Foundational Research in Physics Theory, Intelligence Theory, and Metamathematics

The study of complex systems increasingly suggests that information processing, physical dynamics, and logical organization are not independent phenomena, but different manifestations of a deeper, unified structure. At a conceptual level, this recognition opens a new perspective for examining the relationship between computation, physics, and intelligence.

This fundamental research project investigated how the conceptual frameworks of conscious or cognitive information processing can be brought into structural alignment with principles emerging from quantum field theory. The focus was not on specific physical models or computational architectures, but on the insight that logical, physical, and informational descriptions may represent mutually translatable viewpoints within a single organizational order.

Within this perspective, the universe was not approached as a collection of isolated entities, but as a coherent, network-like organization, in which relations and interactions are at least as fundamental as individual components. Computation, in this view, is not a sequence of localized operations, but a global organizational process embedded in physical structure.

A central insight of the project was that the relationship between physical systems and information-processing structures cannot be reduced to conventional computational concepts. Instead, an abstract conceptual space emerges in which physical dynamics, logical structure, and intelligent processing are integrated into a unified mode of organization.

The research did not aim to develop quantum computers, new computational devices, or artificial systems. Rather, it established a theoretical orientation in which the notion of computation can be extended to encompass the full spectrum of physical and cognitive processes.

With the conclusion of the project, this perspective was integrated into the overall system as a background conceptual structure, providing a foundation for unified, principle-level investigations into computation, intelligence, and physical reality. Detailed physical interpretations, formal descriptions, and technological implications are intentionally excluded from the public documentation.