Software Engineering for Multi-Agent Systems V Research Issues and Practical Applications /
Software Engineering for Multi-Agent Systems V Research Issues and Practical Applications / [electronic resource] :
edited by Ricardo Choren, Alessandro Garcia, Carlos Lucena, Alexander Romanovsky.
- 1st ed. 2007.
- XII, 236 p. online resource.
- Programming and Software Engineering, 4408 2945-9168 ; .
- Programming and Software Engineering, 4408 .
Fault Tolerance -- On Fault Tolerance in Law-Governed Multi-agent Systems -- On Developing Open Mobile Fault Tolerant Agent Systems -- Exception Handling and Diagnosis -- Challenges for Exception Handling in Multi-Agent Systems -- Exception Handling in Context-Aware Agent Systems: A Case Study -- Exception Diagnosis Architecture for Open Multi-Agent Systems -- Security and Trust -- SMASH: Modular Security for Mobile Agents -- Reasoning About Willingness in Networks of Agents -- Verification and Validation -- Towards Compliance of Agents in Open Multi-agent Systems -- Towards an Ontological Account of Agent-Oriented Goals -- Early Development Phases and Software Reuse -- Improving Multi-Agent Architectural Design -- Objects as Actors Assuming Roles in the Environment -- A Framework for Situated Multiagent Systems.
Software is present in every aspect of our lives, pushing us inevitably towards a world of distributed computing systems. Agent concepts hold great promise for responding to the new realities of large-scale distributed systems. Multi-agent systems (MASs) and their underlying theories provide a more natural support for ensuring important agent properties, such as autonomy, environment heterogeneity, organization and openness. Nevertheless, a software agent is an inherently more complex abstraction, posing new challenges to software engineering. Without adequate development te- niques and methods, MASs will not be sufficiently dependable, thus making their wide adoption by the industry more difficult. The dependability of a computing system is its ability to deliver a service that can be justifiably trusted. It is a singular time for dependable distributed systems, since the traditional models we use to express the relationships between a computational process and its environment are changing from the standard deterministic types into ones that are more distributed and dynamic. This served as a guiding principle for planning the Software Engineering for Large-Scale Multi-Agent Systems (SELMAS 2006) workshop, starting with selecting the theme, “building dependable multi-agent systems.” It acknowledges our belief in the increasingly vital role dependability plays as an essential element of MAS development.
9783540731313
10.1007/978-3-540-73131-3 doi
Software engineering.
Artificial intelligence.
Computer networks .
Computer programming.
User interfaces (Computer systems).
Human-computer interaction.
Software Engineering.
Artificial Intelligence.
Computer Communication Networks.
Programming Techniques.
User Interfaces and Human Computer Interaction.
QA76.758
005.1
Fault Tolerance -- On Fault Tolerance in Law-Governed Multi-agent Systems -- On Developing Open Mobile Fault Tolerant Agent Systems -- Exception Handling and Diagnosis -- Challenges for Exception Handling in Multi-Agent Systems -- Exception Handling in Context-Aware Agent Systems: A Case Study -- Exception Diagnosis Architecture for Open Multi-Agent Systems -- Security and Trust -- SMASH: Modular Security for Mobile Agents -- Reasoning About Willingness in Networks of Agents -- Verification and Validation -- Towards Compliance of Agents in Open Multi-agent Systems -- Towards an Ontological Account of Agent-Oriented Goals -- Early Development Phases and Software Reuse -- Improving Multi-Agent Architectural Design -- Objects as Actors Assuming Roles in the Environment -- A Framework for Situated Multiagent Systems.
Software is present in every aspect of our lives, pushing us inevitably towards a world of distributed computing systems. Agent concepts hold great promise for responding to the new realities of large-scale distributed systems. Multi-agent systems (MASs) and their underlying theories provide a more natural support for ensuring important agent properties, such as autonomy, environment heterogeneity, organization and openness. Nevertheless, a software agent is an inherently more complex abstraction, posing new challenges to software engineering. Without adequate development te- niques and methods, MASs will not be sufficiently dependable, thus making their wide adoption by the industry more difficult. The dependability of a computing system is its ability to deliver a service that can be justifiably trusted. It is a singular time for dependable distributed systems, since the traditional models we use to express the relationships between a computational process and its environment are changing from the standard deterministic types into ones that are more distributed and dynamic. This served as a guiding principle for planning the Software Engineering for Large-Scale Multi-Agent Systems (SELMAS 2006) workshop, starting with selecting the theme, “building dependable multi-agent systems.” It acknowledges our belief in the increasingly vital role dependability plays as an essential element of MAS development.
9783540731313
10.1007/978-3-540-73131-3 doi
Software engineering.
Artificial intelligence.
Computer networks .
Computer programming.
User interfaces (Computer systems).
Human-computer interaction.
Software Engineering.
Artificial Intelligence.
Computer Communication Networks.
Programming Techniques.
User Interfaces and Human Computer Interaction.
QA76.758
005.1