Previous events - Page 21

"Cosmological parameter estimation methods for modern end-to-end analysis"

"Exploring the cold and dense circumgalactic medium of BX610"

This is a half-day online workshop on PDEs in physical systems. Abstracts and Zoom link can be found here!

This talk will focus on recent work about the sequential detection of anomalies within partially observed functional data, motivated by a problem encountered by an industrial collaborator. Classical sequential changepoint detection approaches look for changes in the parameters, or structure, of a data sequence and are not equipped to handle the complex non-stationarity and dependency structure of functional data. Conversely, existing functional data approaches require the full observation of the curve before anomaly detection can take place. We propose a new method, FAST, that performs sequential detection of anomalies in partially observed functional data. This talk will introduce the approach, and some associated theoretical results, and highlight its application on telecommunications data.

This is joint work with Idris Eckley and Lawrence Bardwell.

Dr. Boris Lenhard, Professor of Computational Biology at the MRC London Institute of Medical Sciences and Imperial College London, UK, will present his research on "Promoter architectures and responsiveness to enhancers in long-range developmental regulation."

"Searching for stellar emission in the sub-THz bands"

Welcome to our GEOHYD Lunch Seminar Friday 2nd of June @ 12:15 in Aud. 2, Geology building or via videolink using Zoom. The seminar is helt by Holger Lange (NIBIO).

The human brain has no lymphatic vessels, so how does the brain clear metabolic waste? In 2012, Iliff et al. proposed a theory about waste clearance of the brain, called the "glymphatic" theory. The theory suggest that the waste clearances is bio-mechanical, and that impaired clearance may be the cause of some neurodegenerative diseases and disorders. The inaccessibility of the human brain have been a hurdle in the research, as experiments on rat brains do not translate to the human brain. Researchers at Oslo university hospital Rikshospitalet have shown clearance using tracers visible in magnetic resonance images (MRI). However, the MRI only provide snapshots of different states in time, therefore computational modeling is needed to fill in the gaps. In this presentation, we will look at computational modeling with the MRI to infer material parameters in the brain.

Doctoral candidate Lene Maria Sundbakk at the Department of Pharmacy, Faculty of Mathematics and Natural Sciences, is  defending the thesis "Benzodiazepines and z-hypnotics in pregnancy and child neurodevelopment - With focus on causal inference methods in perinatal pharmacoepidemiology" for the degree of Philosophiae Doctor.

Mats Ola Sand, Ph.D. student at Rosseland Centre for Solar Physics, University of Oslo.

Stalagmites grow on the floor of caves by precipitation of calcium ions found in the residual water film covering the top of the stalagmite, which is progressively drained away. Drops dripping from stalactites ensure the renewal of these ions.
Previous models of stalagmite growth assumed that drops fall on a straight vertical line from stalactites. Through high-speed imaging during field experiments in caves, we however observe that the impact point position of the drops is scattered. Using a Langevin-like equation to describe the fall of drops in response to gravity and aerodynamic forces, we then propose a prediction of the impact point dispersal. We show that measured stalagmite widths are correlated to the impact point dispersal of the drops.
In a second time, we focus on the mixing of calcium ions between the drop and the film during impact. The drop produces a crown when impacting the film, accompanied by a large amount of secondary droplet ejections. This is at the very heart of the film thickness variability post-impact. We record high-speed imaging of drop impacts on films of controlled thickness in a lab environment and assess the mixing between the drop and the film. We deduce how much liquid coming from the initial drop remains in the film.

Dr. Jotun Hein, Professor, Department of Statistics, University of Oxford, will present his research on "Algorithms for Recombination Detection with an Application to SARS CoV-2."

Title: The impact of secondary ice production on clouds and climate

Speaker: Georgia Sotiropoulou , EPFL

We invite you to the May RoCS Solar/Stellar Lunch. You are invited to discuss your work with colleagues.

A flexible predictive density combination is introduced for large financial data sets which allows for model set incompleteness. Dimension reduction procedures that include learning allocate the large sets of predictive densities and combination weights to relatively small subsets.  Given the representation of the probability model in extended nonlinear state-space form, efficient simulation-based Bayesian inference is proposed using parallel dynamic clustering as well as nonlinear filtering, implemented on graphics processing units. The approach is applied to combine predictive densities based on a large number of individual US stock returns of daily observations over a period that includes the Covid-19 crisis period.  Evidence on dynamic cluster composition, weight patterns and model set incompleteness gives valuable signals for improved modelling. This enables higher predictive accuracy and better assessment of uncertainty and risk for investment fund management.

"Meson production from phantom energy close to the Big Rip"

Every second Tuesday, CBA members gather for lunch and a talk. On May 30th 2023, we have a presentation given by CBA professor Dag O. Hessen.

Doctoral candidate Samiran Sen at the Department of Chemistry, Faculty of Mathematics and Natural Sciences, is defending the thesis "Advances in Hamiltonian Hybrid Particle—Field Theory: Improving the description of interfacial systems" for the degree of Philosophiae Doctor.

Welcome to our GEOHYD Lunch Seminar Friday 26th of May @ 12:15 in Aud. 2, Geology building, or via video link using Zoom. The seminar is held by Junbin Zhao (NIBIO).

This year's Hassel lecture is headed by Professor Veronique Van Speybroeck. The second day Professor Speybroeck will present the lecture "From quantum mechanics to machine learning: Bridging length and time scales in modeling nanoporous materials at operating conditions."

Florian Niedermann, Nordic Institute for Theoretical Physics, Stockholm University.

Is it difficult to set aside time to write? The Academic Writing Centre organsises structured writing sessions for doctoral students.

Hilbert schemes of points on a smooth projective curve are simply symmetric powers of the curve itself; they are smooth and we know essentially everything about them. We propose a variation by studying double nested Hilbert schemes of points, which parametrize flags of 0-dimensional subschemes satisfying certain nesting conditions dictated by Young diagrams. These moduli spaces are almost never smooth but admit a virtual structure à la Behrend-Fantechi. We explain how this virtual structure plays a key role in (re)proving the correspondence between Gromov-Witten invariants and stable pair invariants for local curves, and say something on their K-theoretic refinement.