This research provides a critical methodological refinement to the Status-Relational Entropy (SRE) Dynamics framework, specifically addressing the nature of Time and Space within an informational-physical equivalent system. Key Methodological Contributions: Temporal Non-Axiality: Redefining Time not as a fundamental axis, but as the sensory manifestation of logical dependency depth within the information state change process. Reciprocity Latency: Proposing that temporal duration is the computational overhead required for mutual observers to reach systemic logical consensus. Spatial Indexing: Establishing Space as a Random-Access Indexing system, providing a theoretical path for non-continuous spatiotemporal interchange. Functional Heuristics: Utilizing high-dimensional mapping as a pragmatic tool for physical result replication without asserting ontological claims. By decoupling Time from its traditional axial constraints, this paper offers a new toolset for resolving spatiotemporal paradoxes through algorithmic parity and residual judgment.
Yue Lu (Mon,) studied this question.