paint-brush
Artificial Cultural Intelligence: A Case for Itby@georgesiosi
141 reads

Artificial Cultural Intelligence: A Case for It

by George Siosi SamuelsNovember 8th, 2024
Read on Terminal Reader
tldt arrow

Too Long; Didn't Read

Current Western LLMs are Class II or III reasoning models. Artificial Cultural Intelligence (ACI) may be the Class IV type of system sought out by current researchers.
featured image - Artificial Cultural Intelligence: A Case for It
George Siosi Samuels HackerNoon profile picture

This article was originally published on georgesiosi.com/writings/artificial-cultural-intelligence

I recently stumbled upon a fascinating research paper titled Intelligence at the Edge of Chaos. It explores how AI systems trained on behaviors that exist between rigid order and total chaos—referred to as Class IV systems—tend to show enhanced reasoning and adaptability. This insight, which connects with the concept of balance and complexity, led me to think about how such models parallel the ways indigenous knowledge systems operate, like the fluid yet structured methods of Polynesian wayfinding.

The Sweet Spot: Between Order & Chaos

Source: https://www.arxiv.org/abs/2410.02536

According to the paper, most Western-developed Large Language Models (LLMs), including ChatGPT and Claude, fall under Class II or Class III behaviors—either too rule-bound or creative yet unstructured. However, Class IV models find a middle ground, balancing predictability with adaptability. The fourth classification sounded strikingly similar to indigenous knowledge systems.


For example, the systems required for ancient Polynesian navigators (wayfinders) who would read the stars, waves, and wind patterns — adapting their route across vast oceans without losing direction. They navigated by recognizing patterns in a complex, interconnected world (see Legendary’ map of Pacific by James Cook’s Tahitian Navigator Tupaia below), much like the ideal adaptive (Class IV) AI would.


Source: https://www.stuff.co.nz/national/101871481/legendary-map-of-pacific-by-james-cooks-tahitian-navigator-tupaia-finally-unlocked

The Intelligence at the Edge of Chaos research found that AI systems exposed to more complex rules— to chaotic yet not entirely random environments—showed a higher degree of intelligence. The analogy fits here: instead of adhering to rigid formulas or losing coherence in randomness, they manage to adapt, just as wayfinders do.








Beyond Grammar: The Cultural Nuance of Communication

LLMs that speak to you in your own language are a technical marvel, but cultural contexts can be a real challenge. What is grammatically correct in one language might be tone-deaf or even offensive in another. For example, consider how an AI might navigate the subtleties of addressing elders differently across cultures.


Western-built LLMs tend to operate on fixed rules that may not always grasp these nuances, highlighting why a deeper, more adaptable form of intelligence is needed—one that’s culturally aware, context-sensitive, and can read between the lines.

From Chess (West) to Weiqi/Go (East)

This brings to mind the evolution of training deep learning models, initially focused on Western-style chess, a game rooted in strategy, predictability, and hierarchy.


But to advance, AI researchers had to turn to Weiqi (or Go, above), an Eastern game that embodies complexity, adaptability, and a constantly shifting balance—hallmarks of Class IV systems.


The shift from chess to Go was a metaphorical leap from rigid strategy to dynamic pattern recognition, reflecting how intelligent systems need to move beyond order into the realm of adaptive chaos to excel.

Towards Artificial Cultural Intelligence (ACI)

This concept of balancing complexity with coherence has broader implications. Imagine Artificial Cultural Intelligence (ACI), a new breed of AI that doesn’t just follow the rules or generate random responses but learns to adapt much like traditional ecological knowledge (TEK) systems.


These systems maintain ecological balance through constant adaptation, reading environmental shifts, and making real-time adjustments. An ACI could be built to emulate this kind of (Class IV) responsive, intelligent adaptability, drawing insights not just from data but from the wisdom embedded in diverse cultural practices.

Building AI that Understands & Adapts

The future of AI could benefit from this culturally adaptive thinking. Imagine systems that can not only predict trends but also respect the cultural sensitivities of the regions they operate in, understanding not just what to say but how to say it. They would thrive in real-world applications where context and nuance are crucial, from negotiating diplomatic language to managing local ecological projects.


Much like a master wayfinder adjusts to the waves, these systems would navigate the complexities of human interaction, balancing cultural wisdom with technological prowess.

Conclusion: Bridging Cultures, Bridging Complexity

The journey from rigid, rule-based AI to adaptable, culturally intelligent systems mirrors the transition from chess to Go, from order to dynamic balance. This is the promise of Intelligence at the Edge of Chaos—to build models that thrive not just in structured environments but in complex, interconnected realities. Indigenous knowledge systems have mastered this balance for centuries, guiding communities with a blend of adaptability and core principles (Class IV signals).


If AI can learn to do the same, we might just see the dawn of Artificial Cultural Intelligence—a future where technology doesn’t just process data but understands, adapts, and, in its own way, learns to navigate the world as gracefully as a Wayfinder reading ocean waves.


For more insights on this subject, check out the full paper on Intelligence at the Edge of Chaos.