Course details
Modern Mathematical Methods in Informatics
MID Acad. year 2022/2023 Winter semester
Naive and axiomatic (Zermelo-Fraenkel) set theories, finite and countable sets, cardinal arithmetic, continuum hypothesis and axiom of choice. Partially and well-ordered sets and ordinals. Varieties of universal algebras, Birkhoff theorem. Lattices and lattice homomorphisms. Adjunctions, fixed-point theorems and their applications. Partially ordered sets with suprema of directed sets, (DCPO), Scott domains. Closure spaces and topological spaces, applications in informatics (Scott, Lawson and Khalimsky topologies).
Guarantor
Course coordinator
Language of instruction
Completion
Time span
- 26 hrs lectures
Assessment points
- 100 pts final exam
Department
Subject specific learning outcomes and competences
Students will learn about modern mathematical methods used in informatics and will be able to use the methods in their scientific specializations.
The graduates will be able to use modrn and efficient mathematical methods in their scientific work.
Learning objectives
The aim of the subject is to acquaint students with modern mathematical methods used in informatics. In particular, methods based on the theory of ordered sets and lattices, algebra and topology will be discussed.
Recommended prerequisites
Prerequisite knowledge and skills
Basic knowledge of set theory, mathematical logic and general algebra.
Study literature
- G. Grätzer, Lattice Theory, Birkhäuser, 2003
- P.T. Johnstone, Stone Spaces, Cambridge University Press, 1982
- N.M. Martin and S. Pollard, Closure Spaces and Logic, Kluwer, 1996
- S. Roman, Lattices and Ordered Sets, Springer, 2008.
- V.K.Garg, Introduction to Lattice Theory with Computer Science Applications, Wiley, 2015
- T. Y. Kong, Digital topology; in L. S. Davis (ed.), Foundations of Image Understanding, pp. 73-93. Kluwer, 2001
Syllabus of lectures
- Naive and axiomatic (Zermelo-Fraenkel) set theories, finite and countable sets.
- Cardinal arithmetic, continuum hypothesis and axiom of choice.
- Partially and well-ordered sets, isotone maps, ordinals.
- Varieties of universal algebras, Birkhoff theorem.
- Lattices and lattice homomorphisms
- Adjunctions of ordered sets, fix-point theorems and their applications
- Partially ordered sets with suprema of directed sets (DCPO) and their applications in informatics
- Scott information systems and domains, category of domains
- Closure operators, their basic properties and applications (in logic)
- Basics og topology: topological spaces and continuous maps, separation axioms
- Connectedness and compactness in topological spaces
- Special topologies in informatics: Scott and Lawson topologies
- Basics of digital topology, Khalimsky topology
Progress assessment
Tests during the semester
Controlled instruction
The subject is evaluated according to the result of the final exam, the minimum for passing the exam is 50/100 points.
Course inclusion in study plans
- Programme DIT, any year of study, Compulsory-Elective group T
- Programme DIT, any year of study, Compulsory-Elective group T
- Programme DIT-EN (in English), any year of study, Compulsory-Elective group T
- Programme DIT-EN (in English), any year of study, Compulsory-Elective group T
- Programme VTI-DR-4, field DVI4, any year of study, Elective
- Programme VTI-DR-4, field DVI4, any year of study, Elective
- Programme VTI-DR-4 (in English), field DVI4, any year of study, Elective
- Programme VTI-DR-4 (in English), field DVI4, any year of study, Elective