We provide a new approach to the on-line load balancing problem in the case of restricted assignment of temporary weighted tasks. The approach is very general and allows us to derive on-line algorithms whose competitive ratio is characterized by some combinatorial properties of the underlying graph G representing the problem: in particular, the approach consists in applying the greedy algorithm to a suitably constructed subgraph of G. In the paper, we prove the NP-hardness of the problem of computing an optimal or even a c-approximate subgraph, for some constant c > 1. Nevertheless, we show that, for several interesting problems, we can easily compute a subgraph yielding an optimal on-line algorithm. As an example, the effectiveness of this...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
AbstractWe design a general mathematical framework to analyze the properties of nearest neighbor bal...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We provide a new simpler approach to the on-line load balancing problem in the case of restricted as...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
The setup for our problem consists of n servers that must complete a set of tasks. Each task can be ...
AbstractThe setup for our problem consists of n servers that must complete a set of tasks. Each task...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
We consider the on-line load balancing problem where there are m identical machines (servers) and a ...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
textabstractWe consider load-balancing in the following setting. The on-line algorithm is allowed to...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
AbstractWe design a general mathematical framework to analyze the properties of nearest neighbor bal...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We provide a new simpler approach to the on-line load balancing problem in the case of restricted as...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
The setup for our problem consists of n servers that must complete a set of tasks. Each task can be ...
AbstractThe setup for our problem consists of n servers that must complete a set of tasks. Each task...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
We consider the on-line load balancing problem where there are m identical machines (servers) and a ...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
textabstractWe consider load-balancing in the following setting. The on-line algorithm is allowed to...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
AbstractWe design a general mathematical framework to analyze the properties of nearest neighbor bal...