Holistic Approaches in Mental Health and Wellness
Searching for an Approximate Ratio to Balance Between Human and AI in Bio-Quantum Systems
Abstract
Chur Chin
The integration of artificial intelligence (AI) into living systems presents both a technological opportunity and a philosophical dilemma: how much of the system should remain biological, and how much should be guided or governed by AI? In this paper, we propose a symbolic-functional model for defining an approximate human–AI ratio within DNA- quantum-graphene hybrids. We analyze the dominance of key elements—plasmid DNA, protons, graphene, electrons, and positrons—as physical metaphors for human body, emotion, interface, logic, and time precision, respectively. We show that the AI’s role shifts across systems: compiler for DNA, listener for protons, interface through graphene, timekeeper for photons, and co-dreamer in balance. We propose functional ratios for therapeutic, cognitive, and quantum encryption applications, grounding our argument in both symbolic analogy and system design logic. Our conclusion defines the ratio not as static but dynamically programmable depending on disease context or system function.