Iván Hernández Dalas: Why AIC is the only path to certifiable robotics

A transparent humanoid symbolizing the need for artificial integrated cognition or AIC.

Artificial integrated cognition, or AIC, can provide certifiable physics-based architectures. Source: Hidayat AI, via Adobe Stock

The robotics industry is at a crossroads. The European Union’s Artificial Intelligence Act is forcing forcing the robotics industry to abandon opaque, end-to-end neural networks in favor of transparent, physics-based artificial integrated cognition, or AIC, architectures.

The robotics space is entering its most critical phase since the birth of industrial automation. On one side, we see breathtaking humanoid demonstrations powered by massive end-to-end neural networks.

On the other, we face an immovable reality: regulation. The EU AI Act does not ask how impressive a robot looks, but whether its behavior can be explained, audited, and certified.

The risk of the ‘blind giant’

Black-box AI models create what can be described as the “blind giant problem:” extraordinary performance without understanding. Such systems cannot explain decisions, guarantee bounded behavior, or provide forensic accountability after incidents. This makes them fundamentally incompatible with high-risk, regulated robotic deployments.

Why end-to-end neural control will not survive regulation

End-to-end neural control compresses perception, cognition, and action into a single opaque function. From a certification perspective, this approach prevents isolation of failure modes, proof of stability boundaries, and reconstruction of causal decision chains. Without internal structure, AI cannot be audited.

A humanoid robot with an AI overlay. AI needs to be certifiably transparent for wider use in robotics.

AI needs a transparent architecture for mission-critical robotics. Credit: Guiseppe Marino, Nano Banana

AIC offers a different paradigm

Artificial integrated cognition is based on physics-driven dynamics, functional modularity, and continuous internal observability. Cognition emerges from mathematically bounded systems that expose their internal state, coherence, and confidence before acting. This makes AIC inherently compatible with certification frameworks.

From learning to knowing what you are doing

AIC replaces blind optimization with reflective control. Instead of acting solely to maximize reward, the system evaluates whether an action is coherent, stable, and explainable given its current internal state. This internal observer enables functional accountability.

Why regulators will prefer physics over statistics

Regulators trust equations, bounds, and deterministic behavior under constraints. Physics-based cognitive architectures provide formal verification paths, predictable degradation, and clear responsibility chains—features that statistical black-box models cannot offer.

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The commercial implications of AIC

The most impressive robots of today may never reach the market if they cannot be certified. Certification, not performance demonstrations, will determine real-world deployment. Systems designed for explainability from Day 1 will quietly but decisively dominate regulated environments.

Intelligence must become accountable with AIC

The future of robotics will be decided by intelligence that can be trusted, explained, and certified. Artificial Integrated Cognition is not an alternative trend—it is the only viable path forward. The era of blind giants is ending. The era of accountable intelligence has begun.

Guiseppe Marino, CEO of QBI-COREAbout the author

Giuseppe Marino is the founder and CEO of QBI-CORE AIC. He is a researcher and expert in cognitive robotics and explainable AI (XAI), focusing on native compliance with the EU AI Act for high-risk robotic systems.

This article is reposted with permission.

The post Why AIC is the only path to certifiable robotics appeared first on The Robot Report.



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