Managing Multiple Mobile Resources

We extend the Mobile Server problem introduced in Feldkord and Meyer auf der Heide (TOPC 6 (3), 14:1–14:17 2019 ) to a model where k identical mobile resources, here named servers, answer requests appearing at points in the Euclidean space. To reduce communication costs, the positions of the servers...

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Vydáno v:Theory of computing systems Ročník 65; číslo 6; s. 943 - 984
Hlavní autoři: Feldkord, Björn, Knollmann, Till, Malatyali, Manuel, Heide, Friedhelm Meyer auf der
Médium: Journal Article
Jazyk:angličtina
Vydáno: New York Springer US 01.08.2021
Springer Nature B.V
Témata:
Algorithms
Computer Science
Euclidean geometry
Euclidean space
Lower bounds
Polynomials
Servers
Special Issue on Approximation and Online Algorithms
Theory of Computation
Resource augmentation
server problem
Online algorithms
ISSN:1432-4350, 1433-0490
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Shrnutí:We extend the Mobile Server problem introduced in Feldkord and Meyer auf der Heide (TOPC 6 (3), 14:1–14:17 2019 ) to a model where k identical mobile resources, here named servers, answer requests appearing at points in the Euclidean space. To reduce communication costs, the positions of the servers can be adapted by a limited distance m s per round for each server. The costs are measured similarly to the classical Page Migration problem: i.e., answering a request induces costs proportional to the distance to the nearest server, and moving a server induces costs proportional to the distance multiplied with a weight D . We show that, in our model, no online algorithm can have a constant competitive ratio: i.e., one which is independent of the input length n , even if an augmented moving distance of (1 + δ ) m s is allowed for the online algorithm. Therefore we investigate a restriction of the power of the adversary dictating the sequence of requests: We demand locality of requests : i.e., that consecutive requests come from points in the Euclidean space with distance bounded by some constant m c . We show constant lower bounds on the competitiveness in this setting (independent of n , but dependent on k , m s and m c ). On the positive side, we present a deterministic online algorithm with bounded competitiveness when an augmented moving distance and locality of requests is assumed. Our algorithm simulates any given algorithm for the classical k -Page Migration problem as guidance for its servers and extends it by a greedy move of one server in every round. The resulting competitive ratio is polynomial in the number of servers k , the ratio between m c and m s , the inverse of the augmentation factor 1/ δ and the competitive ratio of the simulated k -Page Migration algorithm. We also show how to directly adapt the Double Coverage algorithm (Chrobak et al. SIAM J. Discrete Math. 4 (2), 172–181 11 ) for the k -Server problem to receive an algorithm with improved competitiveness on the line.
Bibliografie:ObjectType-Article-1
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ISSN:1432-4350
1433-0490
DOI:10.1007/s00224-020-10023-8