Samenvatting
We study the k-center problem in a kinetic setting: given a set of continuously moving points P in the plane, determine a set of k (moving) disks that cover P at every time step, such that the disks are as small as possible at any point in time. Whereas the optimal solution over time may exhibit discontinuous changes, many practical applications require the solution to be stable: the disks must move smoothly over time. Existing results on this problem require the disks to move with a bounded speed, but this model is very hard to work with. Hence, the results are limited and offer little theoretical insight. Instead, we study the topological stability of k-centers. Topological stability was recently introduced and simply requires the solution to change continuously, but may do so arbitrarily fast. We prove an upper and lower bound on the ratio between the maximum radius of an optimal but unstable solution and the maximum radius of a topologically stable solution---the topological stability ratio.
Originele taal-2 | Engels |
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Pagina's | 2:1-2:3 |
Aantal pagina's | 3 |
Status | Gepubliceerd - 2018 |
Evenement | Computational Geometry: Young Researchers Forum (CG:YRF 2018) - Budapest, Hongarije Duur: 11 jun. 2018 → 14 jun. 2018 https://www.renyi.hu/conferences/socg18/yrf.html |
Workshop
Workshop | Computational Geometry: Young Researchers Forum (CG:YRF 2018) |
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Verkorte titel | CG:YRF |
Land/Regio | Hongarije |
Stad | Budapest |
Periode | 11/06/18 → 14/06/18 |
Internet adres |