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Multi-Modal Decentralized Interaction in Multi-Entity Systems.

Andrei Olaru1, Monica Pricope1

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This study introduces decentralized communication for mobile agents, enhancing system robustness. The new WebSocket Regions protocol offers a favorable trade-off between decentralization and performance compared to existing frameworks.

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Area of Science:

  • Computer Science
  • Distributed Systems
  • Software Engineering

Background:

  • Current multi-agent systems rely on centralized communication, limiting robustness.
  • Mobile agents migrating between nodes pose challenges for fixed infrastructures.
  • Existing agent frameworks often lack support for decentralized and dynamic communication.

Purpose of the Study:

  • To introduce methods for building decentralized interaction infrastructures that support migrating entities.
  • To present the WebSocket Regions (WS-Regions) communication protocol.
  • To enable arbitrary naming of entities within agent deployments.

Main Methods:

  • Development of the F_LASH-MAS (Fast and Lightweight Agent Shell) framework.
  • Introduction of the WS-Regions communication protocol.
  • Comparative analysis of WS-Regions against the Jade (Java Agent Development Framework) framework.

Main Results:

  • WS-Regions facilitates decentralized interaction for migrating agents.
  • The protocol supports multiple communication methods and arbitrary entity naming.
  • WS-Regions demonstrates a favorable decentralization-performance trade-off compared to Jade.

Conclusions:

  • Decentralized communication infrastructures enhance multi-agent system robustness.
  • The WS-Regions protocol provides an effective solution for dynamic agent environments.
  • F_LASH-MAS with WS-Regions offers a competitive alternative to established agent frameworks.