Andrey Eliseev
|Andrey Eliseev - Editor| was born in 1975. He graduated from physics and mathematics school. In 1992 he entered Novosibirsk State University as a mechanic-mathematical faculty. He graduated from the University as a master of mathematics. He has a degree in economic mathematics. From 2011 to 2014 post-graduate student of the full-time Department, specialty "Dynamics, strength of machines, devices and equipment" in Scientific and educational center of modern technologies, system analysis and...See more
|Andrey Eliseev - Editor| was born in 1975. He graduated from physics and mathematics school. In 1992 he entered Novosibirsk State University as a mechanic-mathematical faculty. He graduated from the University as a master of mathematics. He has a degree in economic mathematics. From 2011 to 2014 post-graduate student of the full-time Department, specialty "Dynamics, strength of machines, devices and equipment" in Scientific and educational center of modern technologies, system analysis and modeling (Irkutsk State Transport University). In 2014 he submitted to the consideration of thesis: "the Dynamics of a vibratory interaction of elements of technological systems subject to unilateral constraints relations" specialty 01.02.06 "Dynamics, durability of machines, devices and equipment". 2015 - defense of the candidate's dissertation at the Southwest State University, Kursk. Currently he works as an associate professor at the Department of Mathematics of Irkutsk State Transport University and an associate professor at the Department of Engineering Design and Standardization at Irkutsk National Research Technical University. The full list of publications includes more than 300 scientific papers. Over the past 10 years, the area of our research interests is the development of methods of structural mathematical modeling. The principal feature of the method is the use of the analytical apparatus of the theory of automatic control to solve the problems of the dynamics of various technical objects of transport and technical purpose, operating under intense dynamic loading, assuming that as the design schemes of technical objects will be considered mechanical oscillatory systems. See less
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