Error propagation in cartographic modelling using Boolean logic and continuous classification |
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Authors: | Gerard B. M. Heuvelink Peter A. Burrough |
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Affiliation: | Department of Physical Geography, Faculty of Geographical Sciences , University of Utrecht , PO Box 80.115, 3508, TC, Utrecht, The Netherlands |
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Abstract: | Abstract When data on environmental attributes such as those of soil or groundwater are manipulated by logical cartographic modelling, the results are usually assumed to be exact. However, in reality the results will be in error because the values of input attributes cannot be determined exactly. This paper analyses how errors in such values propagate through Boolean and continuous modelling, involving the intersection of several maps. The error analysis is carried out using Monte Carlo methods on data interpolated by block kriging to a regular grid which yields predictions and prediction error standard deviations of attribute values for each pixel. The theory is illustrated by a case study concerning the selection of areas of medium textured, non-saline soil at an experimental farm in Alberta, Canada. The results suggest that Boolean methods of sieve mapping are much more prone to error propagation than the more robust continuous equivalents. More study of the effects of errors and of the choice of attribute classes and of class parameters on error propagation is recommended. |
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