Adelaide Research & Scholarship
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https://hdl.handle.net/2440/66515
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| Type: | Conference paper |
| Title: | Computing single source shortest paths using single-objective fitness functions |
| Author: | Baswana, S. Biswas, S. Doerr, B. Friedrich, T. Kurur, P. Neumann, F. |
| Citation: | Proceedings of the tenth ACM SIGEVO workshop on Foundations of genetic algorithms (FOGA' 09), 2009: pp.59-66 |
| Publisher: | ACM Press |
| Publisher Place: | New York |
| Issue Date: | 2009 |
| ISBN: | 9781605584140 |
| Conference Name: | ACM SIGEVO Workshop on Foundations of Genetic Algorithms (10th : 2009 : Orlando, Florida) |
| Editor: | Garibay, I.I. Jansen, T. Wiegand, R.P. Wu, A.S. |
| Statement of Responsibility: | Surender Baswana, Somenath Biswas, Benjamin Doerr, Tobias Friedrich, Piyush P. Kurur and Frank Neumann |
| Abstract: | Runtime analysis of evolutionary algorithms has become an important part in the theoretical analysis of randomized search heuristics. The first combinatorial problem where rigorous runtime results have been achieved is the well-known single source shortest path (SSSP) problem. Scharnow, Tinnefeld andWegener [PPSN 2002, J. Math. Model. Alg. 2004] proposed a multi-objective approach which solves the problem in expected polynomial time. They also suggest a related single-objective fitness function. However, it was left open whether this does solve the problem efficiently, and, in a broader context, whether multi-objective fitness functions for problems like the SSSP yield more efficient evolutionary algorithms. In this paper, we show that the single objective approach yields an efficient (1+1) EA with runtime bounds very close to those of the multi-objective approach. |
| Keywords: | Theory Algorithms Performance |
| Rights: | Copyright 2009 ACM |
| DOI: | 10.1145/1527125.1527134 |
| Published version: | http://dx.doi.org/10.1145/1527125.1527134 |
| Appears in Collections: | Aurora harvest 5 Computer Science publications |
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