Examples of results
The purpose of this section is to provide some result samples of some works on generalisation. These samples concern several different kinds of generalisation (different types of objects, operations, scale changes...). The coordinates of the author(s) are available. If you want the results of your work to be published on this page, contact the chairs.
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Automatic knowledge revision in a generalisation system (COGIT)
This work deals with the automatic revision of procedural knowledge for generalisation systems based on the agent paradigm. Our approach consists in analysing the system execution logs and extracting new knowledge from thee logs using machine learning techniques. The figure present an application of our approach on housing estates.
Road and river network selection (COGIT)
Network selection seeks to choose the features from an initial geo-database that will appear in a generalised geo-database. For road and river network, it is complex process as a good choice should reduce the amount of features but should also preserve the characteristics of the networks (hierarchies, density differences, specific patterns). The automatic processes developed at COGIT are based on a complete enrichment of the initial database by specific structures and patterns of the network (e.g. braided streams for rivers or highway interchanges for roads) to allow a good selection.
Label generalization (ICC)
Results of the automated selection and scaling of map names done by ICC software.
Simultaneous graphic generalisation (Lund University, Finnish Geodetic Institute)
This study deals with an optimization (with continuous variables) approach to graphic generalization (essentially the operators simplification, smoothing, exaggeration and displacement). By solving the whole graphic generalization in a single step, both in terms of operators and all types of objects, we provide a sound compromise between the competing goals in the graphic generalization process. The basic idea behind simultaneous graphic generalization is to formulate the requirements of graphic generalization as analytical constraints and then to use these constraints as observations in a least-squares adjustment.
The figure visualizes the effect of simultaneous graphic generalization in a small area. The original objects are shown in gray and the generalized ones in black. (© The National Land Survey of Finland, all rights reserved.)
Contact: Lars Harrie (Lund University, Sweden)