Problem-Solving in Language Model Networks
June 18, 2024 Β· Declared Dead Β· π The 2024 Conference on Artificial Life
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Authors
Ciaran Regan, Alexandre Gournail, Mizuki Oka
arXiv ID
2406.12374
Category
cs.AI: Artificial Intelligence
Cross-listed
cs.SI
Citations
4
Venue
The 2024 Conference on Artificial Life
Last Checked
4 months ago
Abstract
To improve the reasoning and question-answering capabilities of Large Language Models (LLMs), several multi-agent approaches have been introduced. While these methods enhance performance, the application of collective intelligence-based approaches to complex network structures and the dynamics of agent interactions remain underexplored. This work extends the concept of multi-agent debate to more general network topologies, measuring the question-answering accuracy, influence, consensus, and the effects of bias on the collective. The results show that random networks perform similarly to fully connected networks despite using significantly fewer tokens. Furthermore, a strong consensus among agents correlates with correct answers, whereas divided responses typically indicate incorrect answers. Analysing the influence of the agents reveals a balance between self-reflection and interconnectedness; self-reflection aids when local interactions are incorrect, and local interactions aid when the agent itself is incorrect. Additionally, bias plays a strong role in system performance with correctly biased hub nodes boosting performance. These insights suggest that using random networks or scale-free networks with knowledgeable agents placed in central positions can enhance the overall question-answering performance of multi-agent systems.
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