We give a principled method to design online algorithms (for potentially non-linear problems) using a mathematical programming formulation of the problem, and also to analyze the competitiveness of the resulting algorithm using the dual program. This method can be viewed as an extension of the online primal-dual method for linear programming problems, to nonlinear programs. We show the application of this method to two online speed-scaling problems: one involving scheduling jobs on a speed scalable processor so as to minimize energy plus an arbitrary sum scheduling objective, and one involving routing virtual circuit connection requests in a network of speed scalable routers so as to minimize the aggregate power or energy used by the router...
We propose a new approach to competitive analysis in online scheduling by introducing the novel conc...
In this paper we consider non-preemptive online scheduling of jobs with release times and deadlines ...
Lecture Notes in Computer Science, vol. 6534 entitled: Approximation and Online Algorithms: 8th inte...
We consider the problem of online scheduling of jobs on unrelated machines with dynamic speed scalin...
This article initiates a theoretical investigation into online scheduling problems with speed scalin...
International audienceWe present an unified approach to study online scheduling problems in the reso...
We consider Lagrangian duality based approaches to design and analyze algorithms for online energy-e...
Online algorithms deal with settings where the input data arrives over time and the current decision...
We study online scheduling problems in the general energy model of speed scaling with power down. Th...
This paper investigates the performance of online dynamic speed scaling algorithms for the objectiv...
In this paper, we present primal-dual algorithms for online problems with non-convex objectives. Pro...
International audienceWe study online scheduling problems on a single processor that can be viewed a...
An offline algorithm is one that knows the entire input in advance. An online algorithm, however, pr...
We consider online scheduling algorithms in the dynamic speed scaling model, where a processor can s...
We consider the problem of online scheduling of jobs on unrelated machines with dynamic speed scalin...
We propose a new approach to competitive analysis in online scheduling by introducing the novel conc...
In this paper we consider non-preemptive online scheduling of jobs with release times and deadlines ...
Lecture Notes in Computer Science, vol. 6534 entitled: Approximation and Online Algorithms: 8th inte...
We consider the problem of online scheduling of jobs on unrelated machines with dynamic speed scalin...
This article initiates a theoretical investigation into online scheduling problems with speed scalin...
International audienceWe present an unified approach to study online scheduling problems in the reso...
We consider Lagrangian duality based approaches to design and analyze algorithms for online energy-e...
Online algorithms deal with settings where the input data arrives over time and the current decision...
We study online scheduling problems in the general energy model of speed scaling with power down. Th...
This paper investigates the performance of online dynamic speed scaling algorithms for the objectiv...
In this paper, we present primal-dual algorithms for online problems with non-convex objectives. Pro...
International audienceWe study online scheduling problems on a single processor that can be viewed a...
An offline algorithm is one that knows the entire input in advance. An online algorithm, however, pr...
We consider online scheduling algorithms in the dynamic speed scaling model, where a processor can s...
We consider the problem of online scheduling of jobs on unrelated machines with dynamic speed scalin...
We propose a new approach to competitive analysis in online scheduling by introducing the novel conc...
In this paper we consider non-preemptive online scheduling of jobs with release times and deadlines ...
Lecture Notes in Computer Science, vol. 6534 entitled: Approximation and Online Algorithms: 8th inte...