Zenodo Description This article presents a critical–propositional analysis of Guanyi Liu’s The Hypothesis of Sensory and Dimensional Evolution in confrontation with the Theory of Objectivity developed by Vidamor Cabannas and Denivaldo Silva. Liu’s hypothesis proposes that biological sensory systems may operate as dimensional decoding channels, transforming a high-dimensional noumenal reality into phenomenal worlds structured by perception, cognition, and evolutionary adaptation. The analysis examines possible compatibilities and tensions between Liu’s sensory-dimensional model and the modal axioms of the Theory of Objectivity, especially regarding phenomenic elements, Inducer Effects, the cosmogonic theorem of TO, the cosmological Eras, and the informational substance transcendent to the quantum. Particular attention is given to the interpretation of observation, quantum phenomena, cognitive incommensurability, the Fermi paradox, and the role of knowledge or information produced in atomic relations as equivalent to atomic radiations within the framework of TO. The article argues that Liu’s proposal offers a relevant auxiliary framework for thinking the phenomenic decoding performed by Units of Intelligence, while also requiring modal grounding in the Seven Absolute Truths of the Theory of Objectivity. It concludes that Liu’s work has a high degree of dialogue with TO, especially in relation to perception, information, dimensional cognition, and the constitution of observable worlds. This analytical text received analytical support from ChatGPT. Keywords Theory of Objectivity; Vidamor Cabannas; Guanyi Liu; sensory evolution; dimensional cognition; phenomenic elements; Inducer Effects; modal ontology; quantum observation; informational substance; atomic radiation; Fermi paradox; cognitive incommensurability; cosmological Eras; cosmogonic theorem; philosophy of physics; perception and reality.
Cabannas et al. (Sun,) studied this question.