Adjustable autonomy in real-world multi-agent environments
Proceedings of the fifth international conference on Autonomous agents
Monitoring deployed agent teams
Proceedings of the fifth international conference on Autonomous agents
Computational adjustable autonomy for NASA Personal Satellite Assistants
Proceedings of the 2002 ACM symposium on Applied computing
Towards robust teams with many agents
Proceedings of the first international joint conference on Autonomous agents and multiagent systems: part 2
Conversational Case-Based Planning for Agent Team Coordination
ICCBR '01 Proceedings of the 4th International Conference on Case-Based Reasoning: Case-Based Reasoning Research and Development
Adjustable Autonomy: A Response
ATAL '00 Proceedings of the 7th International Workshop on Intelligent Agents VII. Agent Theories Architectures and Languages
MONAD: a flexible architecture for multi-agent control
AAMAS '03 Proceedings of the second international joint conference on Autonomous agents and multiagent systems
A future framework for interfacing BDI agents in a real-time teaming environment
Journal of Network and Computer Applications - Special issue: Innovations in agent collaboration
A KEYHOLE PLAN RECOGNITION MODEL FOR ALZHEIMER'S PATIENTS: FIRST RESULTS
Applied Artificial Intelligence
Controlling an Interactive Game with a Multi-agent Based Normative Organisational Model
Coordination, Organizations, Institutions, and Norms in Agent Systems II
The communicative multiagent team decision problem: analyzing teamwork theories and models
Journal of Artificial Intelligence Research
Monitoring teams by overhearing: a multi-agent plan-recognition approach
Journal of Artificial Intelligence Research
Towards adjustable autonomy for the real world
Journal of Artificial Intelligence Research
Automated adaptations to dynamic software architectures by using autonomous agents
Engineering Applications of Artificial Intelligence
A representation for coordination fault detection in large-scale multi-agent systems
Annals of Mathematics and Artificial Intelligence
Agent and multi-agent applications to support distributed communities of practice: a short review
Autonomous Agents and Multi-Agent Systems
ADAPT: abstraction hierarchies to better simulate teamwork under dynamics
AEGS'11 Proceedings of the 2011 international conference on Agents for Educational Games and Simulations
From knowledge science to symbiosis science
International Journal of Human-Computer Studies
Tangible ambient intelligence with semantic agents in daily activities
Journal of Ambient Intelligence and Smart Environments
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With the proliferation of software agents and smart hardware devices there is a growing realization that large-scale problems can be addressed by integration of such stand-alone systems. This has led to an increasing interest in integration architectures that enable a heterogeneous variety of agents and humans to work together: These agents and humans differ in their capabilities, preferences, the level of autonomy they are willing to grant the integration architecture and their information requirements and performance.The challenge in coordinating such a diverse agent set is that potentially a large number of domain-specific and agent-specific coordination plans may be required. We present a novel two-tiered approach to address this coordination problem. We first provide the integration architecture with general-purpose teamwork coordination capabilities, but they enable adaptation of such capabilities for the needs or requirements of specific individuals. A key novel aspect of this adaptation is that it takes place in the context of other heterogeneous team members. We are realizing this approach in an implemented distributed agent integration architecture called Teamcore. Experimental results from two different domains are presented.