International Journal of Open Information Technologies

The article states a problem of the increase of effectiveness of management of technical systems’ operation and technical maintenance of big technical systems. It is proposed to solve this problem by the decrease of time of making managerial decisions as a result of creation and application of the universal methodology of assessment of technical systems quality within contemporary big technical systems. Then, the article describes a mode of the methodology application as means of integrational reserve of the increase of management effectiveness; in addition, it presents the methodology as a combination of principles, methods, models, modes and software. Finally, the authors outline a scheme of interdependence of theoretical grounds and a practical part of the methodology in order to solve the outlined problem.

Afriat S.N. Efficiency Estimation of Production Functions // International Economic Review. 1972. № 13. – P. 568–598.

Banker R.D., Charnes A., Cooper W.W. Some models for estimating technical and scale efficiency in data envelopment analysis // Management Science. 1984. Vol. 30, № 9. – P. 1078 – 1092.

Banker R.D., Morey R.C. Efficiency analysis for exogenously fixed inputs and outputs // Operations Research. 1986. № 4. – P. 513 – 521.

Efficiency and Productivity Analysis in the 21st Century // Proceedings of International DEA Symposium (24–26 June 2002, Moscow, Russia). Moscow: International Research Institute of Management Sciences, 2002. – 178 p.

Luetje A., Wohlgemuth V. Tracking Sustainability Targets with Quantitative Indicator Systems for Performance Measurement of Industrial Symbiosis in Industrial Parks // Administrative sciences. 2020. Vol. 10. № 1. Article 3.

Chen J.-X. Overall performance evaluation: new bounded DEA models against unreachability of efficiency // The Journal of the Operational Research Society. 2014. Vol. 65. № 7. - P. 1120-1132.

Anderson T.R. Extending Productivity Research Frontiers: DEA Resource of Datasets and Errata // Journal of Productivity Analysis. 2003. Vol. 19, № 2–3. – P. 271–275.

Farrell M.J. The Measurement of Productive Efficiency // Journal of the Royal Statistical Society, Series A (General), Part III. 1957. Vol. 120. – P. 253–281.

Popova L.F. The practical application of the methodology for the QMS effectiveness assessment // Quality - Access to Success. 2018. Vol. 19(167). - Р. 43-47.

Tran V.P., Shcherbakov M., Nguyen T.A. Yet another method for heterogeneous data fusion and preprocessing in proactive decision support systems: distributed architecture approach // International Conference on Distributed Computer and Communication Networks – DCCN 2017 : 20th International Conference (Moscow, Russia, September 25-29, 2017). Springer International Publishing AG, 2017. – Pp. 319-330. DOI: 10.1007/978-3-319-66836-9_27.

Zou G., Faber M.H., Gonzalez A. A holistic approach to risk-based decision on inspection and design of fatigue-sensitive structures // Engineering structures. 2020. Vol. ‏221. Article 110949.

Filz M., Herrmann C., Thiede S. Simulation-based Assessment of Quality Inspection Strategies on Manufacturing Systems // Procedia CIRP. 2020. Vol. 93. – P. 777-782.

Banerjee D., Jagadeesh P., Rao R.P. A system dynamic approach of technical risk modelling in transportation megaprojects // International Journal of Civil Engineering and Technology. 2018. № 9(8). - P. 627-635.

Skrypnik I.L., Ksenofontov Yu.G., Kaverzneva T.T., Rumyantseva N.V., Kiss V.V. Assessment of technical level of new, promising models of equipment at the stage of their development in modern engineering practice // IOP Conference Series: Materials Science and Engineering. 2020. № 862(4). Article 042031.

Shafik M.B., Chen H., Rashed G. Planning and reliability assessment to integrate distributed automation system into distribution networks utilizing binary hybrid PSO and GSA algorithms considering uncertainties // International Transactions on Electrical Energy Systems. 2020. Article e12594.

Liang Ya., Gao Zh., Gao J. A new method for multivariable nonlinear coupling relations analysis in complex electromechanical system // Applied soft computing. 2020. Vol. 94. Article 106457.

Ratner S., Ratner P. Developing a strategy of environmental management for electric generating companies using DEA-methodology // Advances in Systems Science and Applications. 2017. Vol. 17(4). - Р. 78-92.

Banker R., Kotarac K., Neralić L. Sensitivity and stability in stochastic data envelopment analysis // The Journal of the Operational Research Society. 2015. Vol. 66. № 1. - P. 134-147.

Banker R.D. Hypothesis Tests Using Data Envelopment Analysis // The Journal of Productivity Analysis. 1996. Vol. 7. – P. 139–159.

Banker R.D. Maximum Likelihood, Consistency and Data Envelopment Analysis: A Statistical Foundation // Management Science. 1993. Vol. 39, № 10. – P. 1265 – 1273.

Barr R.S. Parallel and hierarchical decomposition approaches for solving large-scale Data Envelopment Analysis models // Annals of Operations Research. 1997. Vol. 73. – P. 339 – 372.

Dulá J.H. Computations in DEA // Pesquisa Operacional. 2002. Vol. 22, № 2. – P. 165–182.

Gerami J. An interactive procedure to improve estimate of value efficiency in DEA // Expert Systems with Applications. 2019. № 137. - Р. 29-45.

Golabchi A., Han S., AbouRizk S. A simulation and visualization-based framework of labor efficiency and safety analysis for prevention through design and planning // Automation in Construction. 2018. Vol. 96. - Р. 310-323.

Cooper W.W. Data Envelopment Analysis. Boston: Kluwer Academic Publishers, 2000. – 318 p.

Kalimoldayev M., Abdildayeva A., Mamyrbayev O. Information system based on the mathematical model of the EPS // Open engineering. 2016. Vol. 6. № 1. - P. 464-469.

Gerasimov B. Reserves and mechanisms for improving the quality of products and services // Mathematical and instrumental methods of economic analysis: quality management / Tambov State Technical University. un-T. Tambov, 2004. Issue. 13. 240 p. ISBN 5-8265-0127-8, P. 6-27