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Computational geometry

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Computational geometry emerged from the ? eld of algorithms design and analysis in the late 1970s. It has grown into a recognized discipline with its own journals, conferences, and a large community of active researchers. The success of the ? eld as a research discipline can on the one hand be explained from the beauty of the problems studied and the solutions obtained, and, on the other hand, by the many application domains—computer graphics, geographic information systems (GIS), robotics, and others—in which geometric algorithms play a fundamental role. For many geometric problems the early algorithmic solutions were either slow or dif? cult to understand and implement. In recent years a number of new algorithmic techniques have been developed that improved and simpli? ed many of the previous approaches. In this textbook we have tried to make these modern algorithmic solutions accessible to a large audience. The book has been written as a textbook for a course in computational geometry, but it can also be used for self-study.

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Computational geometry, Mark Theodoor de Berg

Taal
Jaar van publicatie
2008
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Taal
Engels
Uitgever
Springer
Jaar van publicatie
2008
Formaat
Hardcover
Aantal pagina's
386
ISBN10
3540779736
ISBN13
9783540779735
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Aantekening
Computational geometry emerged from the ? eld of algorithms design and analysis in the late 1970s. It has grown into a recognized discipline with its own journals, conferences, and a large community of active researchers. The success of the ? eld as a research discipline can on the one hand be explained from the beauty of the problems studied and the solutions obtained, and, on the other hand, by the many application domains—computer graphics, geographic information systems (GIS), robotics, and others—in which geometric algorithms play a fundamental role. For many geometric problems the early algorithmic solutions were either slow or dif? cult to understand and implement. In recent years a number of new algorithmic techniques have been developed that improved and simpli? ed many of the previous approaches. In this textbook we have tried to make these modern algorithmic solutions accessible to a large audience. The book has been written as a textbook for a course in computational geometry, but it can also be used for self-study.