On the list update problem with advice

On the list update problem with advice

We study the online list update problem under the advice model of computation. Under this model, an online algorithm receives partial information about the unknown parts of the input in the form of some bits of advice generated by a benevolent offline oracle. We show that advice of linear size is re...

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Bibliographic Details
Published in:Information and computation Vol. 253; pp. 411 - 423
Main Authors: Boyar, Joan, Kamali, Shahin, Larsen, Kim S., López-Ortiz, Alejandro
Format: Journal Article
Language:English
Published: Elsevier Inc 01-04-2017
Subjects:
Advice complexity
Competitive analysis
List update
Online algorithms
Advice complexity
Online algorithms
List update
Competitive analysis
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Summary:We study the online list update problem under the advice model of computation. Under this model, an online algorithm receives partial information about the unknown parts of the input in the form of some bits of advice generated by a benevolent offline oracle. We show that advice of linear size is required and sufficient for a deterministic algorithm to achieve an optimal solution or even a competitive ratio better than 15/14. On the other hand, we show that surprisingly two bits of advice are sufficient to break the lower bound of 2 on the competitive ratio of deterministic online algorithms and achieve a deterministic algorithm with a competitive ratio of 1.6¯. In this upper-bound argument, the bits of advice determine the algorithm with smaller cost among three classical online algorithms, Timestamp and two members of the Mtf2 family of algorithms. We also show that Mtf2 algorithms are 2.5-competitive.
ISSN:0890-5401
1090-2651
DOI:10.1016/j.ic.2016.06.007