Tidlegare arrangement - Side 61

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.

Investigating the influence of future climate on slope stability- A case study in Eidsvoll, SE Norway

Spatiotemporal patterns of wildfires, NDVI, and NDVI-derived disturbances in Mongolia using MODIS data

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.

Dancing in the (moon) light: diel vertical migration and the behaviour of krill (Meganyctiphanes norvegica) during midwinter and midsummer nights

Learn about how you can retain the rights to your published work with the new Rights Retention Policy at UiO.

Welcome to our weekly lunch seminar held in the dScience lounge area! This event is open to PhD candidates and postdocs.

Felleskollokvium by Prof. Sverre Holm, Dept. of Physics, UiO

This year's Hassel lecture is headed by Professor Veronique Van Speybroeck. The first day Professor Speybroeck will present the lecture "Operando modeling of functional nanostructured materials for sustainable chemistry, nanosensing and clean energy."

This year's Hassel lecture is headed by Professor Veronique Van Speybroeck. The first day Professor Speybroeck will present the lecture "Operando modeling of functional nanostructured materials for sustainable chemistry, nanosensing and clean energy."

Online changepoint detection algorithms based on likelihood-ratio tests have excellent statistical properties. However, a simple exact online implementation is computationally infeasible as, at time T, it involves considering O(T) possible locations for the change. To improve on this, we use functional pruning ideas to reduce the set of changepoint locations that need to be stored at time T to approximately log T. Furthermore, we show how we need only maximise the likelihood-ratio test statistic over a small subset of these possible locations. Empirical results show that the resulting exact online algorithm, which can detect changes under a wide range of models, has a constant-per-iteration cost on average. We consider applications of this algorithm in the context of detecting increases in radiation count that represent astronomical or nuclear events of interest.

Pre-Permian evolution of the Sele High, Central North Sea

Joseph Pradler, ÖAW Vienna

_{Weekly Theory Seminar.}

Title: Using simple integrated assessment models to explore human and earth system feedbacks

Speaker: Sibel Eker, Radboud University and International Institute for Applied Systems Analysis (IIASA)

The Kolmogorov N-width describes the best possible error one can achieve by elements of an N-dimensional linear space. Its decay has extensively been studied in Approximation Theory and for the solution of Partial Differential Equations (PDEs). Particular interest has occurred within Model Order Reduction (MOR) of parameterized PDEs e.g. by the Reduced Basis Method (RBM). While it is known that the N-width decays exponentially fast (and thus admits efficient MOR) for certain problems, there are examples of the linear transport and the wave equation, where the decay rate deteriorates to N^-1/2. On the other hand, it is widely accepted that a smooth parameter dependence admits a fast decay of the N-width. However, a detailed analysis of the influence of properties of the data (such as regularity or slope) on the rate of the N-width seems to lack. In this work, we use techniques from Fourier Analysis to derive exact representations of the N-width in terms of initial and boundary conditions of the linear transport equation modeled by some function g for half-wave symmetric data. For arbitrary functions g, we derive bounds and prove that these bounds are sharp. In particular, we prove that the N-width decays as c_r N^(-r-1/2) for functions in the Sobolev space, g ∈ H^r. Our theoretical investigations are complemented by numerical experiments which confirm the sharpness of our bounds and give additional quantitative insigh.

Employees at the University of Oslo (UiO) and Oslo University Hospital (OUS), who will relocate to the Life Sciences Building when it is completed in 2027, are invited to the seminar "How do we live together?"

Seminaret "Hvordan bor vi sammen?" ble arrangert 24. mai. Det var godt oppmøte og høyt engasjement blant ansatte fra UiO og OUS  som deltok.

Meet researchers from the University of Oslo, Oslo University Hospital and SINTEF as well as start-ups from the health incubator Aleap that are developing new sensor technology solutions for future healthcare.

The workshop Molecular Quantum Dynamics is organized as part of the Centre for Advanced Study (CAS) project Attosecond Quantum Dynamics Beyond the Born–Oppenheimer approximation, and will cover a broad range of topics. We welcome the participants to the beautiful and historical hotel Lysebu, situated at the rooftop of Oslo.

Every second Tuesday, CBA members gather for lunch and a talk. On May 23rd 2023, we have an early career presentation given by two PhD students Eira Carlsen and Elisabeth Wörner.

Doctoral candidate Alise Danielle Midtfjord at the Department of Mathematics will be defending the thesis Machine learning methods for safety-critical systems with time dependency for the degree of Philosophiae Doctor.

Fermi problems (also known as Fermi estimation problems or estimation problems) are a classic type of exercise that have been used in physics education for decades.

At UiO we have begun using them in our first-semester physics course as a gentle start to “thinking like a physicist." But Fermi problems can also be a rich site for building modeling skills across the STEM disciplines, and when combined with a little statistics and computation can quickly turn into simple Monte Carlo problems.
 

This ODD seminar will be partly a Fermi problem workshop and partly a demonstration of the new class of computational Fermi problems we are developing for our physics and STEM courses.
 

Also, there will be cake!