From Artificial Intelligence to Active Inference: The Key to True AI and 6G World Brain [Invited]

TL;DR

This paper advocates for transforming future optical and mobile networks into living, brain-like systems using active inference, a biomimetic AI methodology that enhances learning, training, and explainability for the 6G era.

Contribution

It introduces active inference concepts to optical network research and explores biological networks as models for the next-generation AI-powered network brain.

Findings

Active inference offers a biomimetic approach for advanced AI systems.

Mycorrhizal networks exemplify large-scale biological intelligence.

Frameworks for integrating active inference into optical networks are proposed.

Abstract

In his opening OFC plenary talk back in 2021, Alibaba Group's Yiqun Cai notably added in the follow-up Q&A that today's complex networks are more than computer science - they grow, they are life. This entails that future networks may be better viewed as techno-social systems that resemble biological superorganisms with brain-like cognitive capabilities. Fast-forwarding, there is now growing awareness that we have to completely change our networks from being static into being a living entity that would act as an AI-powered network `brain', as recently stated by Bruno Zerbib, Chief Technology and Innovation Officer of France's Orange, at the Mobile World Congress (MWC) 2025. Even though AI was front and center at both MWC and OFC 2025 and has been widely studied in the context of optical networks, there are currently no publications on active inference in optical (and less so mobile) networks available. Active inference is an ideal methodology for developing more advanced AI systems by biomimicking the way living intelligent systems work, while overcoming the limitations of today's AI related to training, learning, and explainability. Active inference is considered the key to true AI: Less artificial, more intelligent. The goal of this paper is twofold. First, we aim at enabling optical network researchers to conceptualize new research lines for future optical networks with human-AI interaction capabilities by introducing them to the main mathematical concepts of the active inference framework. Second, we demonstrate how to move AI research beyond the human brain toward the 6G world brain by exploring the role of mycorrhizal networks, the largest living organism on planet Earth, in the AI vision and R&D roadmap for the next decade and beyond laid out by Karl Friston, the father of active inference.