This work introduces the VIG (Valadis Information Geometry) framework, where energetic information is defined as the fundamental state of physical systems. Geometric information emerges as the structural expression of energetic information, leading to observable configurations such as information mass and information volume. The framework proposes a shift from force-based and geometry-driven interpretations toward an information-driven description of dynamics. System behavior is governed by radial information attractors and structured information fields (grids), while observable phase structures arise as projections of underlying geometric information organization. Evolution is not described as rise and decay, but as continuous transformation of geometric information through phase transitions. The presented model establishes a unified interpretation of motion, structure, and phase without requiring force or spacetime curvature assumptions. This framework proposes a conceptual shift from spacetime-based physics to information-structured dynamics.
Chrysovalantis Avgenikos (Thu,) studied this question.