Publication: Modelling topographic uncertainty: Impacts on large scale environmental modelling.
Modelling topographic uncertainty: Impacts on large scale environmental modelling.
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Hebeler, F. (2008). Modelling topographic uncertainty: Impacts on large scale environmental modelling. (Dissertation, University of Zurich) https://doi.org/10.5167/uzh-3712
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Uncertainty can be apprehended as lack of knowledge about a certain phenomenon. Decisions about whether and how to react to this uncertainty depend on a number of factors. These factors include the ability to estimate the amount of uncertainty and thus estimate the involved risk, available options to decrease either the uncertainty or its relevance, and the costs for responding or ignoring uncertainty. In GIScience, the modelling of processes is subject to uncertainties from a number of sources. Above all, the abstraction inherent in
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Hebeler, F. (2008). Modelling topographic uncertainty: Impacts on large scale environmental modelling. (Dissertation, University of Zurich) https://doi.org/10.5167/uzh-3712
