There is no doubt that in addition to the basic mathematical courses, the student must receive special training in the use of modern computer systems and applications, based on mathematical methods. For learning it is interesting to consider the actual field of engineering computational techniques used at various stages of the project. Models based on ODE solutions occupy a significant place in a wide range of engineering disciplines and in the first place in the modelling of dynamic systems and MATLAB gives us a unified computing environment for practical examples [1], [2]. However, the student cannot at once explore the abundance of opportunities and options presented in software [5] [6]. A key problem of modern technical education is an acquisition of competencies in the learning process [3], [4]. It is especially important for the study of modern technical machines and training on complex equipment and computer-aided design systems. [7] [8]. In this article we will try to show some examples, that are useful for students in designing and focused on the consistent application of various MATLAB and SIMULINK computing tools.

Numerical calculations you will need every day, so the methods of their realization should be learned in the first place…I It will be necessary to show you how to integrate with the required degree of accuracy any ordinary differential equation, this you will meet at least once a month, and even more often.

«My memories» by A. N. Krylov

1.
Advanced Engineering Mathematics with MATLAB, Fourth Edition.
Dean G.
Duffy
,
CRC Press Taylor & Francis Group
,
2016
,
2.
Mathematics in Engineering Education N. Grunwald & V. Konev 6th Baltic Region Seminar on Engineering Education © 2002 UICEE
,
Wismar, Germany
, 22 - 25 September,
2002
)
3.
Dimitrienko
Y.I.
,
Gubareva
,
E.A.
Neural network model of mathematical knowledge and development of information and educational environment for mathematical training of engineers
.
7th International Conference on Mathematical Modeling in Physical Sciences, IC-MSQUARE 2018; Moscow; Russian Federation; 27 August 2018 - 31 August 2018
.
Journal of Physics: Conference Series
Volume
1141
, Issue
1
, 21 December
2018
4.
Smirnova
,
E.V.
,
Dobrjkov
,
A.A.
,
Karpenko
,
A.P.
,
Syuzev
,
V.V.
Mentally structured educational technology and engineers preparation quality management
.
Communications in Computer and Information Science
Volume
754
,
2017
, Pages
119
132
2nd Conference on Creativity in Intelligent Technologies and Data Science, CIT and DS 2017
;
Volgograd
;
Russian Federation
; 12 - 14 September 2017
5.
A.
Malakhov
,
N.
Vishnyakov
,
T.
Kholomina
,
P.
Willmot
.
Identifying Students’ Meta- Competences During Laboratory Work on a Unique Scientific Equipment
, Chapter 38, (pages
453
462
)
Handbook of Research on Engineering Education in a Global Context
20181
DOI: ,
6.
Malakhov
,
A. A.
,
Smirnova
,
E. V.
,
Vishnyakov
,
N. V.
,
Kholomina
,
T. A.
, &
Lunyakov
,
A. E.
(
2016
).
Criterion identification for student’s meta-competences evaluation during laboratory work execution on an unique scientific equipment
.
Science and Education
, (
7
):
51
72
. Available at http://technomag.neicon.ru/doc/843958.html)
7.
Smirnova
,
E.V.
,
Dobrjkov
,
A.A.
,
Karpenko
,
A.P.
,
Syuzev
,
V.V.
Mentally structured educational technology and engineers preparation quality management
.
Communications in Computer and Information Science
Volume
754
,
2017
, Pages
119
132
2nd Conference on Creativity in Intelligent Technologies and Data Science, CIT and DS 2O17
;
Volgograd
;
Russian Federation
; 12 - 14 September 2017
8.
Gavrilina
,
E.A.
,
Zakharov
,
M.A.
,
Karpenko
,
A.P.
,
Smirnova
,
E.V.
,
Sokolov
,
A.P.
Software System META- 3 for Quantitative Evaluation of Student’s Meta-competencies on the Basis of Analysis of his or her Behavior in Social Networking Services
.
Procedia Computer Science
Volume
103
,
2017
, Pages
432
438
12th International Symposium Intelligent Systems, INTELS 2016
;
Moscow
;
Russian Federation
; 5 - 7 October 2016/
9.
Kahaner
,
D.
,
C.
Moler
, and
S.
Nash
, Numerical Methods and Software,
Prentice-Hall
,
New Jersey
,
1989
.
10.
Cleve
Moler
.
Numerical Computing with MATLAB
,
Electronic edition: The MathWorks, Inc.
,
Natick, MA
,
2004
. http://www.mathworks.com/moler, Print edition: SIAM, Philadelphia, 2004.
336
pages /ISBN: 978-0-898716-60-3
11.
Forsythe
G. E.
,
Malcolm
M. A.
,
Moler
C. B.
 Computer Methods for Mathematical Computations.
Prentice- Hall
,
1977
.
12.
Practical MATLAB applications for engineers
/
Misza Kalechman
. ©
2009
by
Taylor & Francis Group, LLC
, ISBN 978-1-4200-4776-9
13.
L.F.
Shampine
Vectorized Adaptive Quadrature in MATLAB®
,”
Journal of Computational and Applied Mathematics
,
211
,
2008
, pp.
131
140
.
14.
Shampine
,
L. F.
and
M. W.
Reichelt
, “
The MATLAB ODE Suite
,”
SIAM Journal on Scientific Computing
, Vol.
18
,
1997
, pp.
1
22
.
15.
Shampine
,
L. F.
,
Gladwell
,
I.
and
S.
Thompson
, Solving ODEs with MATLAB,
Cambridge University Press
,
Cambridge UK
,
2003
.
16.
Dormand
,
J. R.
and
P. J.
Prince
, “
A family of embedded Runge-Kutta formulae
,”
J. Comp. Appl. Math.
, Vol.
6
,
1980
, pp.
19
26
.
17.
Shampine
,
L. F.
and
M. K.
Gordon
, Computer Solution of Ordinary Differential Equations: the Initial Value Problem,
W. H. Freeman
,
San Francisco
,
1975
.
18.
Control System Toolbox™ User’s Guide© COPYRIGHT 2001-2019 by The MathWorks, Inc.
1816p
. https://www.mathworks.com/help/pdf_doc/control/index.html
19.
Differential Equations and Linear Algebra Copyright ©2014 by Gilbert Strang ISBN 978-0-9802327-9-0 20.
20.
Michalev
I.A.
,
Okoyemov
B.N.
,
Pavlina
I.G.
,
Eidinov
N.M.
Automatic aircraft control systems
.
M., Machine Building
,
1971
,
464
p.
21.
Simulink® User’s Guide© COPYRIGHT 1990-2019 by The MathWorks, Inc.-4528p. https://www.mathworks.com/help/pdf_doc/simulink/sl_using.pdf
22.
Artemenko
,
Y.N.
,
Karpenko
,
A.P.
,
Belonozhko
,
P.P.
Features of manipulator dynamics modeling into account a movable platform
.
Studies in Systems, Decision and Control
Volume
49
,
2016
, Pages
177
190
23.
Mohan
N.
,
Underland
T.M.
,
Robins
W.P.
 Power electronics: converters, applications and design. 3rd edition.-
New York
:
John Wiley & Son Inc.
,
2003
24.
Modern Electrical Drives (ed. by
B.
Ertan
,
Y.
Ustug
,
R.
Colyer
,
A.
Consoli
) -
Dordrecht, Boston, London
:
Kluver Academic Publishers
,
2000
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