IAT 2013 - IAT 2013 : International Conference on Intelligent Agent Technology

IAT 2013 provides a leading international forum to bring together researchers and practitioners from diverse fields that include; computer science, information technology, business, education, systems engineering and robotics. IAT 2013 will be jointly held with the 2013 IEEE/WIC/ACM International Conference on Web Intelligence (WI 2013). WI-IAT’13 will have various workshops, WI-IAT technical sessions, tutorials and panels. WI-IAT’13 will have keynotes, a social reception together with the poster session and industry demo, and a banquet. Attendees only need to register once to attend all technical events at WI-IAT’13.
Furthermore, WI-IAT 2013 will include workshops providing in-depth background on subjects that are of broad interest to Web intelligence and Intelligent Agent Technology communities. The workshop programs will focus on new research challenges, initiatives and applications. IAT 2013 is an excellent opportunity for researchers who wish to examine design principles and performance characteristics of various approaches in intelligent agent technology, and increase the cross-fertilization of ideas on the development of autonomous agents and multi- agent systems among different domains. By encouraging idea-sharing and discussions on the underlying logical, cognitive, physical, and sociological foundations as well as the enabling technologies of intelligent agents, IAT 2013 will foster the development of novel paradigms and advanced solutions in agent and multi-agent based computing.
Dr. John E. Hopcroft from Cornell University, who won A. M. Turing Award in 1986, will give a keynote speech at WI-IAT’13.
IAT 2013 topics and areas include, but not limited to:
Autonomy-Oriented Computing (AOC)
- Autonomy-Oriented Modeling and Computing Methods
- Complex Behavior Characterization
- Complex Systems Modeling and Simulation
- Emergent Behavior
- Hard Computational Problem Solving
- Nature-Inspired Computing
- Regularities and Models of AOC
- Self-Organization in Multi-Agent Systems
- Self-Organized Complex Networks
- Swarm or Collective Intelligence
- Unconventional, Self-Organized Computing Paradigms
Agent and Multi-Agent Systems Modeling
- Complex Agent Behavior Modeling
- Cognitive Architectures
- Cognitive Modeling of Agents
- Emotional Modeling
- Neuroeconomics
- Peer-to-Peer Models for Multi-Agent Systems
Agent and Multi-Agent Systems Engineering
- Agent Oriented Sofware Engineering
- Multi-Agent Oriented Software Engineering
- Multi-Agent Programming Languages
- Formal Framework for Multi-Agent Systems
- Testing, Debugging of Multi-Agent Systems
- Evaluation of Multi-Agent Systems
- Efficiency and Complexity Issues
- Scalability
- Tools and Standards
- Fault-Tolerance in Multi-Agent Systems
- Mobile Agent Languages and Protocols
- Multi-Agent Autonomic Architectures
Coordination
- Multi-Agent Planning
- Social Interactions in Multi-Agent Systems
- Information Exchanges in Multi-Agent Systems
- Learning and Self-Adaptation in Multi-Agent Systems
- Agent Interaction Protocols
- Social and organizational structures, institutions
- Norms and normative behavior
- Trust, reputation
- Privacy, safety, security
Autonomous Auctions and Negotiation
- Agent-Based Marketplaces
- Auction Markets
- Combinatorial Auctions
- Hybrid Negotiation
- Integrative Negotiation
- Mediating Agents
- Pricing Agents
- Trading Agents
Autonomous Knowledge and Information Agents
- Agent-Based Knowledge Discovery and Sharing
- Autonomous Information Services
- Distributed Knowledge Systems
- Evolution of Topics, Trends, Knowledge Networks and Communities
- Human-Agent Interaction
- Information Filtering Agents
- Agent-Based Knowledge Aggregation
- Ontology-Based Services
- Recommender Agent-Based Systems
- Agent Mining
Distributed Problem Solving
- Agent Networks in Distributed Problem Solving
- Collective Group Behavior
- Coordination and Cooperation
- Distributed Intelligence
- Distributed Search
- Dynamics of Agent Groups and Populations
- Market-Based Computing
- Problem-Solving in Dynamic Environments
Applications
- Agent-Based Cloud Computing
- Agent-Based Assistants
- Agent-Based Virtual Enterprise
- Software and Pervasive Agents
- Perceptive Animated Interfaces
- Embodied Agents
- Interface Agents
- Virtual Humans
- Games
- Knowledge and Data Intensive Systems
- Large-Scale Systems Applications (e.g., Social, Policy, Sustainability, Brain Informatics (BI), and Web Intelligence (WI) Applications)
- Social Simulation (e.g., Social Behavior, Social Inference, Social Networks, and Social Norms)
- Ubiquitous Systems and e-Technology Agents
- Intelligent green systems (energy efficient cloud systems, energy efficient sensor networks, energy efficient data center, energy efficient smart grids, etc.)