This is the third paper in the Kosmocosm Framework series. It presents the Kosmocosm interpretation of quantum mechanics and establishes the physical account of phenomena that the Copenhagen interpretation correctly identified but could not explain. The paper identifies the fermion as the primary physical object, always in a definite state. The quantum wave function (QWF) is the continuous collective wave description of the fermion's local neighborhood dynamics, not the fermion itself. At each Planck stride, the autonomous gravitational resolution mechanism of the Quantasphere architecture captures the fermion's definite particle state as an exact permanent archive record, the Quantum Particle State (QPS). No observer is required to produce a definite outcome. The Born Rule is epistemological rather than ontological. It is the correct statistical description of what an observer inside the three-dimensional fermionic shell recovers when integrating many already-resolved exact Planck stride events through instruments whose response intervals span an astronomical number of strides. The apparent randomness of quantum measurement is in the reading, not in the events. Wave function collapse is accounted for by the observer's instrument catching up to a resolution that has already occurred. The measurement problem is dissolved: it does not arise within the Kosmocosm architecture because its premise – that collapse must act on the wave function – is absent. The Kosmocosm Framework now supplies physical explanations for the five Copenhagen postulates, preserving them as correct observations. Papers 1 and 2 of the series are available at https://doi.org/10.5281/zenodo.18440459 and https://doi.org/10.5281/zenodo.18705241.
David Crellen (Fri,) studied this question.