Multi Agent System
Multi-agent systems (MAS) research focuses on designing and analyzing systems composed of multiple interacting agents, aiming to achieve collective goals exceeding individual capabilities. Current research emphasizes efficient communication strategies within MAS, particularly leveraging large language models (LLMs) and incorporating techniques like Retrieval-Augmented Generation (RAG) to improve decision-making and reduce computational costs. This field is significant for advancing AI capabilities in complex problem-solving, with applications ranging from robotics and urban planning to financial modeling and software development. The development of robust and scalable frameworks, along with methods for handling malicious agents and model uncertainty, are key areas of ongoing investigation.
Papers
Improving Performance of Commercially Available AI Products in a Multi-Agent Configuration
Cory Hymel, Sida Peng, Kevin Xu, Charath Ranganathan
Inverse Attention Agent for Multi-Agent System
Qian Long, Ruoyan Li, Minglu Zhao, Tao Gao, Demetri Terzopoulos
FinVision: A Multi-Agent Framework for Stock Market Prediction
Sorouralsadat Fatemi, Yuheng Hu
AgentOccam: A Simple Yet Strong Baseline for LLM-Based Web Agents
Ke Yang, Yao Liu, Sapana Chaudhary, Rasool Fakoor, Pratik Chaudhari, George Karypis, Huzefa Rangwala
Rapid and Automated Alloy Design with Graph Neural Network-Powered LLM-Driven Multi-Agent Systems
Alireza Ghafarollahi, Markus J. Buehler
Multiple Ships Cooperative Navigation and Collision Avoidance using Multi-agent Reinforcement Learning with Communication
Y. Wang, Y. Zhao
Two Heads Are Better Than One: A Multi-Agent System Has the Potential to Improve Scientific Idea Generation
Haoyang Su, Renqi Chen, Shixiang Tang, Xinzhe Zheng, Jingzhe Li, Zhenfei Yin, Wanli Ouyang, Nanqing Dong