- Docente: Luca Moci
- Crediti formativi: 6
- SSD: MAT/02
- Lingua di insegnamento: Inglese
- Moduli: Alessandro D'Andrea (Modulo 1) Luca Moci (Modulo 2)
- Modalità didattica: Convenzionale - Lezioni in presenza (Modulo 1) Convenzionale - Lezioni in presenza (Modulo 2)
- Campus: Bologna
-
Corso:
Laurea Magistrale in
Statistical Sciences (cod. 9222)
Valido anche per Laurea Magistrale in Statistical sciences (cod. 6810)
Conoscenze e abilità da conseguire
By the end of the course the student is familiar with the basic concepts and results of enumerative combinatorics and of their links with discrete probability. Following the so-called Rota's way, the student learns the main enumerative statistics for subsets, multiset, compositions, partitions, permutations and graphs, the sieve methods and Moebius inversion techniques.
Contenuti
Elements of Enumerative Combinatorics with Applications to Discrete Probability
This course provides an introduction to enumerative combinatorics and graph theory, with a focus on techniques and structures relevant to statistical theory and applications. Special emphasis will be placed on asymptotic enumeration and probabilistic interpretations of combinatorial objects, which are particularly useful in statistical modeling, experimental design, and computational statistics. The course balances theoretical foundations with practical problem-solving, preparing students to apply combinatorial methods in advanced statistical research.
FUNCTIONS BETWEEN FINITE SETS. Occupancy model. Word model. The number of functions between finite sets.
Some general principles. Injective functions. Increasing words. Increasing functions.
MULTISETS. The queue problem. Rising factorial. Multisets. Multiset coefficients. Non-decreasing words.
Non-decreasing functions.
EQUATIONS WITH NON-NEGATIVE INTEGER SOLUTIONS. Bose-Einstein and Fermi-Dirac statistics. Generalized Gergonne problem.
MULTINOMIAL COEFFICIENTS AND COMPOSITIONS OF A FINITE SET.
PARTITIONS. Equivalence relations and partitions. Stirling numbers of the second kind. Bell numbers. Faa di Bruno's coefficients.
PERMUTATIONS. Directed graphs. Permutation graphs. Cycles. Cycle factorization of a permutation. Cauchy coefficients.
Stirling numbers of the first kind.
SIEVE METHODS. Moebius inversion principle (set-theoretic case). Inclusion-exclusion principle: formulas of Sylvester and C. Jordan.
Applications: Euler's totient function, number of surjective functions, the "ménages" problem. Applications in statistical dependence and event probabilities
Catalan numbers and their combinatorial interpretations
Bijective proofs. Double counting techniques.Applications in random sampling and resampling methods
Directed and undirected graphs. Isomorphism of graphs. Paths and cycles in graphs. Connected graphs, cut-sets.
Graph Coloring and Partitioning. Chromatic number and chromatic polynomial. Coloring algorithms and their applications in statistics
Trees and Forests. Spanning trees. Minimum spanning tree (Kruskal's and Prim's algorithms). Applications to hierarchical clustering and phylogenetic trees
Graph Algorithms:
Shortest Path Algorithms.Dijkstra's and Bellman-Ford algorithms. Applications in optimization and network flow.
Max Flow/Min Cut Theorems. Ford-Fulkerson algorithm. Applications in flow networks and statistical inference
Testi/Bibliografia
note del corso
Metodi didattici
lectures, exercises
Modalità di verifica e valutazione dell'apprendimento
scritto e orale
Strumenti a supporto della didattica
pagina Virtuale del corso
Orario di ricevimento
Consulta il sito web di Luca Moci
Consulta il sito web di Alessandro D'Andrea