AbstractThis paper concerns two fundamental but somewhat neglected issues, both related to the design and analysis of randomized on-line algorithms. Motivated by early results in game theory we define several types of randomized on-line algorithms, discuss known conditions for their equivalence, and give a natural example distinguishing between two kinds of randomizations. In particular, we show thatmixedrandomized memoryless paging algorithms can achieve strictly better competitive performance thanbehavioralrandomized algorithms. Next we summarize known—and derive new—“Yao principle” theorems for lower bounding competitive ratios of randomized on-line algorithms. This leads to four different theorems for bounded/unbounded and minimization/...
We prove that any randomized algorithm for on-line scheduling jobs on m identical parallel machines ...
We study the problem of on-line scheduling on two uniform machines with speeds 1 and s*1.A /+1.61803...
In evaluating an algorithm, worst-case analysis can be overly pessimistic. Average-case analysis can...
AbstractThis paper concerns two fundamental but somewhat neglected issues, both related to the desig...
Introduction We have already seen some uses of randomization in the design of on-line algorithms. I...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
In this paper, we prove lower bounds on the competitive ratio of randomized algorithms for two on-li...
We consider the problem of on-line call admission and routing on trees and meshes. Previous work gav...
We investigate randomized on-line algorithms for real-time scheduling, and establish bounds on the o...
Let be a set of on-line algorithms for a problem P with input set I . We assume that P can be ...
ALESSIO PRESCIUTTI † , AND ADI ROSÉN ‡ Abstract. We consider the problem of on-line call admission a...
∗A previous version of this paper appeared in the 22nd ACM STOC Conference Proceedings † Part of thi...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We prove that any randomized algorithm for on-line scheduling jobs on m identical parallel machines ...
We study the problem of on-line scheduling on two uniform machines with speeds 1 and s*1.A /+1.61803...
In evaluating an algorithm, worst-case analysis can be overly pessimistic. Average-case analysis can...
AbstractThis paper concerns two fundamental but somewhat neglected issues, both related to the desig...
Introduction We have already seen some uses of randomization in the design of on-line algorithms. I...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
In this paper, we prove lower bounds on the competitive ratio of randomized algorithms for two on-li...
We consider the problem of on-line call admission and routing on trees and meshes. Previous work gav...
We investigate randomized on-line algorithms for real-time scheduling, and establish bounds on the o...
Let be a set of on-line algorithms for a problem P with input set I . We assume that P can be ...
ALESSIO PRESCIUTTI † , AND ADI ROSÉN ‡ Abstract. We consider the problem of on-line call admission a...
∗A previous version of this paper appeared in the 22nd ACM STOC Conference Proceedings † Part of thi...
We study the relationship between the competitive ratio and the tail distribution of randomized onli...
We prove that any randomized algorithm for on-line scheduling jobs on m identical parallel machines ...
We study the problem of on-line scheduling on two uniform machines with speeds 1 and s*1.A /+1.61803...
In evaluating an algorithm, worst-case analysis can be overly pessimistic. Average-case analysis can...