Artículos de revistas: "Technological systems"

1

Leoncini, Riccardo y Sandro Montresor. "The automobile technological systems". Research Policy 30, n.º 8 (octubre de 2001): 1321–40. http://dx.doi.org/10.1016/s0048-7333(00)00155-4.

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2

Duffey, R. B. y J. W. Saull. "Errors in technological systems". Human Factors and Ergonomics in Manufacturing 13, n.º 4 (2003): 279–91. http://dx.doi.org/10.1002/hfm.10044.

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3

Daim, Tugrul U. "Systems of Technological Innovation". Journal of the Knowledge Economy 5, n.º 4 (18 de noviembre de 2012): 669. http://dx.doi.org/10.1007/s13132-012-0133-4.

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4

Pilipenko, Vyacheslav. "Space weather impact on ground-based technological systems". Solar-Terrestrial Physics 7, n.º 3 (28 de septiembre de 2021): 68–104. http://dx.doi.org/10.12737/stp-73202106.

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This review, offered for the first time in the Russian scientific literature, is devoted to various aspects of the problem of the space weather impact on ground-based technological systems. Particular attention is paid to hazards to operation of power transmission lines, railway automation, and pipelines caused by geomagnetically induced currents (GIC) during geomagnetic disturbances. The review provides information on the main characteristics of geomagnetic field variability, on rapid field variations during various space weather mani-festations. The fundamentals of modeling geoelectric field disturbances based on magnetotelluric sounding algorithms are presented. The approaches to the assessment of possible extreme values of GIC are considered. Information about economic effects of space weather and GIC is collected. The current state and prospects of space weather forecasting, risk assessment for technological systems from GIC impact are discussed. While in space geophysics various models for predicting the intensity of magnetic storms and their related geomagnetic disturbances from observations of the interplanetary medium are being actively developed, these models cannot be directly used to predict the intensity and position of GIC since the description of the geomagnetic field variability requires the development of additional models. Revealing the fine structure of fast geomagnetic variations during storms and substorms and their induced GIC bursts appeared to be important not only from a practical point of view, but also for the development of fundamentals of near-Earth space dynamics. Unlike highly specialized papers on geophysical aspects of geomagnetic variations and engineering aspects of the GIC impact on operation of industrial transformers, the review is designed for a wider scientific and technical audience without sacrificing the scientific level of presentation. In other words, the geophysical part of the review is written for engineers, and the engineering part is written for geophysicists. Despite the evident applied orientation of the studies under consideration, they are not limited to purely engineering application of space geophysics results to the calculation of possible risks for technological systems, but also pose a number of fundamental scientific problems

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5

Suchkov, V. P., S. A. Shvyrkov, R. Sh Habibulin y Ya I. Yuryev. "Fire Resistance of Technological Systems". Пожаровзрывобезопасность 19, n.º 4 (agosto de 2010): 38–40. http://dx.doi.org/10.18322/pvb.2010.19.04.38-40.

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6

Funk, Jeffrey L. "Components, Systems and Technological Discontinuities". Long Range Planning 41, n.º 5 (octubre de 2008): 555–73. http://dx.doi.org/10.1016/j.lrp.2008.06.001.

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7

Madzharov, Nikolay D. y Valentin S. Nemkov. "Technological inductive power transfer systems". Journal of Electrical Engineering 68, n.º 3 (1 de mayo de 2017): 235–44. http://dx.doi.org/10.1515/jee-2017-0035.

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Abstract Inductive power transfer is a very fast expanding technology with multiple design principles and practical implementations ranging from charging phones and computers to bionic systems, car chargers and continuous power transfer in technological lines. Only a group of devices working in near magnetic field is considered. This article is devoted to overview of different inductive power transfer (IPT) devices. The review of literature in this area showed that industrial IPT are not much discussed and examined. The authors have experience in design and implementation of several types of IPTs belonging to wireless automotive chargers and to industrial application group. Main attention in the article is paid to principles and design of technological IPTs

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8

Allen, Jonathan P. "Information systems as technological innovation". Information Technology & People 13, n.º 3 (septiembre de 2000): 210–21. http://dx.doi.org/10.1108/09593840010377644.

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9

Tugengol’d, A. K., E. A. Luk’yanov, E. V. Remizov y O. E. Korotkov. "Intelligent control of technological systems". Russian Engineering Research 28, n.º 5 (mayo de 2008): 479–84. http://dx.doi.org/10.3103/s1068798x08050158.

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10

Shadskii, G. V., V. S. Sal’nikov y O. A. Erzin. "Energetic model of technological systems". Russian Engineering Research 33, n.º 5 (mayo de 2013): 285–88. http://dx.doi.org/10.3103/s1068798x13050146.

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11

Kabaldin, Yu G. y A. I. Oleinikov. "Chaotic dynamics of technological systems". Russian Engineering Research 33, n.º 7 (julio de 2013): 408–11. http://dx.doi.org/10.3103/s1068798x13070095.

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12

Navickas, R. "Technological Trends of Nanoelectromechanical Systems". Solid State Phenomena 113 (junio de 2006): 7–12. http://dx.doi.org/10.4028/www.scientific.net/ssp.113.7.

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The analysis of technological trends nanoelectromechanical systems and processes of self-formation micro- and nanostructures in manufacturing MEMS/NEMS have been made and the requirements have been formulated. The results of modeling geometry nanostructures and the implementation of self-formation processes for creating new technologies of manufacturing MEMS/NEMS have also been presented.

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13

Ershov, D. Y., E. G. Zlotnikov y B. Nestorovski. "Own fluctuations of technological systems". Journal of Physics: Conference Series 1399 (diciembre de 2019): 022055. http://dx.doi.org/10.1088/1742-6596/1399/2/022055.

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14

Cus, F. y B. Mursec. "Databases for technological information systems". Journal of Materials Processing Technology 157-158 (diciembre de 2004): 75–81. http://dx.doi.org/10.1016/j.jmatprotec.2004.09.007.

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15

Saviotti, P. P. "Systems theory and technological change". Futures 18, n.º 6 (diciembre de 1986): 773–86. http://dx.doi.org/10.1016/0016-3287(86)90126-6.

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16

Schot, Johan, Remco Hoogma y Boelie Elzen. "Strategies for shifting technological systems". Futures 26, n.º 10 (diciembre de 1994): 1060–76. http://dx.doi.org/10.1016/0016-3287(94)90073-6.

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17

Junginger, Martin, Erika de Visser, Kurt Hjort-Gregersen, Joris Koornneef, Rob Raven, André Faaij y Wim Turkenburg. "Technological learning in bioenergy systems". Energy Policy 34, n.º 18 (diciembre de 2006): 4024–41. http://dx.doi.org/10.1016/j.enpol.2005.09.012.

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18

Saviotti, P. P. "Systems theory and technological change". Long Range Planning 20, n.º 4 (agosto de 1987): 125. http://dx.doi.org/10.1016/0024-6301(87)90174-9.

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19

Ulmanen, Johanna y Anna Bergek. "Influences of technological and sectoral contexts on technological innovation systems". Environmental Innovation and Societal Transitions 40 (septiembre de 2021): 20–39. http://dx.doi.org/10.1016/j.eist.2021.04.007.

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20

Turchenyuk, Vasyl, Nadiia Frolenkova y Anatolii Rokochynskyi. "Environmental and economic foundations of system optimization of operational, technological and construction parameters of rice irrigation systems". Environmental Economics 8, n.º 2 (5 de julio de 2017): 76–82. http://dx.doi.org/10.21511/ee.08(2).2017.08.

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The paper substantiates the necessity to carry out system optimization of operational, technological and construction parameters of water regulation in the operation of rice irrigation systems, lays out methodological approaches and results. This research formulates approaches to the selection of project criteria and conditions of economic and environmental optimization during the construction of complex optimization models in the projects of their reconstruction and operation taking into account climatic management strategies of such objects. The proposed set of measures as a result of system optimization is focused on improving the natural and amelioration state of rice irrigation systems, improving their technological and technical parameters, introducing of water and resource saving regimes of rice irrigation and related rice crop rotations.

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21

Hadjilambrinos, C. "Technological regimes: an analytical framework for the evaluation of technological systems". Technology in Society 20, n.º 2 (abril de 1998): 179–94. http://dx.doi.org/10.1016/s0160-791x(98)00004-9.

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22

Ven-Tsen, Khu y Tamara Zhukabayeva. "Decentralized Control Of Complex Technological Systems". Applied Mathematics & Information Sciences 10, n.º 1 (1 de enero de 2016): 377–82. http://dx.doi.org/10.18576/amis/100140.

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23

Sereda, E. I. y S. M. Kaminsky. "MODELS AND CONTROL SYSTEMS TECHNOLOGICAL DEVELOPMENT". Region: systems, economy, management 43, n.º 4 (2018): 77–80. http://dx.doi.org/10.22394/1997-4469-2018-43-4-77-80.

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24

Prokhorenko, N. N. y K. O. Goncharuk. "Technological reliability of chemical engineering systems". Fine Chemical Technologies 11, n.º 3 (28 de junio de 2016): 39–46. http://dx.doi.org/10.32362/2410-6593-2016-11-3-39-46.

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A significant part of the gross domestic product is lost because of hitches followed by long downtime periods in industrial systems. This is a common problem in the industry of developed nations. Analysis of causes of this phenomenon allows developing a conception of solving this problem and suggesting a method of studying the reliability (working capacity) of chemical-engineering systems (CES). In this article we prove the need for technological reliability analysis tools in prefeasibility study to estimate the potential working capacity of the technology and to avoid the large costs of starts and stops.

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25

Clark, Norman. "Evolution, complex systems and technological change1". Review of Political Economy 2, n.º 1 (marzo de 1990): 26–42. http://dx.doi.org/10.1080/09538259000000002.

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26

Leoncini, Riccardo y Sandro Montresor. "Network Analysis of Eight Technological Systems". International Review of Applied Economics 14, n.º 2 (mayo de 2000): 213–34. http://dx.doi.org/10.1080/02692170050024750.

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27

Brown, W. B. y N. Karagozoglu. "A systems model of technological innovation". IEEE Transactions on Engineering Management 36, n.º 1 (1989): 11–16. http://dx.doi.org/10.1109/17.19977.

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28

Kohlert, Wolfgang, Barbara Siegismund, Klaus Hartmann y Josef Vrba. "Equation-oriented simulation of technological systems". Collection of Czechoslovak Chemical Communications 50, n.º 11 (1985): 2411–21. http://dx.doi.org/10.1135/cccc19852411.

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29

Lazzarin, R. M. "Technological innovations in heat pump systems". International Journal of Low-Carbon Technologies 2, n.º 3 (1 de julio de 2007): 262–88. http://dx.doi.org/10.1093/ijlct/2.3.262.

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30

Whitman, Jim. "Governance Challenges of Technological Systems Convergence". Bulletin of Science, Technology & Society 26, n.º 5 (octubre de 2006): 398–409. http://dx.doi.org/10.1177/0270467606292507.

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31

Medelyaev, I. A. "Technological inheritance in vehicles’ frictional systems". Russian Engineering Research 33, n.º 4 (abril de 2013): 185–87. http://dx.doi.org/10.3103/s1068798x13040138.

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32

Sokolov, S. A. "Operational risk assessment in technological systems". Russian Engineering Research 36, n.º 1 (enero de 2016): 10–15. http://dx.doi.org/10.3103/s1068798x16010184.

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33

Koppenjan, Joop y John Groenewegen. "Institutional design for complex technological systems". International Journal of Technology, Policy and Management 5, n.º 3 (2005): 240. http://dx.doi.org/10.1504/ijtpm.2005.008406.

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34

Faundez-Zanuy, M. "Technological evaluation of two AFIS systems". IEEE Aerospace and Electronic Systems Magazine 20, n.º 4 (abril de 2005): 13–17. http://dx.doi.org/10.1109/maes.2005.1423384.

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35

Faundez-Zanuy, Marcos. "Technological evaluation of two AFIS systems". IEEE Aerospace and Electronic Systems Magazine 20, n.º 4 (abril de 2005): 13–17. http://dx.doi.org/10.1109/maes.2005.7035262.

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36

Westrum, Ron. "The Social Construction of Technological Systems". Social Studies of Science 19, n.º 1 (febrero de 1989): 189–91. http://dx.doi.org/10.1177/030631289019001010.

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37

Truffer, Bernhard. "Challenges for Technological Innovation Systems research". Environmental Innovation and Societal Transitions 16 (septiembre de 2015): 65–66. http://dx.doi.org/10.1016/j.eist.2015.06.007.

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38

Krause, F. L. "Technological planning systems for the future". Computers in Industry 14, n.º 1-3 (mayo de 1990): 109–16. http://dx.doi.org/10.1016/0166-3615(90)90110-b.

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39

Scheel, Carlos. "Knowledge clusters of technological innovation systems". Journal of Knowledge Management 6, n.º 4 (1 de octubre de 2002): 356–67. http://dx.doi.org/10.1108/13673270210440866.

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One of the main producers of wealth and prosperity of industrialized countries is the existence of sustainable systems, capable of converting technological innovation assets into substantial levels of industrial productivity, wealth and global competitiveness. However, very little has been capitalized from these cases for less developed regions. A framework is proposed (5Ls model), capable of empowering firms from industrial sectors of developing countries to: reach competitive Leverages; to Link and aLign these industrial clusters to their empowerment external drivers (academia, banking, complementary industries and government); to benchmark the cluster performance, against the best practices and Learn from the gaps; and, finally, to Lead and integrate the well performing clusters into world class value systems. To achieve these performances, a knowledge system architecture is proposed, which includes the 5Ls model supported by an effective structure of technological innovation systems (TIS), designed to administrate the collaboration network of diverse organizations, aligned to a common goal: the economic, social, political and cultural development of developing regions.

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40

Stavrovskii, M. E., A. Yu Albagachiev, M. I. Sidorov y A. V. Ragutkin. "Assessing the Efficiency of Technological Systems". Russian Engineering Research 41, n.º 5 (mayo de 2021): 428–33. http://dx.doi.org/10.3103/s1068798x21050233.

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41

Krastanova, Milena, Ivo Sirakov, Sofiya Ivanova-Kirilova, Dobry Yarkov y Petya Orozova. "Aquaponic systems: biological and technological parameters". Biotechnology & Biotechnological Equipment 36, n.º 1 (11 de mayo de 2022): 305–16. http://dx.doi.org/10.1080/13102818.2022.2074892.

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42

Whitman, Jim. "THE CHALLENGE TO DELIBERATIVE SYSTEMS OF TECHNOLOGICAL SYSTEMS CONVERGENCE". Innovation: The European Journal of Social Science Research 20, n.º 4 (diciembre de 2007): 329–42. http://dx.doi.org/10.1080/13511610701760747.

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43

Leoncini, Riccardo. "The nature of long-run technological change: innovation, evolution and technological systems". Research Policy 27, n.º 1 (mayo de 1998): 75–93. http://dx.doi.org/10.1016/s0048-7333(98)00025-0.

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44

Izotov, Oleg A., Aleksandr V. Kirichenko y Aleksandr L. Kuznetsov. "TECHNOLOGICAL SOLUTIONS FOR CARGOES SHIPMENT THROUGH THE CONTAINER TRANSPORT AND TECHNOLOGICAL SYSTEMS". Vestnik Gosudarstvennogo universiteta morskogo i rechnogo flota imeni admirala S. O. Makarova 11, n.º 4 (28 de agosto de 2019): 609–20. http://dx.doi.org/10.21821/2309-5180-2019-11-4-609-620.

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45

Naka, Yuji. "Technological Information Infrastructure for Supporting Planning and Operation of Sophisticated Technological Systems". KAGAKU KOGAKU RONBUNSHU 40, n.º 3 (2014): 149–55. http://dx.doi.org/10.1252/kakoronbunshu.40.149.

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46

Kotov, Boris, Vladimir Grishchenko, Yuriy Pantsir y Igor Garasimchuk. "MATHEMATICAL MODELING OF TECHNOLOGICAL MODES OF HEAT-PUMPING SYSTEMS FOR TECHNOLOGICAL PROCESSES". Vibrations in engineering and technology, n.º 2(101) (29 de junio de 2021): 85–91. http://dx.doi.org/10.37128/2306-8744-2021-2-9.

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One of the ways to increase the energy efficiency of the process of heat supply of technological facilities and production facilities of the agro-industrial complex is the use of heat pumps. Their use allows to increase the energy potential of heat carriers. To optimize the mode parameters and create systems for automatic control of the heat pump installation, it is necessary to establish a relationship between the parameters of the processes occurring in the elements of the installation by creating a mathematical model of non-stationary thermal modes. In the analysis of recent studies and publications, it is established that the calculations of processes in heat pumps are presented mainly for stationary modes of operation without taking into account the dynamics of the condenser. If the dynamic modes of individual elements are given, then they are described by mathematical models of considerable complexity, which greatly complicates their practical implementation. In the article, the heat pump installation, as an object of modeling, is considered as a physical system, which consists of four series-connected elements: evaporator, condenser, compressor, throttle valve forming a closed circuit. The principle of operation of a simple heat pump installation is explained by the scheme and schedule of the theoretical cycle of the steam compressor heat pump. To simplify the mathematical model, certain assumptions were made: the change in the parameters of liquid, vapor and air varies in a straight line, the thermophysical characteristics of the material of heat exchangers, air and vapor flows, heat transfer coefficients do not depend on temperature and are average for the cycle. On the basis of thermal and material balance the corresponding differential equations which make mathematical model of dynamics of change of parameters of the heat exchanger have been made. The mathematical model is supplemented by a simulation model in the MatLAB / Simulink computer environment, as well as graphical interpretations of dynamic characteristics. The developed mathematical model of dynamics of thermal processes in the heat pump installation can be used for calculation of parameters of heating and cooling of streams of heat carriers and creation of system of automatic control of them.

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47

Batashev, Ruslan Vakhayevich. "Technological, Environmental, and Economic Security Systems of the Country: International Experience". Journal of Advanced Research in Dynamical and Control Systems 12, SP3 (28 de febrero de 2020): 827–35. http://dx.doi.org/10.5373/jardcs/v12sp3/20201324.

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48

Winner, Langdon. "Technological Investigations". Techné: Research in Philosophy and Technology 22, n.º 3 (2018): 296–313. http://dx.doi.org/10.5840/techne2018111485.

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Although Ludwig Wittgenstein did not offer a fully developed philosophy of technology, his writings contain an approach to inquiry that can be employed to explore situations in which people contend with technological devices and systems. His notions of ‘language games’ and ‘forms of life’ as well as the dramatic, imaginary dialogues in his later writings offer ways to transcend the sometimes rigid theoretical frameworks in contemporary technology studies. Especially as applied to rapidly moving infusions of computing and digital electronics in contemporary society, Wittgenstein’s writings offer possibilities for fresh insight and even some practical alternatives.

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49

ЛУБ, Павло Миронович, Андрій Остапович ШАРИБУРА, Інна Леонтіївна ТРИГУБА y Віталій Леонідович ПУКАС. "PROJECT MANAGEMENT OF CROPS GROWING TECHNOLOGICAL SYSTEMS". Bulletin of NTU "KhPI". Series: Strategic Management, Portfolio, Program and Project Management 6, n.º 2(1174) (1 de marzo de 2016): 81. http://dx.doi.org/10.20998/2413-3000.2016.1174.18.

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50

Луб, Павло Миронович, Андрій Остапович Шарибура, Леонід Леонідович Сидорчук y Віталій Леонідович Пукас. "STRUCTURAL ANALYSIS OF HARVESTING TECHNOLOGICAL SYSTEMS PROJECTS". Bulletin of NTU "KhPI". Series: Strategic Management, Portfolio, Program and Project Management, n.º 2(1327) (30 de enero de 2019): 66–72. http://dx.doi.org/10.20998/2413-3000.2019.1327.10.

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Artículos de revistas sobre el tema "Technological systems"

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