Home | Kontakt | Sitemap | Login | EN | Diese Seite drucken | | PDA-optimierte Ansicht

Mathematisch-naturwissenschaftliche Fakultät

Studium
Forschung
Öffentlichkeit
Über uns
Services
Schulangebote
Science Alumni
Intranet 

News-Detailansicht

12.02.2016 09:37

Kaggle Competition: Winners will present their results to the Heavy Flavour Data Mining workshop at Irchel Campus


The world’s largest community of machine learning data scientists organizes “Kaggle” competitions to solve the most difficult and interesting challenges in different fields. This year, for the first time, a competition has been proposed by the LHCb experiment. The Physics department of University of Zurich played a leading role in setting up this event. 

The aim of the exercise was to establish the best way of looking for a phenomenon that is not (yet?) known to exist – the decay of a tau (τ) lepton into three muons μ’s, denoted τ → μμμ. This decay is forbidden in the Standard Model of particle physics and therefore its observation would indicate a discovery of "new physics", which is now the key goal of the LHC. The awards of this competition were announced  earlier at the Applying (machine) Learning to Experimental Physics workshop organized in the framework of the Twenty-ninth Annual Conference on Neural Information Processing Systems.

Machine (computer) learning is widely used in particle physics in order to select a small number of interesting candidates found in individual collisions, called by physicists “signal events”, among often a large number of uninteresting events called “background”. The model then “learns” from the simulated signal and background events what the best criteria to separate them are. An output function is then generated indicating if the experimentally measured events look more or less like the signal or background events. Currently the most popular machine learning algorithm used in particle physics is called a “Boosted Decision Tree (BDT)”, see for example, its use in the τ→ μμμ decay search paper. The analysis was mostly performed by Prof. Straumann's group of University of Zurich.

673 teams took part in the competition from all over the world. They worked with real data from the LHCb experiment mixed with the simulated data of τ → μμμ decays. The solutions presented by the winning teams were presented at the workshop. The LHCb collaboration have offered also two physics prizes for the most useful solutions for their analysis. The winners will present their results to the Heavy Flavour Data Mining workshop, taking place from 18-20. February 2016 in Y16G15 at Irchel Campus.

Winners present their results in Y16G15
18.-20. February 2016

Program see https://indico.cern.ch/event/433556/


MNF auf Social Media