Application-level fault tolerance incurs significant development-time cost. FATMAD is a fault-tolerant multi-agent development framework that is built on top of a mobile agent platform (Jade) and provides development support for application level fault tolerance. FATMAD aims to satisfy the needs of two communities of users: agent application developers and fault-tolerant protocol developers. FATMAD is based on a generic fault-tolerant protocol whose refinements lead to a broad range of checkpoint and recovery protocols to be used in user applications. This, in turn, can significantly reduce the development time of fault-tolerant agent applications. FATMAD allows application developers to apply suitable protocols and customizable deployment ...
This paper presents DARX, our framework for building applications that provide adaptive fault tolera...
ABSTRACT The paper introduces the Cama (C ontext-Aware M obile Agents) framework intended for develo...
Abstract: Mobile agents are distributed programs which can move autonomously in a network, to perfor...
Abstract: Mobile agents are no longer a theoretical issue since different architectures for their re...
The flexibility offered by mobile agents is quite noticeable in distributed computing environments. ...
Fault tolerance is fundamental to the further development of mobile agent applications. In the conte...
International audienceFaults are a concern for Multi-Agent Systems (MAS) designers, especially if th...
In this paper, findings and analysis detail the implementation of fault tolerance services into a go...
"Mobile Agent Systems" is an emerging technology that is becoming increasingly popular. A huge amou...
International audienceFault tolerance is an important property of large-scale multi-agent systems as...
Fault tolerance is essential to any soft real-time distributed system; besides correctness and timel...
Fault-tolerance is one of the main problems that must be resolved to improve the adoption of the age...
We are proposing the A3 fault-tolerant framework for distributed computing with multiple mobile agen...
The paper introduces the CAMA (Context-Aware Mobile Agents) framework intended for developing large-...
The purpose of this paper is to investigate how several innovative techniques, not all initially int...
This paper presents DARX, our framework for building applications that provide adaptive fault tolera...
ABSTRACT The paper introduces the Cama (C ontext-Aware M obile Agents) framework intended for develo...
Abstract: Mobile agents are distributed programs which can move autonomously in a network, to perfor...
Abstract: Mobile agents are no longer a theoretical issue since different architectures for their re...
The flexibility offered by mobile agents is quite noticeable in distributed computing environments. ...
Fault tolerance is fundamental to the further development of mobile agent applications. In the conte...
International audienceFaults are a concern for Multi-Agent Systems (MAS) designers, especially if th...
In this paper, findings and analysis detail the implementation of fault tolerance services into a go...
"Mobile Agent Systems" is an emerging technology that is becoming increasingly popular. A huge amou...
International audienceFault tolerance is an important property of large-scale multi-agent systems as...
Fault tolerance is essential to any soft real-time distributed system; besides correctness and timel...
Fault-tolerance is one of the main problems that must be resolved to improve the adoption of the age...
We are proposing the A3 fault-tolerant framework for distributed computing with multiple mobile agen...
The paper introduces the CAMA (Context-Aware Mobile Agents) framework intended for developing large-...
The purpose of this paper is to investigate how several innovative techniques, not all initially int...
This paper presents DARX, our framework for building applications that provide adaptive fault tolera...
ABSTRACT The paper introduces the Cama (C ontext-Aware M obile Agents) framework intended for develo...
Abstract: Mobile agents are distributed programs which can move autonomously in a network, to perfor...