Abstract – A very important issue in distributed systems is the management of load among system nodes. Load balancing enables a better use of the system resource capabilities and a better performance by allocating nodes that are more suitable for the execution of some tasks. This work proposes a multi-agent load balancing architecture for distributed object applications denominated MALBA which uses artificial neural networks and a set of policies to support the process of migrating and replicating the application objects. MALBA architecture outlines a decentralized balancing process which balances the load among nodes which execute a distributed object application
In a cluster environment, the identification and the classification of the requested task is a prere...
Distributed object computing systems are widely envisioned to be the desired distributed software de...
This paper investigates the network load balancing problem in data centers (DCs) where multiple load...
With the incidence of technology at each and every juncture of human life, there has been an acceler...
Distributed object computing is widely envisioned to be the desired distributed software development...
Distributed object computing is widely envisioned to be the desired distributed software development...
We report on the improvements that can be achieved by applying machine learning techniques, in parti...
Load balancing in distributed systems allows users to access large amount of computing resources des...
Abstract. Load-Balancing is a significant problem in heterogeneous dis-tributed systems. There exist...
This paper describes a new portable load distribution library, called ALDY (Adaptive Load Distributi...
Multiagent computing on a cluster of workstations is widely envisioned to be a powerful paradigm for...
AbstractIn this paper, a dynamic load-balancing scheme is developed for implementation in an agent-b...
In any distributed system, there are processors wherein the computational capacities are too small t...
In this thesis, we study load balancing and overload control in two distributed architectures: Distr...
Distributed computing systems aim to connect human and information resources in a transparent, open ...
In a cluster environment, the identification and the classification of the requested task is a prere...
Distributed object computing systems are widely envisioned to be the desired distributed software de...
This paper investigates the network load balancing problem in data centers (DCs) where multiple load...
With the incidence of technology at each and every juncture of human life, there has been an acceler...
Distributed object computing is widely envisioned to be the desired distributed software development...
Distributed object computing is widely envisioned to be the desired distributed software development...
We report on the improvements that can be achieved by applying machine learning techniques, in parti...
Load balancing in distributed systems allows users to access large amount of computing resources des...
Abstract. Load-Balancing is a significant problem in heterogeneous dis-tributed systems. There exist...
This paper describes a new portable load distribution library, called ALDY (Adaptive Load Distributi...
Multiagent computing on a cluster of workstations is widely envisioned to be a powerful paradigm for...
AbstractIn this paper, a dynamic load-balancing scheme is developed for implementation in an agent-b...
In any distributed system, there are processors wherein the computational capacities are too small t...
In this thesis, we study load balancing and overload control in two distributed architectures: Distr...
Distributed computing systems aim to connect human and information resources in a transparent, open ...
In a cluster environment, the identification and the classification of the requested task is a prere...
Distributed object computing systems are widely envisioned to be the desired distributed software de...
This paper investigates the network load balancing problem in data centers (DCs) where multiple load...