Bachelor
2024/2025
Discrete Mathematics 2
Type:
Compulsory course (Data Science and Business Analytics)
Area of studies:
Applied Mathematics and Information Science
Delivered by:
Big Data and Information Retrieval School
Where:
Faculty of Computer Science
When:
2 year, 1, 2 module
Mode of studies:
offline
Open to:
students of one campus
Instructors:
Boris Radislavovich Danilov
Language:
English
ECTS credits:
4
Course Syllabus
Abstract
The course is a natural follow up of the course Discrete Mathematics. This course covers topics that are not covered in traditional courses of calculus, algebra and linear algebra, but are part of the basic mathematic culture. The course provides theoretical foundations for courses of a more applied nature: programming, algorithms and data structures, data analysis, discrete optimization.
Learning Objectives
- After finishing this course students will be prepared to read more specialized literature on graphs and Boolean functions.
- Students will learn and analyze several important algorithms on graphs and Boolean functions.
- Students will be able to recognize hard computational problems and justify the use of heuristic and brute force algorithms for such problems.
Expected Learning Outcomes
- Will master the Quine-McCluskey method of DNF minimization.
- Will know basic algorithms of searching shortest spanning trees.
- Will know the Ford-Fulkerson’s algorithm of finding the maximum flow.
- Will be able to establish equivalence of Boolean formulas.
- Will be able to establish completeness of sets of Boolean functions.
- Will be able to prove for some problems that they are computationally hard in some sense (NP-complete, NP-hard, etc.)
Course Contents
- Graph theory
- Boolean algebra
- DNF minimization and associated algorithmic obstacles
- Complexity and hard algorithmic problems, the problem P = NP
Assessment Elements
- Midterm control work <MT>
- Examination control work <FT>
- Homework assignments <HA>
- Quizes <QZ>
Bibliography
Recommended Core Bibliography
- Bernhard Korte, Jens Vygen. Combinatorial Optimization. Theory and Algorithms. Fifth edition. Springer-Verlag, Berlin Heidelberg, 2012.
- Graph theory, Bondy, J. A., 2008
- J. A. Bondy, & U. S. R. Murty. (1976). Graph theory with applications. Retrieved from http://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=edsbas&AN=edsbas.CB6871BA
Recommended Additional Bibliography
- Лекции по теории графов : учеб. пособие, Емеличев, В. А., 2009