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JOURNALS // Problemy Upravleniya
Probl. Upr., 2019, Issue 2, Pages 19–29 (Mi pu1127)
Methodology and applied problems of the sustainable management in active systems
G. A. Ougolnitsky

References
1. Burkov V. N., Lerner A. Ya., “Fairplay in control of active systems”, Differential games and related topics, North-Holland Publishing Company, Amsterdam–London, 1971, 164–168  mathscinet
2. Burkov V. N., Opoitsev V. I., “Metaigrovoi podkhod k upravleniyu ierarkhicheskimi sistemami”, Avtomatika i telemekhanika, 1974, no. 1, 103–114  mathnet  zmath
3. Burkov V. N., Osnovy matematicheskoi teorii aktivnykh sistem, Nauka, M., 1977, 255 pp.
4. Burkov V. N., Danev B., Enaleev A. K. i dr., Bolshie sistemy: modelirovanie organizatsionnykh mekhanizmov, Nauka, M., 1989, 245 pp.  mathscinet
5. Burkov V. N., Novikov D. A., Teoriya aktivnykh sistem: sostoyanie i perspektivy, SINTEG, M., 1999, 128 pp.
6. Novikov D. A., Teoriya upravleniya organizatsionnymi sistemami, Izd-vo fiz.-mat. lit., M., 2007, 584 pp.
7. D.A. Novikov (red.), Mekhanizmy upravleniya, Lenand, M., 2011, 192 pp.
8. Gorelik V. A., Kononenko A. F., Teoretiko-igrovye modeli prinyatiya reshenii v ekologo-ekonomicheskikh sistemakh, Radio i svyaz, M., 1982, 144 pp.  mathscinet
9. Gorelik V. A., Gorelov M. A., Kononenko A. F., Analiz konfliktnykh situatsii v sistemakh upravleniya, Radio i svyaz, M., 1991, 288 pp.  mathscinet
10. Laffont J.-J., Martimort D., The Theory of Incentives: The Principal-Agent Model, Princeton University Press, 2002, 421 pp.
11. N. Nisan, T. Roughgarden, E. Tardos, V. Vazirani (eds.), Algorithmic Game Theory, Cambridge University Press, 2007, 754 pp.  mathscinet  zmath
12. Danilov-Danilyan V. I., Losev K. S., Ekologicheskii vyzov i ustoichivoe razvitie, Progress-Traditsiya, M., 2000, 416 pp.
13. N.F. Glazovskii (ruk. avt. koll.), Perekhod k ustoichivomu razvitiyu: globalnyi, regionalnyi i lokalnyi urovni. Zarubezhnyi opyt i problemy Rossii, M., 2002, 444 pp.
14. Adams W. M., Jeanrenaud S. J., Transition to Sustainability: Towards a Humane and Diverse World, International Union for Conservation of Nature and Natural Resources, Gland, 2008, 107 pp.
15. Clark W. C., “Sustainability Science: A Room of its Own”, Proc. of the National Academy of Science, 104:6 (2007), 1737–1738  crossref  adsnasa
16. Our Common Future, World Commission on Environment and Development (WCED), Oxford, 1987, 416 pp.
17. Aubin J.-P., Viability Theory, Springer-Verlag, 1991, 572 pp.  mathscinet
18. Cairns R. D., Martinet V., “An environmental-economic measure of sustainable development”, European Economic Review, 69 (2014), 4–17  crossref
19. Doyen L., Martinet V., “Maximin, viability and sustainability”, J. of Econ. Dynamicsand Control, 36 (2012), 1414–1430  crossref  mathscinet  zmath
20. Ugolnitskii G. A., Upravlenie ustoichivym razvitiem aktivnykh sistem, Izd-vo Yuzhnogo federalnogo un-ta, Rostov-na-Donu, 2016, 940 pp.
21. Ugolnitskii G. A., “Teoretiko-igrovoe issledovanie nekotorykh sposobov ierarkhicheskogo upravleniya”, Izv. RAN. Teoriya i sistemy upravleniya, 2002, no. 1, 97–101  mathscinet
22. Ougolnitsky G., “Game theoretic formalization of the concept of sustainable development in the hierarchical control systems”, Annals of Operations Research, 220:1 (2014), 69–86  crossref  mathscinet  zmath
23. Dockner E., Jorgensen S., Long N. V., Sorger G., Differential Games in Economics and Management Science, Cambridge University Press, Cambridge, 2000, 382 pp.  mathscinet  zmath
24. Petrosyan L. A., Zenkevich N. A., Shevkoplyas E. V., Teoriya igr, BKhV-Peterburg, SPb., 2012, 432 pp.
25. Basar T., Olsder G. Y., Dynamic Non-Cooperative Game Theory, SIAM, Philadelphia, 1999, 506 pp.  mathscinet
26. Pontryagin L. S., Boltyanskii V. G., Gamkrelidze R. V., Mischenko E. F., Matematicheskaya teoriya optimalnykh protsessov, Nauka, M., 1983, 393 pp.  mathscinet
27. Grass D., Caulkins J. P., Feichtinger G., Tragler G., Behrens D. A., Optimal Control of Nonlinear Processes (with Applications to Drugs, Corruption, and Terror), Springer, 2008, 529 pp.  mathscinet
28. Ugolnitskii G. A., Usov A. B., “Ravnovesiya v modelyakh ierarkhicheski organizovannykh dinamicheskikh sistem s uchetom trebovanii ustoichivogo razvitiya”, Avtomatika i telemekhanika, 2014, no. 6, 86–102  mathnet  zmath  elib
29. Belyavskii G. I., Danilova N. V., Ugolnitskii G. A., “Evolyutsionnoe modelirovanie v zadachakh upravleniya ustoichivym razvitiem aktivnykh sistem”, Matematicheskaya teoriya igr i ee prilozheniya, 8:4 (2016), 14–29  mathnet  mathscinet  zmath  elib
30. Ougolnitsky G. A., Usov A. B., “Computer Simulations as a Solution Method for Differential Games”, Computer Simulations: Advances in Research and Applications, eds. M.D. Pfeffer, E. Bachmaier, Nova Science Publishers, N.Y., 2018, 63–106
31. Olsder G. J., “Phenomena in inverse Stackelberg games, part 2: Dynamic problems”, Journal of Optimization Theory and Applications, 143:3 (2009), 601–618  crossref  mathscinet  zmath
32. Rokhlin D. B., Ugolnitskii G. A., “Ravnovesie Shtakelberga v dinamicheskoi modeli stimulirovaniya s polnoi informatsiei”, Avtomatika i telemekhanika, 2018, no. 4, 152–166  mathnet  zmath  elib
33. Gorelov M. A., Kononenko A. F., “Dynamic models of conflicts. III. Hierarchical games”, Automation and Remote Control, 76:2 (2015), 264–277  mathnet  crossref  mathscinet  zmath
34. Li M., Cruz J. B., Simaan M. A., “An Approach to Discrete-Time Incentive Feedback Stackelberg Games”, IEEE Trans. on Systems, Man, and Cybernetics. Part A: Systems and Humans, 32:4 (2002), 472–481  crossref
35. Gorbaneva O. I., Ugolnitskii G. A., “Tsena anarkhii i mekhanizmy upravleniya v modelyakh soglasovaniya obschestvennykh i chastnykh interesov”, Matematicheskaya teoriya igr i ee prilozheniya, 7:1 (2015), 50–73  mathnet  mathscinet  zmath  elib
36. Gorbaneva O. I., Ougolnitsky G. A., “System Compatibility, Price of Anarchy and Control Mechanisms in the Models of Concordance of Private and Public Interests”, Advances in Systems Science and Applications, 15:1 (2015), 45–59  mathscinet
37. Gubanov D. A., Novikov D. A., Chkhartishvili A. G., Sotsialnye seti: modeli informatsionnogo vliyaniya, upravleniya i protivoborstva, Fizmatlit, M., 2010, 228 pp.
38. Belov M. V., Novikov D. A., “Setevye aktivnye sistemy: modeli planirovaniya i stimulirovaniya”, Problemy upravleniya, 2018, no. 1, 47–57  mathnet  elib
39. Roberts F., Diskretnye matematicheskie modeli s prilozheniyami k sotsialnym, biologicheskim i ekologicheskim zadacham, Nauka, M., 1986, 497 pp.
40. Agieva M. T., “Modeli upravleniya na sotsialnykh setyakh v marketinge”, Inzhenernyi vestnik Dona, 2018, no. 1 http://ivdon.ru/ru/magazine/archive/n1y2018/4670 (data obrascheniya: 22.11.2018)
41. Ugolnitskii G. A., Usov A. B., Ryzhkin A. I., “Metod pobuzhdeniya v igrakh Germeiera pri modelirovanii trekhurovnevoi sistemy upravleniya sudovymi ballastnymi vodami”, Kompyuternye issledovaniya i modelirovanie, 6:4 (2014), 535–542  mathnet  mathscinet  elib
42. Ugolnitskii G. A., Usov A. B., Ryzhkin A. I., “Metod prinuzhdeniya v igrakh Germeiera pri modelirovanii trekhurovnevoi sistemy upravleniya sudovymi ballastnymi vodami”, Kompyuternye issledovaniya i modelirovanie, 7:2 (2015), 281–288  mathnet  mathscinet  elib
43. Nazirov A. E., Ugolnitskii G. A., Usov A. B., “Teoretiko-igrovaya model trekhurovnevoi marketingovoi sistemy s uchetom ekologicheskikh trebovanii”, Upravlenie bolshimi sistemami, 55 (2015), 326–342  mathnet  elib
44. Nikitina A. V., Puchkin M. V., Semenov I. S. i dr., “Differentsialno-igrovaya model predotvrascheniya zamorov v melkovodnykh vodoemakh”, Upravlenie bolshimi sistemami, 55 (2015), 343–361  mathnet  elib
45. Nikitina A. V., Sukhinov A. I., Ugolnitskii G. A. i dr., “Optimalnoe upravlenie ustoichivym razvitiem pri biologicheskoi reabilitatsii Azovskogo morya”, Matematicheskoe modelirovanie, 28:7 (2016), 96–106  mathnet  mathscinet  elib
46. Ugolnitskii G. A., Usov A. B., Puchkin M. V. i dr., “Teoretiko-igrovye reglamenty mekhanizmov upravleniya ustoichivym razvitiem melkovodnykh ekosistem”, Avtomatika i telemekhanika, 2017, no. 6, 122–137  mathnet  mathscinet  zmath  elib
47. Onoprienko A. N., Ugolnitskii G. A., Usov A. B., “Imitatsionnoe modelirovanie ierarkhicheskikh reglamentov upravleniya (na primere rybolovstva)”, Izvestiya vuzov. Severo-Kavkazskii region. Estestvennye nauki, 2016, no. 4, 25–29
48. Rokhlin D. B., Ougolnitsky G. A., Usov A. B., “A two-level model of optimal harvesting under parameter uncertainty”, Far East Journal of Mathematical Sciences, 102:7 (2017), 1365–1380  crossref
49. Ougolnitsky G. A., “A System Approach to the Regional Sustainable Management”, Advances in Systems Science and Applications, 17:2 (2017), 52–62
50. Anopchenko T. Yu., Murzin A. D., Ugolnitskii G. A., “Modelirovanie soglasovaniya interesov v zadachakh upravleniya ustoichivym razvitiem territorii”, Ekonomika prirodopolzovaniya, 2017, no. 6, 35–47  elib
51. Gorbaneva O. I., Murzin A. D., Ugolnitskii G. A., “Mekhanizmy soglasovaniya interesov pri upravlenii proektami razvitiya territorii”, Upravlenie bolshimi sistemami, 71 (2018), 61–97  mathnet  mathscinet  elib
52. Ugolnitskii G. A., Usov A. B., “Teoretiko-igrovaya model soglasovaniya interesov pri innovatsionnom razvitii korporatsii”, Kompyuternye issledovaniya i modelirovanie, 8:4 (2016), 673–684  mathnet  mathscinet  elib
53. Dyachenko V. K., Ougolnitsky G. A., Tarasenko L. V., “Computer Investigation of a Game Theoretic Model of Social Partnership in the System of Continuing Professional Education”, Advances in Systems Science and Applications, 15:4 (2015), 320–328
54. Nor-Arevyan O. A., Tarasenko L. V., Ugolnitskii G. A., “Matematicheskoe modelirovanie sotsialnogo partnerstva: metodologiya mezhdistsiplinarnogo issledovaniya (na primere sistemy dopolnitelnogo professionalnogo obrazovaniya)”, Sotsiologicheskie issledovaniya, 2018, no. 4, 15–24  crossref

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