This brief note announces the construction of a new theoretical framework based on a ``dynamic relational network'' ontology, aiming to provide a unified description of the emergence of spacetime, matter, and gravity, while offering a novel perspective on the quantum measurement problem. In this framework, space is constituted by discrete nodes and links, matter manifests as excitation patterns propagating on the network, and gravity is interpreted as a macroscopic statistical effect arising from the inhomogeneous spatial distribution of network link density. A full-length paper containing the complete mathematical axiomatic system, derivations of the field equations, and physical applications will be published separately in the near future. This note serves to establish priority and to outline the core ideas and principal conclusions of the theory.