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dc.contributor.advisorSteinsland, Ingelin
dc.contributor.advisorFuglstad, Geir-Arne
dc.contributor.authorHem, Ingeborg Gullikstad
dc.date.accessioned2017-08-10T14:01:04Z
dc.date.available2017-08-10T14:01:04Z
dc.date.created2017-06-07
dc.date.issued2017
dc.identifierntnudaim:17773
dc.identifier.urihttp://hdl.handle.net/11250/2450462
dc.description.abstractIn this thesis, spatio-temporal temperature trends are estimated based on monthly average temperatures from 503 observation locations in the southern half of Norway. The time period studied is 1960 to 2016. A latent Gaussian model is proposed, where spatial Gaussian random fields and temporal polynomials of second degree are used to model the temperature trends. A Bayesian approach is taken for the inference, and the integrated nested Laplace approximations methodology is used to carry out the inference. The model is easy to interpret, has interpretable results, is able to predict missing observations, and successfully estimates temperature trends that correspond to other research results. Five sets of different prior distributions are used on the model components, each month of the year is modelled individually, and all months have the same prior distributions for each set of priors. In general, the temperature trend is increasing over the entire southern half of Norway according to the model, and the five sets of prior distributions give similar results. Twelve different spatio-temporal temperature trends, one for each month of the year, are obtained, and all months of the year have experienced an increase in temperature from 1960 to 2016. In some areas and some months, the temperature has decreased as well. The increase is largest during the winter months, and smallest during the summer months. The model is computationally fast; the inference is carried out in approximately 20 minutes for each month. The range parameters of the Gaussian random fields are given extra attention, and a minor prior sensitivity analysis on the range parameters is carried out. The sensitivity analysis reveals that to achieve the interpretable results, the range parameters, especially for the warmest months of the year, must to a large extent be controlled by the prior distribution.
dc.languageeng
dc.publisherNTNU
dc.subjectFysikk og matematikk, Industriell matematikk
dc.titleA Statistical Approach to Spatial Mapping of Temperature Change
dc.typeMaster thesis


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