10. V.I. Gostev, V.A. Mashkov, and O.A. Mashkov Methods of providing fault tolerance of airborne computer systems through their self-control // Cybernetics and Computing Technology (discrete control systems), ALLERTON PRESS. INC. No109,pp.33-43, 1998
  11. Mashkov V., Mashkov O. Fault-tolerant of computing systems based on the self-diagnosis by the traveling kerling principle// Cybernetics and computing technology (argatic control systems systems), ALLERTON PRESS, INC., No.116, pp.88-94, 1999.
  12. Mashkov V. Intrusion detection in multi-agent systems. GL 146/01, ISSN 1213-3000, Research Report of the Gerstner Lab CTU, Prague 2001.
  13. Mashkov V. Diagnosis of Fault Tolerant Multi-modular systems on the basis of Model of Interacting. GL 147/02, ISSN 1213-3000, Research Report of the Gerstner Lab CTU, Prague 2002.
  14. Mashkov V. Model of system Fault Tolerance and its Application. GL 155/02, ISSN 1213-3000, Research Report of the Gerstner Lab CTU, Prague 2002.
  15. Mashkov V. Readiness check of complex systems based on mutual checks among system modules. GL 160/02, ISSN 1213-3000, Research Report of the Gerstner Lab CTU, Prague 2002.
  16. Mashkov V., Marik V. Coalition Formation with Agents of Restricted Alliance. GL 173/04, ISSN 1213-3000, Research Report of the Gerstner Lab CTU, Prague 2004.
  17. Mashkov V., Marik V. Alliance Formation. GL 174/04, ISSN 1213-3000, Research Report of the Gerstner Lab CTU, Prague 2004.
  18. Mashkov, V. and Mařík, V.: Alliance Formation Process and Communication Traffic. In:
    Artificial Intelligence and Applications, Anahaim: Acta Press, 2002, vol. 1, pp. 417-422, ISBN 0-88986-352-0
  19. Marik V, Mashkov V. Alliance formation with several coordinators. Soft Computing Systems. Edited by A. Abraham et. al. IOSPress. Amsterdam, 2002, pp. 550-561.
  20. Mashkov V., Marik V. Diagnosing faulty situations during alliance formation process. Proc. of IASTED AIA’2003 Conference, pp.72-78, Innsbruck, 2003.
  21. Mashkov V. Restricted Alliance and Coalitions Formation. Proc. of IEEE/WIC/ACM International Conference on Intelligent Agent Technology/2004, pp.329-332, Beijing, China, 2004.
  22. Mashkov V. Task Allocation among Agents of Restricted Alliance. Proc. of IASTED ISC’2005 conference, pp. 13-18, Cambridge, MA, USA, 2005.
  23. Mashkov V. Coalition formation with unreliable agents. Proc. of IASTED KSCE-2006 conference, pp. 172-177, St. Thomas, VI, USA, 2006.
  24. Mashkov V., Pokorny J. Scheme for comparing results of diverse software versions. Proc. of ICSOFT conference, pp. 341-344, Barcelona, Spain, 2007.
  25. J.Fiser, V.Mashkov. Alliance and coalition formation. In Proceedings of ISDMCI’2009 International conference, Yevpatoria, Ukraine, 2009, pp.165-168.
  26. Mashkov V., Pokorny J. Coalition formation with unreliable agents. In: Kmowledge Systems for Coalition Operations, J.M. Bradshaw, M. Pechoucek, M. Suri, A. Tate (eds.), Prague, 2006, pp. 10-15.
  27. V.Mashkov, V.Palascak. SW fault-tolerance based on design diversity. In Proceedings of ISDMCI’2010 International conference, Yevpatoria, Ukraine, 2010, pp.298-305.
  28. J.Fiser, V.Mashkov. Generic model for application of probabilistic algorithms for system self-diagnosis. In Proceedings of ISDMCI’2010 International conference, Yevpatoria, Ukraine, 2010, pp.215-218.
  29. Mashkov V. New approach to system level self-diagnosis. In Proc. of IEEE 11-th International conference on computer and information technology, CIT2011, Cyprus, Pafos, 2011, pp.579-584, ISBN 978-0-7695-4388-8.
  30. J.Fiser, V.Mashkov. Alliance and coalition formation. Int. Journal of Applied Computer Science, Vol.18, No.1, Poland, 2010, pp.19-38.
  31. V.Mashkov, J.Fiser. Samokontrola a samodiagnostika na systémové úrovni. Lviv: Ukrainian Academic Press, 2010, ISBN 978-966-322-169-4, 176 stran.
  32. V.Mashkov. Selected problems of system level self-diagnosis. Lviv: Ukrainian Academic Press, 2011, ISBN 978-966-322-365-0, 184 pages.
  33. V. Mashkov, J. Barilla, P. Simr. Applying Petri Nets to Modeling of Many-Core Processor Self-Testing when Tests are Performed Randomly, Springer, Journal of Testing, 2013, DOI: 10.1007/s10836-012-5346-8.
  34. V.Mashkov, J.Barilla, P.Simr. Illustrative modeling of coalition formation. In Proc. of International scientific-practical conference “Innovative Information Technologies”, Part 2, Prague, 2014, pp.337-345. ISSN 2303-9728.
  35. V.A.Mashkov. System level self-diagnosis and system fault-tolerance. In Proceedings of ISDMCI’2014 International conference, Zaliznyj Port, Ukraine, 2014, pp. 15-21.
  36. V.A.Mashkov. Modeling of coalition formation. In Proceedings of ISDMCI’2014 International conference, Zaliznyj Port, Ukraine, 2014, pp.12-15.
  37. V. Mashkov, A. Smolarz, V. Lytvynenko. The problem of coalition formation modeling. Int. Journal “Informatyka, Automatyka, Pomiary w Gospodarce I Ochronie Srodowiska. Vol.4, No.4, pp.38-40, 2014, ISSN 2083-0157.
  38. V. Mashkov, A. Smolarz, V. Lytvynenko, K. Gromaszek. The problem of system fault-tolerance. . Int. Journal “Informatyka, Automatyka, Pomiary w Gospodarce I Ochronie Srodowiska. Vol.4, No.4, pp.41-44, 2014, ISSN 2083-0157.
  39. V.A. Mashkov, O.A.Mashkov. Problems of diagnosability with sensor networks when dealing with environment monitoring. Journal “Information processes, technologies and systems in transportation”, No. 1, 2014, pp. 182-191.
  40. V.A.Mashkov, O.A.Mashkov. Problems of organization of test performance in sensor networks applied for environment monitoring. Journal “Information processes, technologies and systems in transportation”, No. 2, 2014, pp. 170-179
  41. V.A.Mashkov. Dependability in context of ecological system theory. Proceeding 3rd International Science Conf. “Problems of informatization”, Kiev, Ukraine, p.71, 2014.
  42. V.A.Mashkov, O.A.Mashkov. Diagnosis of sensor networks applied for environment monitoring. Int. Journal “Ecological Sciences“. Vol.7, No.1, 2015, pp.120-130, ISSN 2306-9716.
  43. J. Fiser, V. Mashkov, V. Lytvynenko. Representation of system level self-diagnosis in Python programming language. Int. Journal „Electrotechnic and Computer Systems“, No. 17(93), 2015. ISSN 2221-3937, pp.48-54.
  44. V.Mashkov, J.Barilla, P.Simr, J.Bicanek. Modeling and simulation of coalition formation. 5th Int. Conference SIMULTECH-2015, France. pp. 329-336, ISBN: 978-989-758-120-5.
  45. V. Mashkov, V. Lytvynenko. Problems with developing probabilistic algorithms for system level self-diagnosis. In Proceedings of ISDMCI’2015, International conference, Zaliznyj Port, Ukraine, 2015, pp.339-341.
  46. V.Mashkov, O.Mashkov. Interpretation of diagnosis problem of system level self-diagnosis. Int. Journal „Mathematical Modeling and Computing“, Vol.2, No.1, 2015, pp.71-76, ISSN 2312-9794. (URL: https://doi.org/10.23939/mmc2015.01.071)
  47. V.A. Mashkov, O.A. Mashkov, S.T. Abidov. Problems of organisation of test performance in sensor network applied for environment monitoring. Int. Journal „Ecological Sciences“ Vol.9, No.2, 2015, pp.79-89.
  48. V. Mashkov, A. Smolarz, V. Lytvynenko. Development issues in algorithms for system level self-diagnosis. Int. Journal “Informatyka, Automatyka, Pomiary w Gospodarce I Ochronie Srodowiska. No.1, 2016, pp. 26-28, ISSN 2083-0157, DOI: 10.5604/20830157.1194261
  49. V. Mashkov, V. Lytvynenko. To the problem of self-checking of complex systems. In Proceedings of ISDMCI’2016, International conference, Zaliznyj Port, Ukraine, 2016, pp.9-11.
  50. V. Mashkov, J. Barilla, P. Simr, J. Bicanek. Chapter 6 „Applying Petri Nets to Coalition Formation Modeling“ in book „Simulation and Modeling Methodologies, Technologies and Applications“ Eds. M.S. Obaidat et al. Springer 2016, 175 p. (URL: http://www.springer.com)
  51. V. Mashkov, P. Simr, J. Barilla. Chapter 5 „Applying Petri Nets to Modeling of Complex Systems Diagnosis“ in book „Advances in Engineering Research“ Ed. V.M. Petrova. NOVA science publishers Vol.13, pp.81-120 2016. (URL: https://www.novapublishers.com)
  52. V. Mashkov, J. Fiser, V. Lytvynenko. Evaluation of testing assignment for system level self-diagnosis. In Proceedings of DSMP’ 2016 IEEE First International Conference, Lviv, Ukraine, 2016, pp.15-18, ISBN: 978-1-5090-3735-3.
  53. V. Mashkov, O. Mashkov. Problems of diagnosability with sensor networks when dealing with environment monitoring. Journal “Emerging Technologies”, No 2 (2), pp.105-115, 2016, ISSN 2524-0102.
  54. V. Mashkov, V. Lytvynenko. Credibility of self-checking result in the context of system level self-diagnosis. In Proceedings of ISDMCI’2017, International conference, Zaliznyj Port, Ukraine, 2017, pp.14-16.
  55. O. Mashkov, V. Mashkov. Organization of self-control procedure in functionally stable complexes. Aerospace Technologies, Issue 1, 2017, pp. 69-76. (URL: (URL: http://spacecenter.gov.ua/naukova-robota )
  56. Mashkov, V. Mashkov, V. Kosenko. On the issue of constructing an environmental monitoring system using a network approach. Aerospace Technologies, Issue 2 (02), 2017, pp. 12-17, ISSN 2524-2628. (URL: http://spacecenter.gov.ua/naukova-robota )
  57. Mashkov, J. Fiser, V. Lytvynenko, M. Voronenko. Self-diagnosis of the systems with intermittently faulty units. Proceedings of the 2018 IEEE Second International Conference on Data Stream Mining and Processing, 2018, Lviv, Ukraine, pp. 411-414.
  58. V. Mashkov, J. Fiser, V. Lytvynenko, M. Voronenko. Credibility of system self-checking when tests are performed randomly. Proceedings of the 2018 IEEE 13th International Scientific and Technical Conference on Computer Sciences and Information Technologies, 2018, Lviv, Ukraine, pp. 396-399.
  59. V. Mashkov, V. Lytvynenko. Method for Unit Self-Diagnosis at System Level. International Journal of Intelligent Systems and Applications(IJISA), Vol. 11, No. 1, Jan. 2019, pp. 1-12. DOI: 10.5815/ijisa (URL www.mecs-press.org/ijisa/v11n1.html )
  60. V. Mashkov, J. Fiser, V. Lytvynenko, M. Voronenko. Diagnosis of Intermittently Faulty Units at System Level. Data 2019, 4(1), 44; https://doi.org/10.3390/data4010044 (registering DOI) – 22 March 2019
  61. V. Mashkov, J. Fiser, V. Lytvynenko, M. Voronenko. Evaluation of Testing Assignment for System level self-diagnosis. CEUR Workshop Proceedings, Vol.2353 (2019). pp. 1004-1019. Online
  62. Mashkov, V., Bicanek, J., Bardachov, Y., Voronenko, M. Unconventional Approach to Unit Self-diagnosis (2020) Advances in Intelligent Systems and Computing, 1020, pp. 81-96. Online

Knihy (selected)

  1. V.A. Mashkov. “Samodiagnostika letadlových výpočetních systémů“, Kyjev, Ukrajina, 1989.
  2. V.A. Mashkov. “Samodiagnostika letadlových výpočetních systémů“, Kyjev, Ukrajina, 1991.
  3. V.Mashkov, J.Fiser. Samokontrola a samodiagnostika na systémové úrovni. Lviv, Ukrajina, 2010.
  4. Mashkov Viktor. Selected problems of system level self-diagnosis. Lviv, Ukrajina, 2011.

Konference (selected)

  1. Celostatní conference “Technická diagnostika”
    – Suzdal (1982), Rostov (1986), Saratov (1990);
  2. Organizátor IASTED :
    – Malaga (2002), Innsbruck (2003), Boston, USA (2005), St.Thomas, USA (2006);
  3. Organizátor IEEE:
    – China (2004), Cyprus, Pafos (2011);
  4. Organizátor HIS:
    – Chili (2002);
  5. Organizátor ICSOFT:
    – Spain, Barcelona (2007);
  6. Organizátor SIMULTECH:
    – France (2015).

Členství v odborných společnostech

  • Akademik Aerokosmické Akademie Ukrajiny.
  • Člen programových výborů vědeckých konferencí:
    CEEMAS 2003 „Third International/Central and Eastern European Conference on Multi-Agent Systems“ Prague, Czech Republic, 2003.
    ISDMCI´2007-2015 „Intelligent Decision-Making Systems and Applied Aspects of Information Technologies“ Evpatoria and Zaliznyj Port, Ukraine.
    MIT-2015 („Moderní Informační Technologie“), Odessa, Ukrajina.
  • Člen Interest Group EU projektu DEPLOY.

Členství v redakčních radách časopisů