This article presents a critical-propositional analysis of Benchekroun Mounssif’s A Discrete Relational Framework Without Fundamental Time or Wave: Master Equation, Relational Book, and Quantum Measurement by Relational Selection, published on Zenodo under DOI: https://doi.org/10.5281/zenodo.18249405. The study places Mounssif’s discrete relational framework in dialogue with the Theory of Objectivity (TO), especially with its modal axioms, phenomenic elements, Inducer Effects, cosmogonic theorem, and cosmological Eras. The analysis examines Mounssif’s proposal of an atemporal relational ontology without primitive evolution, ontological randomness, or wave ontology, governed by a master equation of global coherence and by the notion of a relational book in which events become apparent through constrained relational activation. The article argues that Mounssif’s framework offers a strong formal dialogue with TO by emphasizing atemporality, relational structure, global coherence, measurement without wave collapse, and the emergence of apparent events through connection rather than creation. However, it also identifies decisive tensions: the absence of derivation from logical Nothingness, the lack of a complete cosmogonic theorem, the non-explicit incorporation of TO’s triadic requirement of observation, and the need to reinterpret compatibility density in light of TO’s transcendent element, understood as knowledge or information produced in atomic relations and equivalent to atomic radiation. The article concludes that Mounssif’s work is highly compatible with TO as a formal relational model, while still requiring modal, cosmogonic, and informational expansion for full convergence. This analytical text received analytical support from ChatGPT. Keywords: Theory of Objectivity; Vidamor Cabannas; Denivaldo Silva; Benchekroun Mounssif; discrete relational framework; modal ontology; logical Nothingness; relational book; master equation; quantum measurement; measurement without wave; no wave ontology; relational selection; global coherence; phenomenic elements; Inducer Effects; cosmogonic theorem; cosmological Eras; atomic information; atomic radiation; transcendent information; critical-propositional analysis.
Cabannas et al. (Tue,) studied this question.