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ICALP
2010
Springer
2010
Springer
Dynamic Programming for Graphs on Surfaces
Abstract. We provide a framework for the design and analysis of dynamic programming algorithms for surface-embedded graphs on n vertices and branchwidth at most k. Our technique applies to general families of problems where standard dynamic programming runs in 2O(k·log k) · n steps. Our approach combines tools from topological graph theory and analytic combinatorics. In particular, we introduce a new type of branch decomposition called surface cut decomposition, capturing how partial solutions can be arranged on a surface. Then we use singularity analysis over expressions obtained by the symbolic method to prove that partial solutions can be represented by a single-exponential (in the branchwidth k) number of configurations. This proves that, when applied on surface cut decompositions, dynamic programming runs in 2O(k) · n steps. That way, we considerably extend the class of problems that can be solved in running times with a single-exponential dependence on branchwidth and unify/i...
Real-time TrafficDynamic Programming | Dynamic Programming Runs | ICALP 2010 | Programming Languages | Surface Cut Decompositions |
| Added | 19 Jul 2010 |
| Updated | 19 Jul 2010 |
| Type | Conference |
| Year | 2010 |
| Where | ICALP |
| Authors | Juanjo Rué, Ignasi Sau, Dimitrios M. Thilikos |
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