Convergence and Running Time of Time-dependent Ant Colony Algorithms
January 18, 2025 Β· Declared Dead Β· π arXiv.org
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Authors
Bodo Manthey, Jesse van Rhijn, Ashkan Safari, Tjark Vredeveld
arXiv ID
2501.10810
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.NE
Citations
0
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Ant Colony Optimization (ACO) is a well-known method inspired by the foraging behavior of ants and is extensively used to solve combinatorial optimization problems. In this paper, we first consider a general framework based on the concept of a construction graph - a graph associated with an instance of the optimization problem under study, where feasible solutions are represented by walks. We analyze the running time of this ACO variant, known as the Graph-based Ant System with time-dependent evaporation rate (GBAS/tdev), and prove that the algorithm's solution converges to the optimal solution of the problem with probability 1 for a slightly stronger evaporation rate function than was previously known. We then consider two time-dependent adaptations of Attiratanasunthron and Fakcharoenphol's $n$-ANT algorithm: $n$-ANT with time-dependent evaporation rate ($n$-ANT/tdev) and $n$-ANT with time-dependent lower pheromone bound ($n$-ANT/tdlb). We analyze both variants on the single destination shortest path problem (SDSP). Our results show that $n$-ANT/tdev has a super-polynomial time lower bound on the SDSP. In contrast, we show that $n$-ANT/tdlb achieves a polynomial time upper bound on this problem.
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