The main part of the course is the writing of a master thesis on a topic in applied or theoretical statistics.The work on the thesis starts at the beginning of the semester and is to be completed at the end of the same semester.In sum, the course will give students ample opportunity to develop transferable skills of great importance for all types of applied and scientific work and indeed any type of inquiry.
The main part of the course is the writing of a master thesis on a topic in applied or theoretical statistics.Tags: Solve Math Problems With SolutionsBusiness Plan Of A HotelSecond Punic War EssayThesis Practice PromptsPensters Custom WritingWriting A Research Proposal ApaMymathlab Homework Answer KeyHow To Write A Speech For An Oral Presentation
Garwood - A Comparison of two approaches for the Approximating of 2-D Scattered Data, with Applications to Geological Modelling R. Smith - The Evolution of Travelling Waves in a Simple Model for an Ionic Autocatalytic System P.
Hawkes - Mesh Movement Algorithms for Non-linear Fisher-type Equations P. Parry - Construction of Symplectic Runge-Kutta Methods and their Potential for Molecular Dynamics Application. Swain - Numerical Investigations of Vorticity Preserving Lax-Wendroff Type Schemes.
Wilson - A refined numerical model of sediment deposition on saltmarshes. Bishop - The modelling and analysis of the equations of motion of floating bodies on regular waves. Olwoch - Isothermal autocatalytic reactions with an immobilized autocatalyst. Stoke - Eulerian methods with a Lagrangian phase in gas dynamics. Coad - 1-D and 2-D simulations of open channel flows using upwinding schemes. Ali - Application of control techniques to solving linear systems of equations.
Brookes - An investigation of a dual-porosity model for the simulation of unsaturated flow in a porous medium.
Mc Allister - First and second order complex differential equations.
Sadhra - Investigating dynamical systems using the cell-to-cell mapping. Horrocks - Fokker-Planck model of stochastic acceleration: a study of finite difference schemes. Barnes - Reaction-diffusion waves in an isothermal chemical system with a general order of autocatalysis. A numerical investigation into the dynamics of the non-linear vibration equation. Higgs - Nonlinear diffusion in reservoir simulation. Mathematics for Economic and Statistical Analysis, BL, 7,5 ECTS credits, or equivalent.Swedish upper secondary school course English 6 or equivalent. More information for registered students will be found in Mondo.The student is assigned a supervisor, usually a teacher at the Department of Statistics.The student may suggest a topic; the topic may also be provided by the supervisor.Gillian Morrison - Numerical Modelling of Tidal Bores using a Moving Mesh Rachel Pritchard - Evaluation of Fractional Dispersion Models Tamsin Lee - New methods for approximating acoustic wave transmission through ducts (PDF 2.5MB) Lee Morgan - Anomalous diffusion (PDF-1.5MB) Keith Pham - Finite element modelling of multi-asset barrier options (PDF-3MB) Alastair Radcliffe - Finite element modelling of the atmosphere using the shallow water equations (PDF-2.5MB) Sanita Vetra - The computation of spectral representations for evolution PDE (PDF-3.2MB) Laura Baker - Properties of the ensemble Kalman filter (PDF-3.8MB) Alison Brass - A moving mesh method for the discontinuous Galerkin finite element technique (PDF-916KB) Daniel Lucas - Application of the phase/amplitude method to the study of trapped waves in the atmosphere and oceans (PDF-1.1MB) Duduzile Nhlengethwa - Petrol or diesel (PDF-1MB) Rhiannon Roberts - Modelling glacier flow (PDF-406KB) David Skinner - A moving mesh finite element method for the shallow water equations (PDF-4.3MB) Jovan Stojsavljevic - Investigation of waiting times in non-linear diffusion equations using a moving mesh method (PDF-538KB) Bonhi Bhattacharya - A moving finite element method for high order nonlinear diffusion problems Jonathan Coleman - High frequency boundary element methods for scattering by complex polygons Rachael England - The use of numerical methods in solving pricing problems for exotic financial derivatives with a stochastic volatility Stefan King - Best fits with adjustable nodes and scale invariance Edmund Ridley - Analysis of integral operators from scattering problems Nicholas Robertson - A moving Lagrangian mesh model of a lava dome volcano and talus slope Iain Davison - Scale analysis of short term forecast errors Richard Silveira - Electromagnetic scattering by simple ice crystal shapes Nicola Stone - Development of a simplified adaptive finite element model of the Gulf Stream Halina Watson - The behaviour of 4-D Var for a highly nonlinear system Jonathan Aitken - Data dependent mesh generation for peicewise linear interpolation Stephen Arden - A collocation method for high frequency scattering by convex polygons Shaun Benbow - Numerical methods for american options Stewart Chidlow - Approximations to linear wave scattering by topography using an integral equation approach Philip Mc Laughlin - Outdoor sound propagation and the boundary element method Antonis Neochoritis - Numerical modelling of islands and capture zone size distributions in thin film growth Kylie Osman - Numerical schemes for a non-linear diffusion problem Shaun Potticary - Efficient evaluation of highly oscillatory integrals Martyn Taylor - Investigation into how the reduction of length scales affects the flow of viscoelastic fluid in parallel plate geometries Aanand Venkatramanan - American spread option pricing Richard Fruehmann - Ageostrophic wind storms in the central Caspian sea Gemma Furness - Using optimal estimation theory for improved rainfall rates from polarization radar Edward Hawkins - Vorticity extremes in numerical simulations of 2-D geostrophic turbulence Robert Horton - Two dimensional turbulence in the atmosphere and oceans David Livings - Aspects of the ensemble Kalman filter David Sproson - Energetics and vertical structure of the thermohaline circulation Rakhib Ahmed - Numerical schemes applied to the Burgers and Buckley-Leverett equations James Atkinson - Embedding methods for the numerical solution of convolution equations Catherine Campbell-Grant - A comparative study of computational methods in cosmic gas dynamics Paresh Prema - Numerical modelling of Island ripening Mark Webber - The point source methods in inverse acoustic scattering Oliver Browne - Improving global glacier modelling by the inclusion of parameterised subgrid hypsometry within a three-dimensional, dynamical ice sheet model Petros Dalakakis - Radar scattering by ice crystals Eleanor Gosling - Flow through porous media: recovering permeability data from incomplete information by function fitting. Anderson - A dual-porosity model for simulating the preferential movement of water in the unsaturated zone of a chalk aquifer. Sarah Grintzevitch - Heat waves: their climatic and biometeorological nature in two north american reigions Helen Mansley - Dense water overflows and cascades Polly Smith - Application of conservation laws with source terms to the shallow water equations and crowd dynamics Peter Taylor - Application of parameter estimation to meteorology and food processing Kate Alexander - Investigation of a new macroscopic model of traffic flow Luke Bennetts - An application of the re-iterated Galerkin approximation in 2-dimensions Peter Spence - The Position of the free boundary formed between an expanding plasma and an electric field in differing geometries Daniel Vollmer - Adaptive mesh refinement using subdivision of unstructured elements for conservation laws Clare Harris - The Valuation of weather derivatives using partial differential equations Sarah Kew - Development of a 3D fractal cirrus model and its use in investigating the impact of cirrus inhomogeneity on radiation Emma Quaile - Rotation dominated flow over a ridge Jemma Shipton - Gravity waves in multilayer systems Winnie Chung - A Spectral Method for the Black Scholes Equations Penny Marno - Crowded Macroscopic and Microscopic Models for Pedestrian Dynamics Malachy Mc Connell - On the numerical solution of selected integrable non-linear wave equations Stavri Mylona - An Application of Kepler's Problem to Formation Flying using the Störmer-Verlet Method Sarah Brodie - Numerical Modelling of Stratospheric Temperature Changes and their Possible Causes Matt Sayer - Upper Ocean Variability in the Equatorial Pacific on Diurnal to Intra-seasonal Timescales Laura Stanton - Linearising the Kepler problem for 4D-var Data Assimilation R. Brad - An Implementation of the Box Scheme for use on Transcritical Problems D.