This paper introduces an innovative framework in which observed physical structures, including geometry, time, energy, and particles, are considered not as primary elements of the universe, but as consequences of a more fundamental process. This process is the attempt of an iterative system to maintain distinguishable information under energy constraints. We demonstrate how the necessity of preserving the distinction of information states (d(A,B) ≥ ϵ) leads to the emergence of the concepts of geometry (as a tool for defining distance) and time (as the order of stable changes). Energy is considered the cost of maintaining this distinguishability, and particles emerge as stable information patterns -within this equilibrium structure. This approach offers an information .centric perspective on physical reality.The aim is not to replace existing physical theories, but to provide an alternative interpretive language for relating geometric structure, energy distribution, and information stability.
Mohsen Payamifard (Mon,) studied this question.