Mathematics and Statistics
This doctoral study programme is organized by the Faculty of Science in English and the studies are subject to tuition. There is an alternative option for the international applicants to be accepted in the free programme administered in Czech with the possibility of receiving a scholarship. The study language of the programme is still English (Czech is the administrative language). Before officially applying, please contact us at admission@sci.muni.cz to find all the necessary information related to the scholarship and see our FAQ’s.
Co se naučíte
The aim of the program is to prepare high-quality scientific specialists in the Institute of Mathematics and Statistics at MU. Graduates should be prepared primarily for further scientific work in academic institutions, but also for possible application in practice. Upon graduation, graduates who wish to continue their research work are motivated to gain long-term foreign experience as post-doctoral students.
The individual science teams of the Institute of Mathematics and Statistics cover the following research themes in which PhD students are also trained:
- Categories and ordered sets, number theory, semigroup theory
- Geometric structures, geometric complex analysis, algebraic topology
- Theory of Differential and Differential Equations, variance number and optimal
management
- Mathematical modeling, statistics and data analysis, applications in biology and medicine
Attention is also paid to the preparation for pedagogical work at universities. The study is based on an individual study plan and is completed by a state doctoral examination and a defence of the doctoral dissertation
Praxe
Practical training is not a mandatory part of this program.
Uplatnění absolventů
Graduates will apply to mathematical workplaces of basic research, universities and scientific research institutes of the Academy of Sciences of the Czech Republic.
The best graduates are fully prepared to successfully apply for postdoctoral positions at high-quality universities abroad.
Graduates can also act as college teachers at universities with a technical, economic and pedagogical focus.
Graduates of applied specializations will also find use in practice, in institutions where the use of deterministic and stochastic models of real processes where specialized statistical software is being developed, and in institutions focusing on research in the field of probabilistic and mathematical-statistical methods.
Podmínky přijetí
Údaje z předchozího přijímacího řízení (přihlášky 2. 1. – 15. 12. 2024)
The admission interview is usually in an online form and consists of two parts:
1) the expert part (max. 70 points) verifies the applicant's orientation in the selected specialization of mathematics and statistics.
2) the language part (max. 30 points) verifies the applicant's ability to study independently in English.
More information about admission process for international applicants in general can be found in the section Admission Process.
Date of the entrance exam
The applicants will receive information about the entrance exam via e-mail usually at least 10 days before the exam.
Please, always check your e-mails, including spam folders.
Conditions of admission
A total of at least 80 points is required for admission.
Successful applicants are informed of their acceptance via e-mail and subsequently receive an invitation to the enrolment.
Programme capacity
The capacity of a given programme is not fixed; students are admitted based on a decision by the Doctoral Board after assessing their aptitude for study and motivation.
Možnosti studia
Jednooborové studium se specializací
V rámci jednooborového studia se specializací má student možnost prohloubit si vědomosti v konkrétním zaměření daného studijního programu, specializaci si vybírá jednu. Název specializace pak bude uveden i na vysokoškolském diplomu.
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Algebra, Number Theory and Mathematical Logic (prezenční nebo kombinované studium v angličtině)
Co se naučíte -
Geometry, Topology and Geometric Analysis (prezenční nebo kombinované studium v angličtině)
Co se naučíte -
Probability, Statistics and Mathematical Modelling (prezenční nebo kombinované studium v angličtině)
Co se naučíte
Výzkumná zaměření dizertačních prací
Specializace: Algebra, Number Theory and Mathematical Logic
Abelovská rozšíření číselných těles
Školitel: prof. RNDr. Radan Kučera, DSc.
The main theme is devoted to the study of abelian extensions of the field of rational numbers, possibly of an imaginary quadratic field. The attention is focused on objects related to the ideal class groups (e.g., the group of circular units, Stickelberger ideal, the group of elliptic units).
Poznámky
Examples of some older dissertations: https://is.muni.cz/th/mwiet/?lang=en or https://is.muni.cz/th/jbpxt/?lang=en or https://is.muni.cz/th/atke4/?lang=en
Školitel
Akcesibilní kategorie a jejich aplikace
Školitel: prof. RNDr. Jiří Rosický, DrSc.
Accessible categories and their applications in algebra, model theory and homotopy theory. For example: Abstract elementary classes, Accessible model categories.
My publications: https://arxiv.org/find/grp_math/1/au:+rosicky/0/1/0/all/0/1?skip=0&query_id=8094c174213ee61e
Školitel
Algebraické struktury a jejich aplikace
Školitel: prof. RNDr. Jan Paseka, CSc.
OBJECTIVES: The research deals with connections of algebra with logic, in particular quantum, tense, and fuzzy. The basic tool are residuated posets, enriched categories, and orthogonal structures but the emphasis is also on quantales in connection with C*-algebras and noncommutative geometry. The practical part of the research is oriented to simulation and validation of value streams using formal words, trees, and categorical concepts. We study algebraic methods for aggregation of processes and their effects, in particular in a probabilistic environment.
AIM: a) For example, one of our research goals is a characterization of the basic quantum-physical model by means of automorphisms of its underlying orthogonality space.
b) The theoretical aspects of aggregation of multidimensional data, rankings, relations and strings will be developed in more detail, especially connected to practical situations. The mathematical model is designed primarily for industrial planning but could be used for a wider range of applications (bioinformatics etc.).
My publications:
https://www.muni.cz/en/people/1197-jan-paseka/publications
Školitel
Enriched and higher-dimensional categories
Školitel: doc. John Denis Bourke, PhD
Enriched category theory provides one of the ways in which we can capture higher-dimensional categories. For instance, 2-categories, as studied by the Australian school, are enriched categories. Recently, the subject of (infinity,1)-categories, aka quasicategories, has been developed by Joyal and Lurie amongst others and Riehl and Verity have shown that these can also be captured using enriched category theory. There are many open questions and problems to be explored in this area, which involves a rich mixture of homotopy theory, enriched category theory and categorical universal algebra.
Školitel
Homotopy coherent structures and computational topology
Školitel: doc. Lukáš Vokřínek, PhD.
PROJECT EXAMPLES:
- Homotopy coherent structures through homological pertubation theory
- Effective homology in the A_\infty-context
- Algorithmic aspects of the extension problem from the viewpoint of rational homotopy theory
Školitel
Kombinatorické a algebraické vlastnosti formálních jazyků
Školitel: doc. Mgr. Michal Kunc, Ph.D.
The theory of automata and formal languages is an active research field on the borderline between mathematics and theoretical computer science. It combines ideas and techniques of combinatorics, algebra, logic or topology in order to tackle difficult questions about decidability and computational complexity of problems concerning sets of objects definable by diverse models of computation.
Focus:
Doctoral research projects may focus on various aspects of formal languages where techniques of combinatorics on words or semigroup theory can be applied.
Examples of potential doctoral projects:
* Decidability of properties of regular languages and semigroups.
* Computational power of formal machines and grammars.
* Solvability of language equations.
* Algorithmic characterizations of classes of formal languages.
Školitel
Teorie konečných pologrup a algebraická teorie regulárních jazyků
Školitel: doc. Mgr. Ondřej Klíma, Ph.D.
The modern theory of finite semigroups links universal algebra and topology with the theory of formal languages and logic in theoretical computer science. The main motivation of that research is decidability of concatenation hierarchies of regular languages. The algebraic objects in the centre of our interest are the lattice of pseudovarieties of finite ordered semigroups and the free profinite semigroups in these pseudovarieties.
FOCUS:Doctoral research project may focus on the theory of varieties of regular languages or on the theory of profinite semigroups. However, there are also other questions combining theoretical computer science and algebra, for example questions concerning computational complexity of identity checking problem for a fixed finite semigroup.
EXAMPLES of potential doctoral projects:- The equational characterizations of pseudovarieties,
- Completeness of the equational logic for psedovarieties of finite algebras,
- Concatenation hierarchies of star-free languages,
- Computational complexity of basic problems for finite semigroups.
Poznámky
My publications: http://www.math.muni.cz/~klima/Math/publications.html
Školitel
Specializace: General Mathematics
Geometrie přímkových ploch
Školitel: doc. Mgr. Vojtěch Žádník, Ph.D.
Přímkové plochy představují klasické téma s bohatou historií, zajímavými souvislostmi a slibnou budoucností. Cílem práce je shromáždit, přiblížit a rozvinout některá ze zmiňovaných hledisek. Od kandidáta se předpokládá trpělivost při studiu literatury (často starší a cizojazyčné) a tvůrčí přístup při výběru a zpracování nabytých poznatků.
Školitel
Historie a současnost témat z matematické analýzy
Školitel: prof. Mgr. Petr Hasil, Ph.D.
For EXAMPLE, the studied topic can cover sequences and their limits, infinite series, differential equations, difference equations, and many others.
BEFORE initiating the formal application process to doctoral studies, all interested candidates are required to contact the potential supervisor because of the preliminary agreement.
Školitel
Percepce matematických pojmů a výsledků v kontextu typologie osobnosti
Školitel: prof. RNDr. Jan Slovák, DrSc.
CÍLE VÝZKUMU: Na základě Jungovy osobnostní typologie a jejího rozpracování v personalistice (případně jiných přístupů k typům osobnosti, viz https://cs.wikipedia.org/wiki/Temperament) bude provedeno a vyhodnoceno šetření rozdílností ve vnímání, chápání a používání matematických nástrojů v závislosti na typologii žáků i učitelů.
Dle zájmu a možností budou zahnuty různé typy činností (středoškolská/vysokoškolská úroveň vzdělávání, přednášky/prezentace/samostatná práce apod.)
PŘEDPOKLADY: Pro výzkum bude potřebná alespoň rámcová orientace v teori osobnostních typů, např. původní teorie Junga a indikátory Myersové-Briggsové (viz https://cs.wikipedia.org/wiki/Myers-Briggs_Type_Indicator) a přiměřená znalost statistických metod pro vyhodnocování šetření.
V případě zájmu kontaktujte přímo Jana Slováka na slovak@muni.cz.
Školitel
Uspořádané struktury - historie, současnost, aplikace
Školitel: prof. RNDr. Jan Paseka, CSc.
Uspořádané algebraické struktury tvoří jedny z nejvíce studovaných struktur v algebře. Pozornost je věnována hlavně problematice 19. a 20. století a speciálně české matematice; nejsou však opomíjeny ani biografické a bibliografické aspekty.
Školitel
Specializace: Geometry, Topology and Geometric Analysis
Algebraic methods in geometric analysis
Školitel: prof. RNDr. Jan Slovák, DrSc.
AIM: The research could be based on Cartan geometries on filtered manifolds, extending the applications of tractor calculi and BGG machinery, including the relevant representation theory. The algebraic tools typically extend the features of analytical objects on homogeneous spaces to curved situations.
PROJECT EXAMPLES
- Semi-holonomic Verma modules and tractor calculi for parabolic geometries.
- The cohomological structure of BGGs in singular characters.
- Extension of tractor calculi for particular Cartan geometries.
- Geometry of PDEs.
Školitel
Cartan connections and representation theory
Školitel: Mag. Katharina Neusser, Ph.D.
The project is a part of the CaLiForNIA Horizon 2020 doctoral network project and Prof. A. Rod Gover from the University of Auckland will be a co-supervisor. The aim of the project is to investigate various aspects of rigid geometric structures using Cartan connections and methods from representation theory.
Poznámky
The project was a part of the open call https://euraxess.ec.europa.eu/jobs/195173, and it is reserved for the winner of the relevant position DC1, Cartan connections and representation theory.
Školitel
Cartan geometry and tractor calculus in applications
Školitel: prof. RNDr. Jan Slovák, DrSc.
The project is a part of the CaLiForNIA Horizon 2020 doctoral network project, with co-supervisor Andrew Waldron at the University of California, Davis.
The general aim is to find new geometric techniques via Cartan geometry and tractor calculus, with initial interest in geometric control theory problems, including singularities (which could lead to understanding of the coupled ODE systems describing the normal extremals for problems involving singularities).
Poznámky
The project was a part of the open call https://euraxess.ec.europa.eu/jobs/195173, and it is reserved for the winner of the relevant position in DC2, Geometric Control Theory.
Školitel
Geometric analysis in applications
Školitel: prof. RNDr. Jan Slovák, DrSc.
AIM: Based on specific geometries on filtered manifolds, we should like to develop new approaches to standard problems in Geometric Control Theory or in Imaging and Vision, including software implementation of the relevant procedures.
PROJECT EXAMPLES:
- Exploitation of non-holonomic equations for extremals in sub-Riemannian geometry.
- Tractography in diffusion tensor imaging
Školitel
Invarianty and symetrie CR variet
Školitel: doc. RNDr. Martin Kolář, Ph.D.
RESEARCH AREA:
Complex analysis in several variables leads naturally to geometric problems concerning boundaries of domains, and more generally real submanifolds of the complex space (so called CR manifolds). One of the main objectives is to understand symmetries of such manifolds and invariants with respect to holomorphic transformations.
PROJECT EXAMPLES:
- Classification problems for hypersurfaces of finite type in C^N
- Invariants and symmetries of uniformly Levi degenerate manifolds
- Dynamics of CR vector fields
Školitel
Rezolventy hyperoperád
Školitel: RNDr. Martin Markl, DrSc.
AIM: Investigate applications of operadic categories in homological algebra, category theory and differential topology.
PROJECT EXAMPLES:
Explicit formulas for strongly homotopy operads of various particular types.
Connection between free hyperoperads and blob complexes.
LITERATURE:
[1] M. Markl, S. Schnider, J. Stasheff: Operads in Algebra, Topology and Physics, Series Mathematical Surveys and Monographs, volume 96. American Mathematical Society, Providence, Rhode Island, 2002.
[2] M. Markl, M. Batanin: Operadic categories and duoidal Deligne's conjecture, Advances in Mathematics 285(2015), 1630-1687. Available as preprint arXiv:1404.3886.
[3] M. Markl, M. Batanin: Koszul duality in operadic categories, arXiv:1404.3886.
[4] M. Batanin, M. Markl, J. Obradovič: Minimal models for (hyper)operads governing operads, and PROPs, work in progress.
[5] S. Morrison, K. Walker: The blob complex, preprint arXiv:1009.5025.
Školitel
Specializace: Mathematical Analysis
Boundary value problems for functional differential equations
Školitel: Mgr. Robert Hakl, Ph.D.
Differential equations with argument deviations are important for applied science and arise frequently in population dynamics, epidemiology, economy (in particular, as models of capital growth) and many other fields. Models of various real dynamical phenomena are frequently described by boundary value problems for system of functional differential equations. For such equations, the theory of boundary value problems, while very important by itself, is also of much interest in relation to the study of asymptotic properties of solutions on unbounded intervals.
The objectives include the investigation of the existence and uniqueness of a solution to boundary value problems for functional differential equations and systems in R^n and more general spaces and the study of their properties.
WWW: http://www.math.cas.cz/homepage/main_page.php?id_membre=19
Poznámky
The research topic and supervisor needs to be approved by the Scientific Board of the Faculty of Science.
Školitel
Differential equations of real orders
Školitel: prof. RNDr. Zuzana Došlá, DSc.
The objective is to study asymptotic and oscillation theory of differential equations and differential systems of real orders.
Before initiating the formal application process to doctoral studies, the interested candidates are required to contact the potential advisor for informal discussion.
Školitel
Limitně periodické a skoroperiodické posloupnosti
Školitel: doc. RNDr. Michal Veselý, Ph.D.
Many phenomena in nature have oscillatory character and their mathematical models have led to the research of limit periodic, almost periodic, and asymptotically almost periodic sequences. In particular, the attention is paid to special constructions of such sequences in general metric spaces.
Concerning examples, see:
1. M. Veselý; P. Hasil. Asymptotically almost periodic solutions of limit periodic difference systems with coefficients from commutative groups. Topological Methods in Nonlinear Analysis, 2019, 54, no. 2, 515-535. ISSN 1230-3429. doi:10.12775/TMNA.2019.051. 2. M. Veselý; P. Hasil. Values of limit periodic sequences and functions. Mathematica Slovaca, 2016, 66, no. 1, 43-62. ISSN 0139-9918. doi:10.1515/ms-2015-0114. 2. M. Veselý. Construction of almost periodic sequences with given properties. Electronic Journal of Differential Equations, 2008, 2008, no. 126, 1-22. ISSN 1072-6691.
Poznámky
Before initiating the formal application process to doctoral studies, all interested candidates are required to contact Michal Veselý
Školitel
On the study of nonlinear partial differential equations
Školitel: doc. Phuoc Tai Nguyen, PhD
Partial differential equations (PDE) have important applications in science and engineering. In the realm of linear theory, solutions of PDEs obey the principle of linear superposition, and in some cases, they possess explicit analytical expressions. However, the laws of the nature are not always linear, and nonlinear PDEs play an essential role in modeling these phenomena. The research objective is to bring into light and explain nonlinear phenomena stemming from nonlinear PDEs in connection with singularity theory.
Interested candidates are required to contact directly Phuoc-Tai Nguyen (via email: ptnguyen@math.muni.cz) for informal discussions before initiating the formal application process to doctoral studies.
Školitel
Oscilační teorie diferenciálních a diferenčních rovnic
Školitel: prof. Mgr. Petr Hasil, Ph.D.
For EXAMPLE, the focus can be to half-linear equations, conditional oscillation of dynamic equations on time scales, etc.
BEFORE initiating the formal application process to doctoral studies, all interested candidates are required to contact the potential supervisor because of the preliminary agreement.
Školitel
Oscilační teorie lineárních hamiltonovských a symplektických systémů
Školitel: prof. RNDr. Roman Šimon Hilscher, DSc.
Before initiating the formal application process to doctoral studies, the interested candidates are required to contact the potential advisor for informal discussion.
Školitel
Spectral Theory of Discrete Symplectic Systems
Školitel: doc. Mgr. Petr Zemánek, Ph.D.
Before initiating the formal application process to doctoral studies, all interested candidates are required to contact Petr Zemánek.
Školitel
Specializace: Probability, Statistics and Mathematical Modelling
Analýza funkcionálních dat
Školitel: doc. Mgr. Jan Koláček, Ph.D.
Objectives: Statistical methodologies dealing with functional data are called Functional Data Analysis (FDA), where the term “functional” emphasizes the
fact that the data are functions characterizing the curves and surfaces.
Aim: The theoretical aspects of FDA will be developed in more detail,
especially connected to practical situations. Our aim is to take up these challenges by giving both theoretical and practical support for more flexible models.
Examples of potential student doctoral projects:
- Semiparametric models in functional data analysis
- Discriminant analysis for functional data
- Nonparametric regression in functional data analysis
- Functional data analysis for irregular data
Školitel
Bodové procesy a teorie extrémních hodnot
Školitel: doc. RNDr. Martin Kolář, Ph.D.
Výzkum bude zaměřen na teorii extrémních hodnot a její aplikace v oblasti hydrologie a aktuárské matematiky.
Školitel
Geometry of transformer models and their applications to complex urban systems
Školitel: prof. RNDr. Jan Slovák, DrSc.
The aim is to expand transformer models and their applications to complex urban systems. This will include enhancing model architectures to account for underlying geometry and topology of the spatio-temporal transactional urban data.
The study will develop in the Digital City Lab environment, based on the consulting support provided by prof. Stanislav Sobolevsky and other team members, as part of the two Horizon2020 collaborative projects: CaLIGOLA and CaLiForNIA bridging the methods of Differential Geometry, Machine Learning, etc.(the supervisor is the local PI in Brno in both projects).
Školitel
Mnohorozměrné statistické metody v metabolomice
Školitel: doc. PaedDr. RNDr. Stanislav Katina, Ph.D.
Cílem výzkumného zaměření je studium a vývoj vybraných mnohorozměrných statistických metod v metabolomike, např. analýza hlavních komponent a parciální metoda nejmenších čtverců, a to jak z pohledu numerické-matematického, tak z pohledu mnohorozměrných statistických vizualizací a animací. Vlastnosti těchto metod budou hodnoceny pomocí různých simulačních studií. Metody budou implementovány v jazyce R a aplikovány na reálná data z oblasti medicíny. Toto zameranie vznikolo v spolupráci s Ústavom neuroimunológie SAV, Bratislava.
Školitel
Školitelé
- doc. Ing. Luděk Berec, Dr.
- doc. John Denis Bourke, PhD
- doc. RNDr. Martin Čadek, CSc.
- prof. RNDr. Zuzana Došlá, DSc.
- doc. RNDr. Eduard Fuchs, CSc.
- prof. Anton Galaev, Dr. rer. nat.
- prof. Mgr. Petr Hasil, Ph.D.
- prof. RNDr. Ivanka Horová, CSc.
- prof. RNDr. Josef Janyška, DSc.
- doc. RNDr. Josef Kalas, CSc.
- doc. PaedDr. RNDr. Stanislav Katina, Ph.D.
- doc. Mgr. Ondřej Klíma, Ph.D.
- doc. Mgr. Jan Koláček, Ph.D.
- doc. RNDr. Martin Kolář, Ph.D.
- doc. Ilja Kossovskij, Ph.D.
- doc. Mgr. David Kraus, Ph.D.
- prof. RNDr. Radan Kučera, DSc.
- doc. Mgr. Michal Kunc, Ph.D.
- RNDr. Martin Markl, DrSc.
- doc. Mgr. Robert Mařík, Ph.D.
- prof. RNDr. Jan Paseka, CSc.
- Mgr. Ondřej Pokora, Ph.D.
- prof. RNDr. Zdeněk Pospíšil, Dr.
- prof. RNDr. Jiří Rosický, DrSc.
- prof. RNDr. Jan Slovák, DrSc.
- doc. Mgr. Josef Šilhan, Ph.D.
- prof. RNDr. Roman Šimon Hilscher, DSc.
- doc. RNDr. Jaromír Šimša, CSc.
- doc. RNDr. Michal Veselý, Ph.D.
- doc. Lukáš Vokřínek, PhD.
- prof. RNDr. Gejza Wimmer, DrSc.
- doc. Mgr. Petr Zemánek, Ph.D.
Informace o studiu
Zajišťuje | Přírodovědecká fakulta | |
---|---|---|
Typ studia | doktorský | |
Forma | prezenční | ano |
kombinovaná | ano | |
distanční | ne | |
Možnosti studia | jednooborově | ne |
jednooborově se specializací | ano | |
v kombinaci s jiným programem | ne | |
Doba studia | 4 roky | |
Vyučovací jazyk | angličtina | |
Oborová rada a oborové komise | ||
Poplatky za studium
Studium v cizích jazycích je zpoplatněné, platba je za akademický rok |
3 000 EUR Více informací |