We propose a method for increasing incentives for sites to host arbitrary mobile agents in which mobile agents purchase their computing needs from host sites. We present a scalable market-based CPU allocation policy and an on-line algorithm that plans a mobile agent\u27s expenditure over a multihop ordered itinerary. The algorithm chooses a set of sites at which to execute and computational priorities at each site to minimize execution time while preserving a prespecified budget constraint. We present simulation results of our algorithm to show that our allocation policy and planning algorithm scale well as more agents are added to the system
The objective of the paper is twofold. First, to develop a formal framework for planning for mobile ...
©2004 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
AbstractTasks allocation is a fundamental problem in multiagent systems. We formulate the problem as...
Mobile-agent systems allow applications to distribute their resource consumption across the network....
Mobile agents are programs capable of migrating from one host machine to another. We propose that mo...
In traditional computational systems, resource owners have no incentive to subject themselves to add...
Mobile-agent systems allow user programs to autonomously relocate from one host site to another. Thi...
Mobile-agent systems have gained popularity in use because they ease the application design process ...
Mobile-agent systems allow user programs to autonomously relocate from one host site to another. Thi...
Modern distributed systems scatter sensors, storage, and computation throughout the environment. Ide...
This paper considers resource allocation in a network with mobile agents competing for computational...
A usable and efficient resource-management system has been created for use with D\u27Agents. The sof...
Mobile agents are programs that can migrate from machine to machine in a heterogeneous, partially di...
A mobile agent is a composition of computer program, data, and execution state, which is able to mov...
Abstract- Proposed management architectures, incorporating mobile agent (MA) technology, fail to add...
The objective of the paper is twofold. First, to develop a formal framework for planning for mobile ...
©2004 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
AbstractTasks allocation is a fundamental problem in multiagent systems. We formulate the problem as...
Mobile-agent systems allow applications to distribute their resource consumption across the network....
Mobile agents are programs capable of migrating from one host machine to another. We propose that mo...
In traditional computational systems, resource owners have no incentive to subject themselves to add...
Mobile-agent systems allow user programs to autonomously relocate from one host site to another. Thi...
Mobile-agent systems have gained popularity in use because they ease the application design process ...
Mobile-agent systems allow user programs to autonomously relocate from one host site to another. Thi...
Modern distributed systems scatter sensors, storage, and computation throughout the environment. Ide...
This paper considers resource allocation in a network with mobile agents competing for computational...
A usable and efficient resource-management system has been created for use with D\u27Agents. The sof...
Mobile agents are programs that can migrate from machine to machine in a heterogeneous, partially di...
A mobile agent is a composition of computer program, data, and execution state, which is able to mov...
Abstract- Proposed management architectures, incorporating mobile agent (MA) technology, fail to add...
The objective of the paper is twofold. First, to develop a formal framework for planning for mobile ...
©2004 IEEE. Personal use of this material is permitted. However, permission to reprint/republish thi...
AbstractTasks allocation is a fundamental problem in multiagent systems. We formulate the problem as...