Abstract This paper develops the second stage of the Distributed Presence (DP) programme by extending the minimal framework of DP I into a more explicit ontological architecture. Its aim is not to introduce a new dynamics or a competing predictive formalism, but to clarify how several central features of quantum theory may be understood within a pre-dynamical structural ontology. The analysis begins by sharpening the distinction between structural determination and Realization. A system is determined by its admissible channels of presence and their associated presence fractions, whereas measurement is interpreted as single-channel Realization rather than collapse. On this view, the question of why one channel is realised rather than another is not answered by hidden variables or selection dynamics; within DP, it has no further structural referent. The paper then introduces minterms as the finest ontological units of distributed presence: complete signed patterns over state space. Observable quantities arise through sign-blind coarse-graining of this underlying structure. This framework offers a structural basis for understanding operational indistinguishability, structural multiplicity, and the restricted simultaneous articulation of incompatible observables. Spin is correspondingly reinterpreted as a topological closure invariant of signed presence, rather than as literal rotation or intrinsic dynamical angular momentum. Finally, Degeneracy is understood as the effective trace of unresolved structural multiplicity. Hilbert space remains fully adequate at the empirical level, but is treated here as a compressed representation of a deeper signed structural layer. The paper closes by locating DP in relation to major foundational approaches and by stating its present limitations and future tasks.
Sadeq Nasiri Vatan (Sat,) studied this question.