Conference Program
Conference Proceedings
Book of Abstracts
Programme at Glance
| Wednesday, September 11, 2024 | |
|---|---|
| 08:30–10:00 | Registration of participants |
| 10:00–12:30 | Opening ceremony and plenary session |
| 12:30–13:30 | Lunch |
| 13:30–15:00 | Parallel sessions A |
| 15:00–15:30 | Coffee break |
| 15:30–17:00 | Parallel sessions B |
| 17:00–17:30 | Coffee break |
| 17:30–18:30 | Meeting of the Czech Society for Operations Research |
| 18:30–21:30 | Welcome evening |
| Thursday, September 12, 2024 | |
|---|---|
| 08:30–10:00 | Parallel sessions C, including PhD students competition and registration of participants |
| 10:00–10:30 | Coffee break |
| 10:30–11:30 | Parallel sessions D, including PhD student’s competition |
| 11:30–12:30 | Lunch |
| 13:30–18:30 | Conference trip / social programme |
| 20:00–23:00 | Conference dinner at Krušnohorský Maskaron restaurant in Teplice, including the ceremony announcing the results of the PhD student’s competition |
| Friday, September 13, 2024 | |
|---|---|
| 08:00–09:30 | Morning coffee |
| 08:40–09:20 | Guided tour of several departments/laboratories at the Faculty of Science UJEP |
| 09:30–11:30 | Parallel sessions E |
| 11:30–12:30 | Lunch |
Plenary Speakers
Panos Pardalos
Department of Industrial and Systems Engineering, University of Florida, USA
Artificial Intelligence for Economics and Finance
Artificial Intelligence (along with data sciences and optimization) has been a fundamental component of many activities in economics and finance in recent years. In this lecture, we first summarize some of the major impacts of AI tools in economics and finance and discuss future developments and limitations. In the second part of the lecture, we present details on neural network embeddings on corporate annual filings for portfolio selection.
Michal Černý
Department of Econometrics, Prague University of Economics and Business, Czech Republic
Linear programming: Old and new results, old and new challenges
Linear programming (with continuous variables) has had a rich history since Dantzig’s formalization of the Simplex Method in 1940’s. From the computational viewpoint, the most significant milestones involve Klee-Minty’s construction of their “cube” from 1973, the surprising 1979’s polynomiality result by Khachiyan on Shor-Nemirovski-Yudin’s Ellipsoid Method, and Karmarkar’s first Interior Point Method from 1984 followed by the intensive development of IPMs in the “IPM decade”. In parallel, the theory of average-case analysis of LP algorithms starts its development, with the pioneering work by Borgwardt, Haimovich and others.
The work still goes on and new results are being reported in literature. We mention at least two results of particular significance: Spielman-Teng’s smoothed analysis of the shadow-vertex Simplex Method and Disser-Skutella’s result on the NP-mightiness of the Simplex Method.
However, many problems still remain open and seem to be difficult. Can the combinatorial diameter of every polytope be bounded by a polynomial? (This is the polynomial version of Hirsch’s conjecture. Recall that the linear “n – d” version was disproved by Santos in 2010, but the polynomial version remains open.) If so, can we use this fact constructively to design a pivoting strategy for the Simplex Method to make it a polynomial-time algorithm? Another group of problems arises from the weak polynomiality of the Ellipsoid Method and IPMs. Can we get rid of the unpleasant “Big-L” from their iteration bounds? Does there exist a strongly polynomial algorithm?
There are further research challenges in LP; a (subjective) choice of them is presented in the talk. One particularly interesting is the following: Can the linear programming problems solvable by the Ellipsoid Method with separation and membership oracle (by Grötschel, Lovász and Schrijver) be converted into polynomial-time IPMs?