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Ученая степенькандидат физико-математических наук
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Ученое званиеInvestigador Titular
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Научное направлениеФизико-математические науки
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СтранаИспания
Скиба Юрий Николаевич - Skiba Yu.N.
Doctor of Mathematical and Physical Sciences (Ph.D., Computing Center, USSR Academy of Sciences, Novosibirsk, Russia, 1978).
Senior Researcher of the USSR (Presidium of USSR Academy of Sciences, Moscow, Russia, 1989).
Investigador Nacional, Sistema Nacional de Investigadores, CONACyT, Mexico:
Level III (since 2019);
Level II (1997-2018);
Level I (1994-1997).
Career:
1978-1984: Head of research group, Computing Centre, USSR Academy of Sciences, Novosibirsk, Russia.
1985-1987: Senior Scientist, Computing Centre, State Committee of Science and Technology, USSR Council of Ministers, Moscow, Russia.
1987-1994: Senior Scientist, Institute of Numerical Mathematics, Russian Academy of Sciences, Moscow, Russia.
1989-1991: Senior Scientific Officer, Indian Institute of Technology, New Delhi; Indian Institute of Tropical Meteorology, Pune; Indian Institute of Science, Bangalore.
1992-up to now: Investigador Titular C, Head of the laboratory of Mathematical modeling of atmospheric processes, Centre for Atmospheric Sciences and professor of Faculty of Sciences, UNAM University, Mexico City.
Author of 9 scientific books (in Russian-1; in English-3 and in Spanish-5), 25 chapters in books, 180 research papers on the atmosphere and fluid dynamics, numerical methods, nonlinear diffusion, pollution transport & optimal control of emissions, and 203 reviews published in Mathematical Reviews (Amer. Math. Soc., USA).
His works have been cited 1281 times.
WEB sites:
https://www.atmosfera.unam.mx/ciencias-atmosfericas/modelacion-matematica/iouri-skiba-skiba/
https://www.atmosfera.unam.mx/wp-content/uploads/2018/02/CVSkiba2018.pdf
https://www.researchgate.net/profile/Yuri_Skiba
http://orcid.org/0000-0002-5934-0785
http://www.famous-scientists.ru/13527/
http://globalmmf.ru/node/626
SCOPUS Author ID 7004567102
Best Paper Award winner, 29-31 July 2011. Noordwijkerhout, THE NETHERLANDS, The 1st INTERNATIONAL CONFERENCE ON SIMULATION AND MODELING METHODOLOGIES, TECHNOLOGIES AND APPLICATIONS (SIMULTECH 2011). It was presented the work entitled “Simulation of Nonlinear Diffusion on a Sphere” (with D. M. Filatov) (http://www.simultech.org/PreviousAwards.aspx).
The Excelent Oral Presentation Certificate, The 2nd INTERNATIONAL CONFERENCE ON PURE AND APPLIED MATHEMATICS (ICPAM 2013), 20-21 July 2013, Moscow, RUSSIA. The oral presentation of the work entitled “Large-Time Dynamics of Incompressible Fluid on a Sphere” has been selected as the best one of the conference (http://www.icpam.org/history.htm).
Medal and Diploma of "Academic Merit 2016" Independent Association of Academic Personnel (AAPA) of the UNAM. Academic Merit Recognition, MEXICO, May, 2016.
Medal for 25 years of service, UNAM, MEXICO, 2017.
Medal for 20 years of service, UNAM, MEXICO, 2012.
Medal for 15 years of service, UNAM, MEXICO, 2007.
Medal of Academic Councils, Area of Physical and Mathematical Sciences and Ingenierias, UNAM, MEXICO, August, 2004.
Medal for 10 years of service, UNAM, MEXICO, 2002.
Fields of interest: nonlinear fluid dynamics, flow stability on a rotating sphere with applications to the atmospheric flows, numerical analysis of PDE-based nonlinear geophysical models, nonlinear diffusion, mathematical modeling in the transport of pollutants, and optimal control of emission rates.
Member of American Mathematical Society (USA), Mexican Geophysical Union (Mexico), Committee on Space Research (COSPAR, France), Asia Oceania Geosciences Society (Singapore), Mexican Society for Numerical Methods in Engineering and Applied Science (Mexico), Who’s Who in the Science and Engineering (USA), and Marquis Who´s Who (USA).
Member of the editorial committee of the three international journals: Applied and Computational Mathematics (Science Publishing Group, USA), Atmosfera (Mexico), International Journal of Partial Differential Equations (Hindawi Publishing Corporation, USA).
Научные публикации
1. Кочергин В.П. и Ю.Н. Скиба (1971): Численный расчет океанской циркуляции в присутствии островов. Вычислительный Центр, СО АН СССР, Новосибирск, 1-24.
2. Кордзадзе А.А. и Ю.Н. Скиба (1972): Численный метод решения двумерной задачи циркуляции океана. Численные модели океанических течений, Г.И. Марчук (ред.), СО АН СССР, Novosibirsk, 98-122.
3. Kordzadze, A.A. and Yu.N. Skiba (1973): Численный расчет основных характкристик Черного моря используя трехмерную модель. Вычислительный Центр, СО АН СССР, Новосибирск, MH08557, 1-34.
4. Mарчук Г.И., A.A. Koрдзадзе и Ю.Н. Скиба (1975): Расчет основных гидрологических полей Черного моря. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (Институт физики атмосферы, АН СССР; ISSN: 0002-3515), 11 (4): 379-393 (Nauka, Moscow, en ruso).
5. Marchuk, G.I., A.A. Kordzadze and Yu.N. Skiba (1975): Calculation of the Basic Hydrological Fields in the Black Sea. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., American Geophysical Union, American Meteorological Society, Washington; ISSN: 0001-4338 (Printed); ISSN Online: 1555-628X), 11 (4): 229-237.
6. Mарчук Г.И. и Ю.Н. Скиба (1976): Численный расчет сопряженной задачи для модели термического взаимодействия атмосферы с океанами и континентами. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (Институт физики атмосферы, АН СССР; ISSN: 0002-3515), 12 (5): 459-469 (Nauka, Moscow, USSR, en ruso).
7. Marchuk, G.I. and Yu.N. Skiba (1976): Numerical Calculation of the Conjugate Problem for a Model of the Thermal Interaction of the Atmosphere with the Oceans and Continents. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., American Geophysical Union, American Meteorological Society, Washington; ISSN: 0001-4338 (Printed); ISSN Online: 1555-628X), 12 (5): 279-284.
8. Скиба Ю.Н. (1978): Метод решения задачи теплового взаимодействия в системе Атмосфера-Океан-Почва, используя сопряженные уравнения. Вычислительный Центр, СО АН СССР, Новосибирск, 1-13. Реферат диссертации на соискание ученой степени к.ф.-м.н.
9. Скиба Ю.Н. (1978): Метод решения задачи теплового взаимодействия в системе Атмосфера-Океан-Почва, используя сопряженные уравнения. Диссертация на соискание ученой степени к.ф.-м.н., Вычислительный Центр, СО АН СССР, Новосибирск, 1-124.
10. Mарчук Г.И. и Ю.Н. Скиба (1978): О методе прогноза средних аномалий температуры. Вычислительный Центр, СО АН СССР, Новосибирск, 120, 1-40.
11. Скиба Ю.Н. (1978): Расчет сопряженной температуры в задаче теплового взаимодействия в системе Атмосфера-Океан-Почва. Труды Гидрометцентра СССР (ISSN 0371-7089), 204, 9-21, Ленинград, Гидрометеоиздат.
12. Скиба Ю.Н. (1980): О формулировке основной и сопряженной задач теплового переноса в системе Атмосфера-Океан-Почва. Математическое моделирование динамики атмосферы и океана. Часть 1, Г.И. Марчук (ред.), 170-179, СО АН СССР, Novosibirsk.
13. Скиба Ю.Н. (1981): Применение сопряженных уравнений для оценки чувствительности модели к вариациям ее параметров и их идентификации. Теория океанических процессов, Морской гидрофизический институт, АН УССР, Севастополь, 53-60.
14. Marchuk, G.I., Yu.N. Skiba and V.I. Kuzin (1983): Application of Adjoint Equations in Numerical Heat Transport Models of the Atmosphere-Ocean-Soil System. Proceedings, The III French-Soviet Oceanographic Congress (junio 9-10, 1982). Part I: 4-15, Novosibirsk, Computing Center, USSR Academy of Sciences, USSR.
15. Marchuk, G.I., V.I. Kuzin and Yu.N. Skiba (1983): Projection-Difference Method for the Calculation of Adjoint (Conjugate) Functions for a Model of Heat Transfer in the Atmosphere-Ocean-Soil System. Current Problems of Numerical and Applied Mathematics, Editorial Nauka, 149-154, Novosibirsk, URSS.
16. Скиба Ю.Н. & И.Г. Проценко (1984): О конечно-разностных схемах для уравнения переноса случайной физической субстанции. Численное моделирование динамики океанов и внутренних водоемов. В.П. Кочергин (ред.), СО АН СССР, Novosibirsk, 141-155.
17. Дымников В.П. и Ю.Н. Скиба (1985): Баротропная неустойчивость зонально несимметричных атмосферных потоков. Отдел вычислительной математики АН СССР, Москва, 101, 1-59.
18. Mарчук Г.И., Ю.Н. Скиба и И.Г. Проценко (1985): Метод расчета эволюции случайных гидродинамических полей на основе сопряженных уравнений. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (ISSN: 0002-3515), 21 (2): 115-122.
19. Marchuk, G.I., Yu.N. Skiba and I.G. Protsenko (1985): Method of Calculating the Evolution of Random Hydrodynamic Fields on the Basis of Adjoint Equations. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., American Geophysical Union, American Meteorological Society, Washington; ISSN: 0001-4338 (Printed); ISSN Online: 1555-628X), 21 (2): 87-92.
20. Mарчук Г.И., Ю.Н. Скиба и И.Г. Проценко (1985): Применение сопряженных уравнений в задачах оценки состояния случайных гидродинамических полей. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (ISSN: 0002-3515), 21 (3): 227-23.
21. Marchuk, G.I., Yu.N. Skiba and I.G. Protsenko (1985): Application of Adjoint Equations to Problems of Estimating the State of Random Hydrodynamic Fields. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., American Geophysical Union, American Meteorological Society, Washington; ISSN: 0001-4338 (Printed); ISSN Online: 1555-628X), 21 (3): 175-180.
22. Дымников В.П. и Ю.Н. Скиба (1986): Баротропная неустойчивость зонально несимметричных атмосферных потоков. Вычислительные процессы и системы, 4, 63-104, Наука, Москва (ISBN: 5-02-014666-8).
23. Дымников В.П. и Ю.Н. Скиба (1986): Баротропная неустойчивость зонально несимметричных атмосферных потоков над орографически неоднородной поверхностью. Отдел вычислительной математики АН СССР, Москва, 123, 1-25.
24. Dymnikov, V.P. and Yu.N. Skiba (1987): Barotropic Instability of Zonally Asymmetric Atmospheric Flows over Topography. Soviet Journal of Numerical Analysis & Mathematical Modelling (Holand-Japan, VNU Science Press, BV; ISSN: 1569-3988), 2 (2): 83-98.
25. Дымников В.П. и Ю.Н. Скиба (1987): О спектральных критериях устойчивости баротропных атмосферных потоков. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (ISSN: 0002-3515), 23 (12): 1263-1274.
26. Dymnikov, V.P. and Yu.N. Skiba (1987): Spectral Criteria for Stability of Barotropic Atmospheric Flows. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., AGU, American Meteorological Society, Washington; ISSN: 0001-4338 (Printed); ISSN Online: 1555-628X), 23 (12): 943-951.
27. Скиба Ю.Н. (1987): Анализ устойчивости квазистационарных баротропных атмосферных потоков методом нормальных мод. Итоги науки и техники. Атмосфера, Океан, Космос. Программа "Разрезы", Марчук Г.И. (ред.), ВИНИТИ, Москва, 8: 91-99.
28. Скиба Ю.Н. (1988): Однозначная разрешимость баротропного уравнения вихря вязкой жидкости в классах обобщенных функций на сфере. Отдел вычислительной математики АН СССР, Москва, 194, 1-56.
29. Скиба Ю.Н. (1988): Алгоритм последовательной асиммиляции данных наблюдений в задачах фильтрации Калмана. Отдел вычислительной математики АН СССР, Москва, 218, 1-12 .
30. Скиба Ю.Н. (1989): Математические вопросы динамики вязкой баротропной жидкости на вращающейся сфере. Институт вычислительной математики, АН СССР, ВИНИТИ, Москва. - 178 pp.
31. Скиба Ю.Н. (1989): О динамике возмущений решений уравнения вихря скорости идеальной жидкости на сфере. Институт вычислительной математики, АН СССР, Москва, No. 246, 48 pp.
32. Skiba, Yu.N. (1990): Mathematical Problems of the Dynamics of Viscous Barotropic Fluid on a Rotating Sphere, Indian Institute of Tropical Meteorology, Pune, INDIA, 211 pp.
33. Иванов В.А. и Ю.Н. Скиба (1990). Теоремы вложения на компактных однородных пространствах и их применение к изучению устойчивости баротропной жидкости на сфере. Институт вычислительной математики, АН СССР, Москва, 242, 1-38.
34. Mарчук Г.И. и Ю.Н. Скиба (1990): Роль сопряженных функций в изучении чувствительности модели теплового взаимодействия атмосферы и океана к вариациям входных данных. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (ISSN: 0002-3515), 26 (5): 451-460.
35. Marchuk, G.I. and Yu.N. Skiba (1990): Role of Adjoint Functions in Studying the Sensitivity of a Model of the Thermal Interaction of the Atmosphere and Ocean to Variations in Input Data. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., American Geophysical Union, American Meteorological Society, Washington; ISSN: 0001-4338 (Printed); ISSN Online: 1555-628X), 26 (5): 335-342.
36. Скиба Ю.Н. (1990): Функции влияния ЭАЗО в модели теплового взаимодействия в системе Атмосфера-Океан-Почва. Труды 3.го Всесоюзного конгресса по программе «Разрезы» (30.05.88-3.06.88, Одесса), ВИНИТИ, Москва, 25-36.
37. Марчук Г.И. и Ю.Н. Скиба (1990): Вычисление пространственно-временных функций влияния для среднемесячных аномалий поверхностной температуры в ограниченных регионах. Динамика атмосферы и океана. Институт вычислительной математики АН СССР, Москва, 3-27.
38. Скиба Ю.Н. (1991): Неустойчивость по Ляпунову волн Россби - Гаурвица и дипольных модонов, Институт вычислительной математики, АН СССР, Москва, 279, 33 pp.
39. Skiba, Yu.N. (1991): Liapunov Instability of the Rossby-Haurwitz Waves and Dipole Modons. Soviet Journal of Numerical Analysis & Mathematical Modelling (Holand-Japan, VNU Science Press, BV; ISSN: 1569-3988), 6 (6): 515-534.
40. Скиба Ю.Н. (1992): К устойчивости волны Россби-Гаурвица. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (ISSN: 0002-3515), 28 (5): 512-521.
41. Skiba, Yu.N. (1992): Rossby-Haurwitz Wave Stability. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., American Geophysical Union, American Meteorological Society, Washington; ISSN: 0001-4338 (Printed). ISSN Online: 1555-628X), 28 (5): 388-394.
42. Marchuk, G.I. and Yu.N. Skiba (1992): Role of the Adjoint Equation Solution in Estimating the Mean Temperature Anomalies. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 5 (3), 119-133.
43. Skiba, Yu.N. (1992): К устойчивости баротропных модонов на сфере. Известия Академии Наук СССР, серия Физика Атмосферы и Океана (ISSN: 0002-3515), 28 (10-11), 1024-1036.
44. Skiba, Yu.N. (1992): The Stability of Barotropic Modons on a Sphere. Izvestiya, Atmospheric and Oceanic Physics (U.S.A., American Geophysical Union, American Meteorological Society, Washington; ISSN Print: 0001-4338. ISSN Online: 1555-628X), 28 (10-11), 765-773.
45. Skiba, Yu.N. (1993): Dynamics of Perturbations of the Rossby-Haurwitz Wave and Verkley Modon. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 6 (2), 87-125.
46. Skiba, Yu.N. (1993): Balanced and Absolutely Stable Implicit Schemes for the Main and Adjoint Pollutant Transport Equations in Limited Area. Rev. Internac. de Contamin. Ambiental (Mexico, UNAM; ISSN: 0188-4999, 9 (2), 39-51.
47. Skiba, Yu.N. (1993): On a Method of Estimating the Pollution Concentration. In: Proceedings of International Symposium on Heat and Mass Transfer in Energy Systems and Environmental Effects Cancun, MEXICO, August, 22-25, 1993, 167-172
48. Skiba, Yu.N. (1993): Solution of the Main and Adjoint Pollutant Transport Equations in Limited Area and Spherical Shell by Splitting-Up Method. In: VI Congreso Nacional de Meteorologia, II Congreso Iberoamericano del Medio Ambiente Atmosferico (CIAMAA/93), Mexico, D.F., MEXICO, October 27-29, 1993, 130-132.
49. Skiba, Yu.N. (1994): Reply to the Paper by D.G. Cacuci and M.E. Schlesinger. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 7 (1), 75-79.
50. Skiba, Yu.N. (1994): On Sufficient Conditions for Global Asymptotical Stability of the Barotropic Fluid on a Sphere. Il Nuovo Cimento C, Geophysics and Space Physics (Italy, Editrice Compositori, Bologna; ISSN 0390-5551; Springer Verlag, ISSN: 1124-1896), 17 (May-June), 359-368.
51. Skiba, Yu.N. (1994): On the Long-Time Behavior of Solutions to the Barotropic Atmosphere Model. Geophysical & Astrophysical Fluid Dynamics (Switzerland, Taylor & Francis (Gordon & Breach); Print ISSN: 0309-1929; Online ISSN: 1029-0419), 78 (1-4), 143-167.
52. Скиба Ю.Н. (1995): Конечно-разностные схемы для уравнений мелкой воды, обеспечивающие сохранение массы и полной энергии, Метеорология и Гидрология, 2, 55-65 (ISSN: 0130-2906).
53. Skiba, Yu.N. (1995): Total Energy and Mass Conserving Finite-Difference Schemes for the Shallow Water Equations, Russ. Meteorol. Hydrology (U.S.A., Allerton Press Inc./ NY; ISSN 1068-3739), 2, 35-43.
54. Skiba, Yu.N. and J. Adem (1995): Balanced and Absolutely Stable Numerical Thermodynamic Model for Closed and Open Oceanic Basins. Geofisica Internacional (Mexico, UNAM; ISSN:0016-7169), 34 (4), 385-393.
55. Skiba, Yu.N. (1995): Direct and Adjoint Estimates in the Oil Spill Problem. Rev. Internac. de Contamin. Ambiental (Mexico, UNAM; ISSN:0188-4999), 11 (2), 69-75.
56. Skiba, Yu.N. (1995). Pollution Concentration Estimates in Ecologically Important Zones. In: The X World Clean Air Conference ESPOO-FINLAND, Impacts and Management, (Editores: Juha Kamari, Merja Tolvanen, Pia Anttila y Raimo O. Salonen), UIAPPA-SFPPA, Helsinki, FINLAND, May 28 - June 2, 1995, Vol.3, paper No. 525 (English), Finnish Air Pollution Prevention Society, ISBN 952-90-6474-8.
57. Skiba, Yu.N., J. Adem and T. Morales-Acoltzi (1996): Numerical Algorithm for the Adjoint Sensitivity Study of the Adem Ocean Thermodynamic Model. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 9 (2), 147-170.
58. Skiba, Yu.N. (1996): Dual Oil Concentration Estimates in Ecologically Sensitive Zones. Environmental Monitoring and Assessment (Neverlands, Springer (Kluwer); ISSN: 0167-6369 (Print), 1573-2959 (Online)), 43 (2), 139-151.
59. Скиба Ю.Н. (1996): Об асимптотических режимах баротропного уравнения вихря на сфере. Метеорология и Гидрология, 3, 50-60 (ISSN: 0130-2906).
60. Skiba, Yu.N. (1996): Asymptotic Regimes of the Barotropic Vorticity Equation on a Sphere. Russian Meteorology and Hydrology (U.S.A., Allerton Press Inc./ New York; ISSN 1068-3739), 3, 37-45.
61. Skiba, Yu.N. (1996): The Derivation and Applications of the Adjoint Solutions of a Simple Thermodynamic Limited Area Model of the Atmosphere-Ocean-Soil System. World Resource Review (U.S.A., WRR, IL; ISSN: 1042-8011), 8 (1), 98-113.
62. Skiba, Yu.N. (1996). On Hausdorff Dimension of Attractive Sets of Barotropic Atmosphere. In: Proceedings of the VII Congreso Latinoamericano e Iberico de Meteorologia, “Impacto de las Variaciones Climaticas en el Desarrollo Regional: Un Analisis Interdisciplinario”, Buenos Aires, ARGENTINA , September 2-6, 1996, 177-178, Centro Argentino de Meteorologos (English).
63. Skiba, Yu.N. (1996). Adjoint Estimates in the Oil Spill. In: Proceedings of the VII Congreso Latinoamericano e Iberico de Meteorologia, “Impacto de las Variaciones Climaticas en el Desarrollo Regional: Un Analisis Interdisciplinario”, Buenos Aires, ARGENTINA, September 2-6, 1996, 265-266, Centro Argentino de Meteorólogos.
64. Skiba, Yu.N. (1997): On Dimension of Attractive Sets of Viscous Fluids on a Sphere Under Quasi-Periodic Forcing. Geophysical and Astrophysical Fluid Dynamics (Switzerland, Taylor & Francis (Gordon & Breach); Print ISSN: 0309-1929; Online ISSN: 1029-0419), 85 (3-4), 233-242.
65. Skiba, Yu.N. (1997). Air Pollution Estimates. World Resource Review (U.S.A., WRR, IL; ISSN: 1042-8011), 9 (4), 542-556.
66. Skiba, Yu.N. (1997). Direct and Adjoint Oil Spill Estimates. In: Proceedings of the “II MATHMOD VIENNA” Symposium of IMACS (International Association for Mathematics and Computers in Simulation), Technical University of Vienna, AUSTRIA, February 5-7, 1997, ARGESIM Report, 11, 431-436 (English), ISBN 3-901608-11-7.
67. Skiba, Yu.N. (1997): Dual Estimates in the Oil Spill. In: La Investigacion Meteorologica en Mexico 1994-1995, Memorias del VII Congreso Nacional de Meteorologia, Universidad Autonoma Chapingo, Academia de Meteorologia, MEXICO, 275-287.
68. Davydova-Belitskaya, V. and Yu.N. Skiba (1998). Mathematical Modelling of the Distribution and Transport of the Water Vapor over Mexico. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 11 (2), 109-123.
69. Skiba, Yu.N. (1998): Spectral Approximation in the Numerical Stability Study of Non-Divergent Viscous Flows on a Sphere. Numerical Methods for Partial Differential Equations (U.S.A., John Wiley & Sons; ISSN: 0749-159X), 14 (2), 143-157.
70. Skiba, Yu.N., J. Adem and T. Morales-Acoltzi (1998). On the Structure of the Stability Matrix in the Normal Mode Stability Study of Zonal Incompressible Flows on a Sphere. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 11 (3), 143-155.
71. Skiba, Yu.N. and J. Adem (1998). On the Linear Stability Study of Zonal Incompressible Flows on a Sphere. Numerical Methods for Partial Differential Equations (U.S.A., John Wiley & Sons; ISSN: 0749-159X), 14 (5), 649-665.
72. Davydova V. & Yu.N. Skiba, (1998). Cimate Variations in Guadalajara City During the Last Century. Memoria. VIII Congreso de la Organizacion Mexicana de Meteorologos, A.C. (OMMAC), MEXICO, Instituto Veracruzano de Cultura/Museo de la Ciudad de Veracruz, 28-30 de octubre, 1998, 152-153.
73. Davydova V. & Yu.N. Skiba, (1998). The Distribution and Transport of the Water Vapor over Mexico. Memoria. VIII Congreso de la Organizacion Mexicana de Meteorologos, A.C. (OMMAC), MEXICO, Instituto Veracruzano de Cultura/Museo de la Ciudad de Veracruz, 28-30 de octubre, 1998, 173-174.
74. Yu.N. Skiba & I.P. Garcia (1998). Tests with a Numerical Spectral Model of the Barotropic Atmosphere. Memoria. VIII Congreso de la Organizacion Mexicana de Meteorologos, A.C. (OMMAC), MEXICO, Instituto Veracruzano de Cultura/Museo de la Ciudad de Veracruz, 28-30 de octubre, 1998, 278-280.
75. Skiba, Yu.N. and D. Parra-Guevara (1999). Mathematics of Oil Spills: Existence, Uniqueness, and Stability of Solutions, Geofisica Internacional (Mexico, UNAM; ISSN: 0016-7169), 38 (2), 117-124.
76. Skiba, Yu.N. (1999). Direct and Adjoint Oil Spill Estimates. Environmental Monitoring and Assessment (The Netherlands, Springer-Kluwer; ISSN: 0167-6369 (Print), 1573-2959 (Online)), 59 (1), 95-109.
77. Davydova-Belitskaya, V. and Yu.N. Skiba (1999). Climate of Guadalajara City (Mexico), Its Variation and Change within Latest 120 Years. World Resource Review (USA, WRR, IL; ISSN: 1042-8011), 11 (2), 258-270.
78. Perez Garcia, I. and Yu.N. Skiba (1999). Simulation of Exact Barotropic Vorticity Equation Solutions Using a Spectral Model. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 12 (4), 223-243.
79. Belitskaya-Davydova, V. and Yu.N. Skiba (1999). The Distribution and Transport of the Water Vapor over Mexico. World Resource Review (USA, WRR, IL; ISSN: 1042-8011), 11 (4), 562-575.
80. Davydova, B.V., Yu.N. Skiba, S.N. Bulgakov and A. Martinez (1999). Modelacion Matematica de los Niveles de Contaminacion en la Ciudad de Guadalajara, Jalisco, Mexico. Parte I. Microclima y Monitoreo de la Contaminacion. Rev. Intern. de Contamin. Ambiental (Mexico, UNAM; ISSN:0188-4999), 15 (2), 103-111.
81. Yu.N. Skiba & A.Y. Strelkov (1999). Normal Mode Instability of Steady Waves in the Barotropic Atmosphere. Memorias. IX Congreso Nacional de Meteorologia "Variabilidad Climatica en Mexico" (OMMAC), MEXICO, Universidad de Guadalajara, 25-26 de noviembre, 1999, 55-59.
82. Garcia I.P. & Yu.N. Skiba (1999). Estabilidad Lineal de Unas Soluciones Exactas de la Equacionn de Vorticidad sobre la Esfera. Memorias. IX Congreso Nacional de Meteorologia “Variabilidad Climatica en Mexico”(OMMAC), MEXICO, Universidad de Guadalajara, 25-26 de noviembre, 1999, 67-70.
83. Davydova V. & Yu.N. Skiba, (1999). Estimacion de los Niveles de Contaminacion en la Zona Metropolitana de Guadalajara. Memorias. IX Congreso Nacional de Meteorologia “Variabilidad Climatica en Mexico” (OMMAC), MEXICO, Universidad de Guadalajara, 25-26 de noviembre, 1999, 140-143.
84. Parra-Guevara, D. & Yu.N. Skiba (1999). Control over Emission Rates of Industrial Plants. Memorias. IX Congreso Nacional de Meteorologia “Variabilidad Climatica en Mexico” (OMMAC), MEXICO, Universidad de Guadalajara, 25-26 de noviembre, 1999, 144-148.
85. Parra-Guevara, D. and Yu.N. Skiba (2000). Optimizacion de Emisiones Industriales para la Proteccion de Zonas Ecologicas. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 13 (1), 27-38.
86. Skiba, Yu.N. and D. Parra-Guevara (2000). Assessment of Pollution Concentrations and Control of Industrial Emissions. World Resource Review (USA, WRR, IL; ISSN: 1042-8011), 12 (2), 253-268.
87. Skiba, Yu.N. (2000). On the Normal Mode Instability of Harmonic Waves on a Sphere. Geophysical and Astrophysical Fluid Dynamics (Switzerland, Taylor & Francis (Gordon & Breach); Print ISSN: 0309-1929; Online ISSN: 1029-0419), 92 (1-2), 115-127.
88. Skiba Yu.N. and A.Y. Strelkov (2000). Linear Instability Conditions for Steady Waves in Ideal Incompressible Fluid on a Rotating Sphere. In: Mathematical and Numerical Aspects of Wave Propagation (Eds. A. Bermudez, D. Gomez, Ch. Hazard, P. Joly and J.E. Roberts), Society for Industrial and Applied Mathematics (SIAM, U.S.A.), Philadelphia, 369-373, 2000; ISBN 0-89871-470-2.
89. Skiba, Yu.N. and D. Parra-Guevara (2000). Industrial Pollution Transport. Part I: Formulation of the Problem and Air Pollution Estimates. Environmental Modeling and Assessment (The Netherlands, Springer (Kluwer-Baltzer); ISSN: 1420-2026 (printed); ISSN: 1573-2967 (online)), 5 (3), 169-175.
90. Parra-Guevara, D.P. and Yu.N. Skiba (2000). Industrial Pollution Transport. Part II: Control of Industrial Emissions. Environmental Modeling and Assessment (The Netherlands, Springer (Kluwer-Baltzer); ISSN: 1420-2026 (printed); ISSN: 1573-2967 (online)), 5 (3), 177-184.
91. Skiba, Yu.N. and A.Y. Strelkov (2000). On the Normal Mode Instability of Modons and Wu-Verkley Waves. Geophysical and Astrophysical Fluid Dynamics (Switzerland, Taylor & Francis (Gordon & Breach); Print ISSN: 0309-1929; Online ISSN: 1029-0419), 93 (1-2), 39-54.
92. Yu.N. Skiba & Garcia I.P. (2000). On the Role of the Fluid Viscosity and Basic Flow Smoothness in the Normal Mode Stability Study. Memorias. X Congreso Nacional de Meteorologia “Huracanes y Meteorologia Tropical” (OMMAC), MEXICO, en CD).
93. Yu.N. Skiba (2000). On the Detection of the Industrial Plants Violating Prescribed Emission Rates. Memorias. X Congreso Nacional de Meteorologia “Huracanes y Meteorologia Tropical” (OMMAC), MEXICO, en CD).
94. Parra-Guevara D. & Yu.N. Skiba (2000). Un modelo Matematico para el Control a Corto Plazo de un Contaminante Atmosferico Secundario. Memorias. X Congreso Nacional de Meteorologia “Huracanes y Meteorologia Tropical” (OMMAC), MEXICO, en CD).
95. Perez Garcia, I. and Yu.N. Skiba (2001). Tests of a Numerical Algorithm for the Linear Instability Study of Flows on a Sphere. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 14 (2), 95-112.
96. Davydova-Belitskaya, V., Yu.N. Skiba, A. Martinez and S.N. Bulgakov (2001). Modelacion Matematica de los Niveles de Contaminacion en la Ciudad de Guadalajara, Jalisco, Mexico. Parte II. Modelo Numerico de Transporte de Contaminantes y su adjunto. Rev. Intern. de Contamin. Ambiental (Mexico, UNAM; ISSN: 0188-4999), 17 (2), 97-107.
97. Skiba, Yu.N. (2001): Introduccion a los Metodos Numericos. Direccion General de Publicaciones y Fomento Editorial, La Universidad Nacional Autonoma de Mexico, Mexico, - 321 pp. ISBN 968-36-8493-9.
98. Yu.N. Skiba and A.Y. Strelkov (2001). Spectral Structure of Growing Normal Modes for Exact Solutions to Barotropic Vorticity Equation on a Sphere. In: Computational Fluid Dynamics, E. Ramos, G. Cisneros, R. Fernandez-Flores, A. Santillan-Gonzalez, Eds., World Scientific Publishing Co., (USA-Singapore), 2001, pp. 129-139; ISBN 981-02-4535-1.
99. Skiba, Yu.N. (2001). On the Role of Conservation Laws for Disturbances in the Normal Mode Instability Study. Memoria. XI Congreso Nacional de Meteorologia, 2001, “Aplicaciones de la Meteorologia y Climatologia en el siglo XXI en Mexico”, OMMAC, MEXICO (articulo pon15.htm en CD).
100. Skiba, Yu.N. (2001). On the Control of Prescribed Industrial Emission Rates. Memoria del XI Congreso Nacional de Meteorologia, 2001, “Aplicaciones de la Meteorologia y Climatologia en el siglo XXI en Mexico”, OMMAC, MEXICO (articulo pon61.htm en CD).
101. Skiba, Yu.N. (2001). The Role of the Rotation, Viscosity and Flow Smoothness in the Linear Instability of Flows on a Sphere. Memoria. XI Congreso Nacional de Meteorologia, 2001, “Aplicaciones de la Meteorologia y Climatologia en el siglo XXI en Mexico”, OMMAC, MEXICO (articulo pon62.htm en CD).
102. Skiba, Yu.N. (2002). On the Spectral Problem in the Linear Stability Study of Flows on a Sphere. Journal of Mathematical Analysis and Applications (U.S.A., Academic Press-Elsevier; ISSN: 0022-247X), 270 (1), 165-180.
103. Skiba, Yu.N. and V. Davydova-Belitskaya (2002). Air Pollution Estimates in Guadalajara City. Environmental Modeling and Assessment (The Netherlands, Springer (Kluwer); ISSN: 1420-2026 (printed); ISSN: 1573-2967 (online)), 7, 153-162.
104. Skiba, Yu.N. (2002). Approximacion de Funciones Sobre Una Esfera Mediante los Polinomios Esfericos. Metodos Numericos para Ingenieria y Ciencias Aplicadas, E. Onate, F. Zarate, G. Ayala, S. Botello y M.A. Morelos (Eds.), Centro Internacional de Metodos Numericos en Ingenieria (CIMNE) – Centro de Investigacion en Matematicas (CIMAT), Barcelona (ESPANA), Vol. 1, pp. 147-156 (ISBN: 84-89925-92-5).
105. Skiba, Yu.N. and J. Adem (2002): A Balanced and Absolutely Stable Numerical Thermodynamic Model for Closed and Open Oceanic Basins. In: R. Campos de la Rosa (Ed.) Obras del Dr. J. Adem, Vol.3, El Colegio Nacional, Mexico, 2002, ISBN: 970-640-202-0, pp. 1861-1877.
106. Skiba, Yu.N., J. Adem and T. Morales-Acoltzi (2002): Numerical Algorithm for the Adjoint Sensitivity Study of the Adem Ocean Thermodynamic Model. In: R. Campos de la Rosa (Ed.) Obras del Dr. J. Adem, Vol.3, El Colegio Nacional, Mexico, 2002, ISBN: 970-640-202-0, pp. 1879-1903.
107. Skiba, Yu.N., J. Adem and T. Morales-Acoltzi (2002). On the Structure of the Stability Matrix in the Normal Mode Stability Study of Zonal Incompressible Flows on a Sphere. In: R. Campos de la Rosa (Ed.) Obras del Dr. J. Adem, Vol.3, El Colegio Nacional, Mexico, 2002, ISBN: 970-640-202-0, pp. 1907-1918.
108. Skiba, Yu.N. and J. Adem (2002). On the Linear Stability Study of Zonal Incompressible Flows on a Sphere. In: R. Campos de la Rosa (Ed.) Obras del Dr. J. Adem, Vol.3, El Colegio Nacional, Mexico, 2002, ISBN: 970-640-202-0, pp. 1919-1937.
109. Skiba, Yu.N. (2002). Sobre la Suavidad y Estructura Geometrica de los Campos Meteorologicos. Memorias. XII Congreso Nacional de Meteorologia (OMMAC), Cancun, MEXICO, en CD).
110. Skiba, Yu.N. (2003). On a Method of Detecting the Industrial Plants Which Violate Prescribed Emission Rates. Ecological Modelling (The Netherlands, Elsevier Science; ISSN: 0304-3800), 159 (2-3), 125-132.
111. Skiba, Yu.N. and V. Davydova-Belitskaya (2003). On the Estimation of Impact of Vehicular Emissions. Ecological Modelling (The Netherlands, Elsevier Science; ISSN: 0304-3800), 166 (1-2), 169-184.
112. Parra-Guevara, D. and Yu.N. Skiba (2003). Elements of the Mathematical Modelling in the Control of Pollutants Emissions. Ecological Modelling (The Netherlands, Elsevier Science; ISSN: 0304-3800), 167 (3), 263-275.
113. Bulgakov, S.N. and Yu.N. Skiba (2003). Are the flows oscillated and transitions abrupt in Stommel’s thermohaline box model? Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 16 (4), 205-229.
114. Skiba, Yu.N. (2003). Air Quality Estimates and Control of Industrial Emissions. In: Proceedings, “IV MATHMOD VIENNA” (The 4th IMACS Symposium on Mathematical Modelling), International Association for Mathematics and Computers in Simulation), Vienna University of Technology, AUSTRIA, February 5-7, 2003, ARGESIM Report, Vol. 2 (in CD), ISBN 3-901608-24-9.
115. Skiba, Yu.N. (2004). Instability of the Rossby-Haurwitz wave in invariant sets of perturbations. Journal of Mathematical Analysis and Applications (U.S.A., Academic Press-Elsevier; ISSN: 0022-247X), 290 (2), 686-701.
116. Skiba Yu.N. (2004). On the role of the energy and factor norms in the stability study of the Rossby-Haurwitz wave. WSEAS Transactions on Mathematics (U.S.A., WSEAS; ISSN: 1109-2769), 3 (2), 358-363.
117. Bulgakov S.N., Yu.N. Skiba and G.N. Chan (2004). On the Stommel Transitions of Thermohaline Circulation. In: Fluxes and Structures in Fluids – 2003 (Environmental Fluid Mechanics, Selected papers). Institute for Problems in Mechanics, Russian Academy of Sciences, Moscow (RUSSIA), pp. 51-57 (Yu.D. Chashechkin & V.G. Baydulov, eds., ISBN 5-89531-126-1).
118. Skiba Yu.N. and I. Peres-Garcia (2005). On the structure and growth rate of unstable modes to the Rossby-Haurwitz wave. Numerical Methods for Partial Differential Equations (U.S.A., John Wiley & Sons; ISSN: 0749-159X), 21 (2), 368-386.
119. Skiba Yu.N., D. Parra Guevara and V. Davydova Belitskaya (2005). Air quality assessment and control of emission rates. Environmental Monitoring and Assessment (The Netherlands, Springer; ISSN: 0167-6369 (Print), 1573-2959 (online)), 111 (1-3), 89-112.
120. Skiba, Yu.N. (2005): Metodos y Esquemas Numericos: Un Analisis Computacional. Direccion General de Publicaciones y Fomento Editorial, La Universidad Nacional Autonoma de Mexico, Mexico, - 440 pp. ISBN 970-32-2023-1.
121. Skiba, Yu.N. & D.M. Filatov (2005). On Splitting-Based Mass and Total Energy Conserving Shallow-Water Schemes. In: Proc. of the 7th Intern. Conf. on Mathematical and Numerical Aspects of Waves (Waves’05), Brown University, Providence, RI, USA, 20-24/06/05, pp. 285-287.
122. Skiba, Yu.N., D. Parra-Guevara & V. Davydova Belitskaya (2005). Application of the Adjoint Approach in the Air Quality Estimation and Control of Emission Rates in Urban Zones. Memoria. XI Congreso Latinoamericano e Iberico de Meteorologia y XIV Congreso Mexicano de Meteorologia, 2005, Cancun, Quintana Roo, MEXICO (articulo e090.doc en CD).
123. D. Parra-Guevara, Skiba, Yu.N. & J. R. Zenteno (2005). Control de Minimo Costo para Fuentes Puntuales que Emiten Sustancias Pasivas. Memoria. V Simposio de Contaminacion Atmosferica, Universidad Autonoma Metropolitana y El Colegio Nacional, D.F., MEXICO, pp. 39-45, ISBN: 970-31-0484-3.
124. Skiba Yu.N. and Denis Filatov (2006). Esquemas conservativos, basados en el metodo de separacion, para la simulacion numerica de vortices en la atmosfera. Interciencia (Venezuela, Revista de Ciencia y Tecnologia de America; ISSN: 0378-1844), 3 (1), 16-21.
125. Parra-Guevara D. and Yu. N. Skiba (2006). On optimal solution of an inverse air pollution problem: theory and numerical approach. Mathematical and Computer Modelling (USA, Elsevier Science; ISSN: 0895-7177), 43 (7-8), 766-778.
126. Skiba Yu.N. (2006). Нелинейная и линейная устойчивость волн Россби-Гаурвитца. Cовременная Математика, Фундаментальные исследования, 17, 11-28.
127. Skiba Yu.N. and I. Perez Garcia (2006). Testing of a numerical instability study algorithm with the Rossby-Haurwitz waves. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications; ISSN 1311-1728), 19 (4), 433-460.
128. Skiba Yu.N. and D. Parra-Guevara (2006). Efectos negativos de la aproximacion y representacion falsa de ondas sobre una malla. Miscelanea Matematica (Mexico, Mexican Math. Soc.; ISSN-1665-5478), 43, 133-151.
129. Skiba, Yu.N. & D.M. Filatov (2006). Conservative difference schemes for shallow-water model. In: Memorias del “XIV Congreso Nacional de Oceanografia y I Reunion Internacional de Ciencias Marinas, 15-19.05.2006, Manzanillo, Colima, Mexico.
130. Martinez, Z.A., Yu.N. Skiba, F. Arce-Duarte, R. Clemente, S. Bulgakov, M.A. Galicia-Perez & J.H. Gavino-Rodriguez (2006). Campos hidrofisicos de la region de la Bahia de Banderas por mediciones directas. In: Memorias del “XIV Congreso Nacional de Oceanografia y I Reunion Internacional de Ciencias Marinas, 15-19.05.2006, Manzanillo, Colima, Mexico.
131. Skiba Yu.N. (2006). On the key role of Fjortoft’s spectral number in the linear barotropic instability. Memorias, XV CONGRESO NACIONAL DE METEOROLOGIA (OMMAC), Puerto Vallarta, Jalisco, MEXICO, Organizacion Mexicana de Meteorologos, 07-13.05.2006 (en CD).
132. Skiba Yu.N. & D. Filatov (2006). Sobre esquemas de aguas someras conservativos para la simulacion de ondas atmosfericas. Memorias, XV CONGRESO NACIONAL DE METEOROLOGIA, Puerto Vallarta, Jalisco, MEXICO, Organizacion Mexicana de Meteorologos, 07-13.05.2006 (en CD).
133. Skiba Yu.N. and D.M. Filatov (2007). On splitting-based mass and total energy conserving arbitrary order shallow-water schemes. Numerical Methods for Partial Differential Equations (U.S.A., John Wiley & Sons, Wiley InterScience; ISSN: 0749-159X), 23 (3), 534-552.
134. Parra-Guevara D. and Skiba Yu.N. (2007). A variational model for the remediation of aquatic systems polluted by biofilms. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications, ISSN 1311-1728), 20 (7), 1005-1026.
135. Skiba Yu.N. and D. Parra Guevara (2007). Pollution level assessment and control of emission rates. In: Progress in Air Pollution Research, Chapter # 10, pp. 219-260 (Editor - Sergio P. Balduino), USA, New York, Nova Science Publishers, Inc., ISBN: 1-60021-804-0.
136. Skiba Yu.N. (2007). Nonlinear and linear instability of the Rossby-Haurwitz wave. Proceedings in Applied Mathematics and Mechanics (PAMM, ICIAM07 Contributed Papers, Wiley Interscience, Online ISSN: 1617-7061.
137. Parra-Guevara D. & Skiba, Yu.N. (2007). Modelacion matematica en la remediacion de sistemas acuaticos contaminados con biofilms. Memoria. VI Conferencia Internacional y X Congreso Nacional de Matematica y Computacion (COMPUMAT 2007; Sociedad Cubana de Matematica y Computacion), Instituto Superior Pedagogico “Jose de la Luz y Caballero”, Holguin, CUBA.
138. Skiba Yu.N. (2008). Nonlinear and linear instability of the Rossby-Haurwitz wave, Journal of Mathematical Sciences (USA, Springer Science; New York; Print ISSN: 1072-3374; Online ISSN: 1573-8795), 149 (6), 1708-1725.
139. Skiba Yu.N. and D.M. Filatov (2008). Conservative Arbitrary Order Finite Difference Schemes for Shallow-Water Flows. Journal of Computational and Applied Mathematics (North-Holland, Elsevier; Print ISSN 1609-4840; Online ISSN 1609-9389), 218 (2), 579-591.
140. Skiba Yu.N. (2008). On the role of Fjortoft spectral number in the linear instability of ideal flows on a sphere. Proceedings, The Sixth EUROMECH Nonlinear Dynamics Conference (ENOC 2008), publicado on-line, International Physics and Control Society (IPACS).
141. Parra-Guevara D., Yu.N. Skiba & A. Reyes Romero (2008). Un modelo variacional para la remediacion de sistemas acuaticos contaminados con biofilms. Memoria. II Congreso Latinoamericano de Estudiantes de Matematicas (EXPRIME 2008 Exposiciones Primaverales de Memorias (Tesis)); 22-24 de Abril de 2008, San Luis Potosi, S.L.P. Mexico, pp. 95-99.
142. Skiba Yu.N. (2009). Linear Instability of Ideal Flows on a Sphere, Mathematical Methods in the Applied Sciences (USA, UK, Germany, John Wiley & Sons, Wiley InterScience; Print ISSN: 0170-4214; Online ISSN: 1099-1476), 32 (3), 284-306.
143. Skiba Yu.N. and D.M. Filatov (2009). Simulation of Soliton-like Waves Generated by Topography with Conservative Fully Discrete Shallow-Water Arbitrary-Order Schemes. International Journal of Numerical Methods for Heat and Fluid Flow (UK, Emerald Insight. ISSN (printed): 0961-5539), 19 (8), 982-1007.
144. Skiba Yu.N. and I. Perez Garcia (2009). Numerical spectral method for normal-mode stability study of ideal flows on a rotating sphere. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications; ISSN 1311-1728), 22 (5), 725-758.
145. Skiba, Yu.N. (2009): Introduccion a la Dinamica de Fluidos. Direccion General de Publicaciones y Fomento Editorial, UNAM, Mexico - 410 pp. ISBN 978-607-2-00269-2.
146. Skiba Yu.N. and D.M. Filatov (2009). Mass and energy conserving fully discrete schemes for the shallow water equations. In: Energy Conservation: New Research, Chapter # 7, pp. 155-197 (Editor: G. Spadoni), USA, New York, Nova Science Publishers, Inc., ISBN: 978-1-60692-231-6.
147. Skiba Yu.N. (2009). Application of Hilbert spaces to the stability study of flows on a sphere. In: Emerging Topics on Differential Geometry and Graph Theory, Chapter # 8, pp. 299-344 (Editors: Lucas Bernard and Francois Roux), USA, New York, Nova Science Publishers, Inc., ISBN: 978-1-60741-011-9.
148. Parra-Guevara D. y Yu.N. Skiba (2009). Programacion lineal aplicada en el proceso de remediacion de sistemas acuaticos contaminados con biofilms. En libro: Computacion Aplicada a la Industria de Procesos. Edicion 9, Congreso CAIP2009, Eds. J.O. Valderrama, C.J. Rojas, pp. 505-510, 2009, Montevideo-Uruguay (Propiedad Intelectual: 180476; ISBN: 978-956-319-925-3).
149. Parra-Guevara D., Yu.N. Skiba and A. Perez-Sesma (2010). A linear programming model for controlling air pollution. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications; ISSN 1311-1728), 23 (3), 2010, 549-569.
150. Skiba Yu.N. (2010). Liapunov and Normal-Mode instability of the Rossby-Haurwitz wave. In: Advances in Mathematics Research, Vol.10 , Chapter # 1, pp. 1-28 (Editor: Albert R. Baswell), USA, New York, Nova Science Publishers, Inc., ISBN: 978-1-60876-265-1.
151. Skiba Yu.N. (2011). Unique Solvability Of Vorticity Equation Of Incompressible Viscous Fluid On A Rotating Sphere, Communications in Mathematical Analysis (Mathematical Research Publishers; Project Euclid (Euclid Prime); ISSN 1938-9787), Conference 03, pp. 209-224.
152. Parra-Guevara, D. Yu.N. Skiba & F.N. Arellano (2011). Optimal assessment of discharge parameters for bioremediation of oil-polluted aquatic systems. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications; ISSN 1311-1728), 24 (5), 731-752.
153. Skiba, Yu.N. and D. Parra-Guevara (2011). Introduccion a los Metodos de Dispersion y Control de Contaminantes. Direccion General de Publicaciones y Fomento Editorial, UNAM, Mexico – 424 pp. ISBN 978-607-02-2922-0.
154. Skiba Yu.N. (2011). Analytical and numerical methods in the linear stability study of ideal flows on a sphere. In: Computational Mathematics: Theory, Methods and Applications, Chapter # 1, pp. 1-34 (Editor: Peter G. Chareton), USA, New York, Nova Science Publishers, Inc., ISBN: 978-1-60876-271-2.
155. Parra-Guevara D. and Skiba Yu.N. (2011). An Optimal Strategy for Bioremediation of Aquatic Systems Polluted by Oil. In: Advances in Environmental Research. Volume 15 (Editor: Justin A. Daniels), Chapter # 7, pp. 165-205, USA, Nova Science Publishers, Inc., New York, ISBN: 978-1-61209-742-8.
156. Yu.N. Skiba y D.M. Filatov (2011). Simulation of Nonlinear Diffusion on a Sphere. Proceedings of 1st International Conference on Simulation and Modeling Methodologies, Technologies and Applications (Eds.: J. Kacprzyk, N. Pina, J. Filipe), Noordwijkerhout, THE NETHERLANDS, 29-31 July, 2011, Methodologies & Technologies, SciTePress 2011, ISBN 978-989-8425-78-2, Full paper # 28, pp. 24-30.
157. Parra-Guevara D. y Yu.N. Skiba (2011). Sitio de descarga optimo para la bioremediacion de sistemas acuaticos contaminados con petroleo. En libro: Computacion Aplicada a la Industria de Procesos (J. Poch, J. Serarols, I. Villaescusa, N. Fiol, F. Prados, D. Pujol, Eds.), XX Congreso CAIP2011, pp. 399-404, Girona, Catalonia-Espana, 30 de Mayo – 03 de Junio, 2011 (ISBN: 978-84-8458-356-1; Legal deposit: Gi-499-2011).
158. Skiba Yu.N. and D.M. Filatov (2012). On an Efficient Splitting-Based Method for Solving the Diffusion Equation on a Sphere. Numerical Methods for Partial Differential Equations (U.S.A., John Wiley & Sons, Wiley InterScience; ISSN: 0749-159X), 28 (1), 331-352 (DOI: 10.1002/num.20622).
159. Skiba Yu.N. (2012). On the existence and uniqueness of solution to problems of fluid dynamics on a sphere. Journal of Mathematical Analysis and Applications, 388, 627-644 (U.S.A., Elsevier; ISSN: 0022-247X; http://dx.doi.org/10.1016/j.jmaa.2011.10.045).
160. Skiba Yu.N. (2012). Sequential assimilation of observation data. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications; ISSN 1311-1728), 25 (1), 33-39.
161. Skiba Yu.N. and D. Parra-Guevara (2012). Pollution control methods. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications; ISSN 1311-1728). 25 (5), 675-710.
162. Yu.N. Skiba y D.M. Filatov (2012). Simulation of shallow-water flows in complex bay-like domains. Proceedings of the 2nd International Conference on Simulation and Modeling Methodologies, Technologies and Applications (Eds.: N. Pina, J. Kacprzyk, M.S. Obaidat), Rome, ITALY, 28-31 July, 2012, pp. 24-31. SciTePress–Science & Technology Publications, Portugal, Lisbon, ISBN: 978-989-8565-20-4, Deposito Legal: 344500/12.
163. Yu.N. Skiba y D. Parra-Guevara (2012). Metodos de estimacion y control de contaminantes. Memorias, V CONGRESO INTERNACIONAL Y XX CONGRSO NACIONAL SOBRE METEOROLOGIA (OMMAC 2011), Acapulco, Guerrero, MEXICO, 14-18/11/2011 (Full text of paper: http://ommac.org/congreso2011/document/extenso/Ext2011030.pdf)
164. Parra-Guevara D. and Yu.N. Skiba (2013). A Linear-Programming Based Strategy for Bioremediation of Oil-Polluted Marine Environments. Environmental Modeling & Assessment (Alemania; Springer, ISSN: 1420-2026 print version; ISSN: 1573-2967 electronic version), 18 (2), 135-146; DOI 10.1007/s10666-012-9337-z.
165. Skiba Yu.N. and D.M. Filatov (2013). Numerical Modelling of Nonlinear Diffusion Phenomena on a Sphere. In: Simulation and Modeling Methodologies, Technologies and Applications. Series: Advances in Intelligent Systems and Computing, Vol. 197, 274 pp., (Eds.: Pina N., Kasprzyk J. & Filipe J., Alemania, Springer, ISBN: 978-3-642-34335-3), pp. 57-70.
166. Skiba Yu.N. (2013). Asymptotic behavior and stability of solutions to barotropic vorticity equation on a sphere. Communications in Mathematical Analysis (Mathematical Research Publishers; Project Euclid (Euclid Prime); ISSN 1938-9787), 14 (2), 143-162.
167. Skiba Yu.N. (2013). Dynamics of viscous barotropic fluid on a rotating sphere. Chapter#6 in: Advances in Mathematics Research. Volume 18, pp. 223-270 (USA, Nova Science Publishers, Inc., New York), ISBN: 978-1-62417-930-3.
168. Skiba Yu.N. and D.M. Filatov (2013). An efficient numerical method for the solution of nonlinear diffusion equations on a sphere. Chapter#7 in: Advances in Mathematics Research. Volume 18, pp. 271-298 (USA, Nova Science Publishers, Inc., New York), ISBN: 978-1-62417-930-3.
169. Skiba Yu.N. and D.M. Filatov (2013). Splitting-based schemes for numerical solution of a nonlinear diffusion equation on a sphere. Applied Mathematics and Computation (Elsevier, ISSN: 0096-3003), 219 (16), 15 April 2013, 8467-8485.
170. Skiba Yu.N. and D. Parra-Guevara (2013). Control of emission rates. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 26 (3), 379-400.
171. Yu.N. Skiba and D.M. Filatov (2013). A numerical method for solution of second order nonlinear parabolic equations on a sphere. World Congress on Engineering 2013, London, U.K., 3-5 July, 2013. Lecture Notes in Engineering and Computer Science (Newswood Limited, International Association of Engineers, Hong Kong; Eds. S.I.Ao, Len Gelman; David WL Hukins, Andrew Hunter, A.M. Korsunsky; ISBN: 978-988-19251-0-7; ISSN: 2078-0958), Vol. 1, pp. 151-155.
172. Skiba Yu.N. (2013). Large-time dynamics of incompressible fluid on a sphere. International Journal of Modeling and Optimization (International Association of Computer Science and Information Technology, Singapore; ISSN 2010-3697), 3 (4), 344-348.
173. Parra-Guevara D. and Yu.N. Skiba (2013). Adjoint approach to estimate the non-steady emission rate of a point source. Intern. Journal of Engineering Research and Applications (ISSN: 2248-9622 Online), 3 (6), Nov-Dec 2013, 763-776.
174. Skiba Yu.N. and D.M. Filatov (2014). Numerical Simulation of Coastal Flows in Open Multiply-Connected Irregular Domains. In: Simulation and Modeling Methodologies, Technologies and Applications. Series: Advances in Intelligent Systems and Computing 256, pp. 71-84 (Eds. M.S. Obaidat, J. Filipe, J.Kasprzyk & N. Pina; International Conference, SIMULTECH 2012 Rome, Italy, July 28-31, 2012, Revised Selected Papers, 248 pp., 171 illus.), Alemania, Springer, DOI 10.1007/978-3-319-03581-9.
175. Parra-Guevara D. and Skiba Yu.N. (2014). Modeling the Discharge of Nutrients for Bioremediation of Oil-Polluted Marine Environments: Linear and Quadratic Programming Strategies. Chapter #7 in book: "Bioremediation: Processes, Challenges and Future Prospects", pp. 121-167 (Editors: J.B. Velazquez-Fernandez & S. Muniz-Hernandez), 354 pp., USA, Nova Science Publishers, Inc., New York, ISBN: 978-1-62948-515-7 (eBook).
176. Skiba Yu.N. and D.M. Filatov (2014). Chapter 10. Modelling of nonlinear diffusion phenomena on a 2D sphere and in a spherical shell. IAENG Transactions on Engineering Sciences. Special Issue of the International MultiConference of Engineers and Computer Scientists 2013 and World Congress on Engineering 2013. CRC Press, Pages 101–108; Edited by Sio-Iong Ao Alan Hoi-Shou Chan Hideki Katagiri Li Xu; Print ISBN: 978-1-138-00136-7; eBook ISBN: 978-1-315-76181-7; DOI: 10.1201/b16763-11.
177. Parra-Guevara D., Yu.N. Skiba & A. Reyes-Romero (2014). Existence and uniqueness of the regularized solution in the problem of recovery the non-steady emission rate of a point source: Application of the adjoint method. Chapter 31, pp. 181-186. In: Engineering Optimization IV – Rodrigues et al. (Eds.), CRC Press 2014, Print ISBN: 978-1-138-02725-1; e-Book ISBN: 978-1-315-73210-7; DOI: 10.1201/b17488-34. Taylor & Francis Group, London.
178. Skiba Yu.N. (2014). Evolution of energy of perturbations in barotropic atmosphere. Communication in Mathematical Analysis (Mathematical Research Publishers; Project Euclid (Euclid Prime); ISSN 1938-9787), 17 (2), pp. 344-358.
179. Martinez Zatarain A. and Skiba Yu.N. (2014). Modelado fisico en la propagacion de sustancias en sistemas acuaticos, pp. 377-391. En: Jalisco en el Mundo Contemporaneo, Aportaciones para una enciclopedia de la epoca, Tomo III Ciencias Biomedicas y fisico-quimico-biologicas (Coordinador de Mesas: Alfredo Ignacio Feria Velasco), Universidad de Guadalajara y Consejo Estatal de Ciencia y Tecnologia, Guadalajara, Mexico, 459 pp. ISBN: 978-607-450-991-5 (tomo III) ISBN: 978-607-450-301-2 (obra completa).
180. Parra-Guevara D. & Yu.N. Skiba (2015). A strategy for bioremediation of marine shorelines polluted with oil by using several nutrient release points. In book: Mathematical Modelling and Numerical Simulation of Oil Pollution Problems. Series “The Reacting Atmosphere”, Vol. 2, Ed.:Matthias Ehrhardt; Springer Verlag, Heidelberg, 2015, pp. 23-55.
181. Yu.N. Skiba (2015). A non-iterative implicit algorithm for the solution of advection–diffusion equation on a sphere. International Journal for Numerical Methods in Fluids (Wiley, UK), 78 (5), 257-282. DOI: 10.1002/fld.4016. Full text of paper online:http://onlinelibrary.wiley.com/doi/10.1002/fld.4016/epdf
182. Skiba, Yu.N. & D. Parra-Guevara (2015): Application of adjoint equations to problems of dispersion and control of pollutants. Series: Environmental Research Advances.- 336 pp. Nova Science Publishers, New York, USA, ISBN: 978-1-63482-469-9 (Hardcover), ISBN: 978-1-63482-997-7 (ebook).
183. Skiba Yu.N. (2015). Stability of zonal flows on a sphere. IFAC-PapersOnLine, Vol. 48, Issue 11, Pages 581-586 (2015). Elsevier; DOI:10.1016/j.ifacol.2015.09.249; Eds: A. Bobtsov, S. Kolyubin, A. Pyrkin & A. Fradkov. 1st IFAC (Internat. Federation of Automatic Control) Conference on Modelling, Identification and Control of Nonlinear Systems MICNON 2015, Saint Petersburg, Russia, 24-26 June 2015.
184. Skiba Yu.N. (2015). Role of forcing in large-time behavior of vorticity equation solutions on a sphere. Atmosfera (Mexico, UNAM; ISSN: 0187-6236), 28 (4), 283-296.
185. Parra-Guevara D. & Yu.N. Skiba (2016). Recuperacion de la Tasa de Emision de una Fuente Contaminante: Analisis de la Existencia, la Unicidad y la Estabilidad de las Soluciones. Informacion Tecnologica (ISSN 0718-0764, Chile), 27 (5), 12 pp. In press.
186. Parra-Guevara D. & Yu.N. Skiba (2017). Bioremediation of Oil-Polluted Marine Zones: Weak and Strong Control of the Discharge of Substances. EngOpt 2016, 5th International Conference on Engineering Optimization, Brazil, 19-23 June 2016, Proceedings, pp. 478-487, ISBN: 978-85-7650-548-8; Ed. Jose Herskovits, Rio de Janeiro, e-papers, OptimizE – Engineering Optimization Lab, COPPE/Mechanical Engineering Program, Federal University of Rio de Janeiro, Brazil.
Published online: http://engopt.org/downloads/download_proceedings.php http://engopt.org/proceedings.php?by=author&cod=148&desc=David%20Parra-Guevara
187. Yu.N. Skiba & D. Parra-Guevara (2017). Application of Adjoint Approach to Oil Spill Problems. Environmental Modeling and Assessment (Springer), 22: 379-395. DOI: 10.1007/s10666-016-9540-4.
188. Skiba Yu.N. & D.M. Filatov (2017). Phenomena of Nonlinear Diffusion in Complex 3D Media.Procedia Computer Science (Elsevier; ISSN: 1877-0509; Online), 108C, 2383-2387; DOI: 10.1016/j.procs.2017.05.159. International Conference on Computational Science, ICCS 2017, 12-14 June 2017, Zurich, Switzerland ICCS 2017.
189. Skiba Yu.N. & D.M. Filatov (2017). Modelling of combustion and diverse blow-up regimes in a spherical shell. In: Progress in Industrial Mathematics at ECMI 2016. Ser. “Mathematics in Industry”, The European Consortium for Mathematics in Industry, Vol.26, pp. 227-234. Springer International Publishing AG 2017, P. Quintela et al. (Eds). ISBN: 978-3-319-63081-6, eBook ISBN: 978-3-319-63082-3; Heidelberg, New York, Dordrecht, London. DOI: 10.1007/978-3-319-63082-3_109.
190. Skiba, Yu.N. (2017): Mathematical problems of the dynamics of incompressible fluid on a rotating sphere. Springer International Publishing AG, Cham, Switzerland. ISBN 978-3-319-65411-9 (print); ISBN 978-3-319-65412-6 (eBook); DOI 10.1007/978-3-319-65412-6. Library Control Number: 2017949885.
191. Parra-Guevara D. and Yu.N. Skiba (2017). Quadratic Programming Formulation for Controlling the Emissions of Air Pollution Point Sources. Chapter # 7 en el libro: Horizons in Computer Science Research. Volume 14, pp. 207-248 (Ed.: Thomas S. Clary), Nova Science Publishers, Inc., New York, USA; ISBN: 978-1-53611-007-4 (Hardcover), 978-1-53611-019-7 (ebook).
192. Parra-Guevara D. & Yu.N. Skiba (2017). Filtrado del Error de Alta Frecuencia en Series de Tiempo: Aplicacion de las Ecuaciones de Euler-Lagrange. En: Computacion Aplicada a la Industria de Procesos (Actas del Congreso CAIP’2017, 25-28/09/2017), No. Registro de derecho de autor 03-2017-082910533300-01; Eds.: Luis A. Moncayo–Martinez, David Fernando Munoz Negron, Adan Ramirez Lopez, Sergio Romero Hernandez; Departamento de Ingenieria Industrial y Operaciones, Instituto Tecnologico Autonomo de Mexico, Ciudad de Mexico, MEXICO, pp. 126-135.
193. Skiba Yu.N. & D.M. Filatov (2017). A Numerical Study of Nonlinear Diffusion Phenomena in Heterogeneous Media. Energy Transfer at Diverse Blow-Up Modes and Self-Organisation Processes. The European Physical Journal Special Topics, Topic: Challenges in the analysis of complex systems: Prediction, Causality and Communication, 226 (15), pp. 3303-3314 (EdpSciences & Springer, ISSN: 1951-6355 (Print) 1951-6401 (Online). DOI: 10.1140/epjst/e2016-60323-x. Full text of article is on: http://rdcu.be/Du4h
194. Parra-Guevara D., Yu.N. Skiba & D. Pena-Maciel (2017). Controlling the Forcing of the Linear Transport Equation to Meet Air Quality Norms at Every Point. International Journal of Applied Mathematics (Bulgaria, Sofia, Academic Publications; ISSN 1311-1728; Vol. 30, No. 6, 527-545 (2017).
195. Skiba Yu.N. & D.M. Filatov (2017). Diverse Blow-up Regimes in Nonlinear Diffusion Processes. Proceedings of International Conference “Computational and Applied Mathematics” 2017 (within the «Marchuk Scientific Readings»), June 25-30, 2017, Akademgorodok, Novosibirsk, Russia. Institute of Computational Mathematics and Mathematical Geophysics, SB Russian Academy of Science, pp. 1080-1085. УДК 519.6, ББК 22.19. – 1135 pp. (http://conf.nsc.ru/cam17/ru/proceedings).
196. Skiba Yu.N. (2018). On Liapunov and exponential stability of Rossby-Haurwitz waves in invariant sets of perturbations. Journal of Mathematical Fluid Mechanics (Springer; ISSN: 1422-6928 (Print), 1422-6952 (Online)), https://doi.org/10.1007/s00021-017-0359-9. The full text of paper is available online via the shared link: http://rdcu.be/Es7x .
197. Yu.N. Skiba & D. Parra-Guevara (2018). Convergencia y la Suma de las Series Numericas. Contactos (Revista de educacion en ciencias e ingenieria; Mexico, ISSN: 0186-4084), No. 108, pp. 5-17.
198. Skiba Yu.N. (2018). Fundamentos de los metodos computacionales en algebra lineal. Direccion General de Publicaciones y Fomento Editorial, UNAM, Mexico - 300 pp. ISBN 978-607-30-0585-2.