Status-Relational Entropy (SRE) Dynamics: Updated Abstract This foundational paper introduces the axiomatic framework of Status-Relational Entropy (SRE) Dynamics. Moving beyond theoretical digital physics, SRE establishes that matter, energy, and information are functionally interchangeable mapped entities. The framework redefines physical reality by establishing a Digital-to-Analog (D/A) conversion protocol between the underlying Causal Space and the perceived Spatiotemporal Rendering. The framework is built upon three core pillars: Statistical Foundation: Redefining physical constants (such as h and c) as the resolution thresholds and protocol bandwidths of informational mapping. In this view, physical laws are the macroscopic manifestations of informational statistics. Residual Observation: Identifying observation as a dynamic process of information transmission and logical residual evaluation. This process drives the generation of causal chains and the instantiation of physical reality through continuous data compensation. Methodological Interoperability: Utilizing informational logic—such as causal re-coding, error correction, and topological optimization—to resolve physical singularities and systemic paradoxes within the rendering layer. SRE Dynamics provides a powerful new methodological toolset for reconciling the limitations of classical physics through the precision of information theory, offering a programmable pathway to interface with the fundamental structure of reality.
Yue Lu (Wed,) studied this question.
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