Methodology of Scientific Research (122 Computer Science)

Type: Normative

Department: radiophysics and computer technologies

Curriculum

SemesterCreditsReporting
103Setoff

Lectures

SemesterAmount of hoursLecturerGroup(s)
1016Professor Bolesta I. M.ФеІм-11, ФеІм-12, ФеІм-13, ФеІм-14

Laboratory works

SemesterAmount of hoursGroupTeacher(s)
1016ФеІм-11Associate Professor Katernyak  I. B.
ФеІм-12Associate Professor Katernyak  I. B.
ФеІм-13
ФеІм-14Shmyhelskyy Yaroslav

Опис навчальної дисципліни

The purpose of teaching the discipline “Methodology of Scientific Research” is to form the worldview and methodological foundations of students with a classical university education.

The main tasks of the discipline “Methodology of Scientific Research” are to form the master’s knowledge of the relationship between science, religion and culture as the main forms of social consciousness, as well as the application of scientific methodologies in professional and scientific activities.

After studying the discipline, students should:

know

the relationship between different forms of human consciousness and their influence on the formation of human self-awareness and intelligence;
historical aspects of the emergence of science and the laws of its development;
basic scientific and metric indicators;
principles of building science, the role of logical and intuitive thinking in scientific research;
basic methodological approaches to scientific research;
correlation between laboratory and computer experiments, simulation modeling, their comparison and contrast;;
methods of planning a multivariate experiment;
approaches to the description of linear and open nonlinear systems;
basic principles of synergetics – the science of self-organization in non-equilibrium dynamical systems: dissipative structures, fractal structures, oscillatory and wave structures.

be able to:

estimate the time to double knowledge in the field of research related to the master’s thesis;
apply basic methodological approaches to solving problems related to the master’s thesis;
calculate the Hirsch index of researchers;
plan multivariate experiments in the Fisher model;
create computer programs to implement the method of molecular dynamics, Monte Carlo, simulation modeling;
describe a linear system through impulse response and transfer function;
estimate the fractal dimension of structures by counting boxes;
create a phase portrait of the system in the predator-prey module.

Recommended Literature

  1. V.I. Shklyarsky. Methodological basis of scientific research. Lviv: Lviv Polytechnic National University Press, 2006. – 127 с.
  2. Kolisnichenko E.V. Fundamentals of scientific research: lecture notes /. – Sumy: Sumy State University, 2012. 83 p.
  3. Zhurakhivskyi A.V., Yatseiko A.Y., Dyachenko N.B.. Fundamentals of technical creativity and scientific research. Lviv: Lviv Polytechnic National University Press, 2012. – 380 с.
  4. Kuhn T. The structure of scientific revolutions. Moscow. Progress, 1977. 300 pp.
  5. Martsyn V.S., Mitsenko N.G., Danilenko O.A. et al. Fundamentals of scientific research. Lviv. Romus – Polygraph. 2002. -128 с.
  6. Nalimov V.V., Mulchenko Z.M.. Scientometrics. Moscow. Nauka 192 p.
  7. Svidzinsky A.V. Synergistic concept of culture. Lutsk: OJSC “Volyn regional printing house”. 2009.- 696 с.
  8. Anthology of Modern Philosophy of Science, or the Smile of ASIMO / edited by V.P. Melnyk, A.S. Synitsyna – Lviv: Ivan Franko National University of Lviv, 2017. 568 p.
  9. Gooding D., Lennox J.. Man and his worldview: why we live and what is our place in the world. Lviv: ICF, 2009. Vol. 1, 416 p.. vol. 2, 378 p., vol. 3, 480 p.
  10. Melnyk V.P. Philosophy. Science. Technology. Methodological and Worldview Analysis. – Lviv: Ivan Franko National University of Lviv Publishing Center, 2010. 592 p.
  11. Kaiku M. Visions: how science will change the XXI century. Lviv: Litopys, 2004. 544 p.
  12. Kaikou M. The Future of the Mind. Lviv: Chronicle, 2017. 408 p.

Curriculum

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