A wave-particle approach with emergent dimensional parameters amends and consolidates the standard model, resolving anomalies. Least energy occurs at speed of light (c) for quantum 'wavicles'. Wavicle-specific, dimensional quantum parameters scale mostly linearly at c with energy. Scaling becomes non-linear < c for many parameters (including mass), resolving the dark matter, or missing mass problem. Special relativity is incompatible with running modes, thus falsified for quantum wavicles, which appear fractally related. Special relativity is amended via substitution of the Lorentz factor with an index term. Quantum theory then unites with gravity. Gravity is emergent, forming the spatial field interaction with matter, contracting locally. The Hubble redshift is identified (partially) as electromagnetic resistance for inbound photons, with a value at ̴ 67.613 km/s per Mpc. A big-bang cosmology is not indicated. Dark energy is thus resolved. The weak interaction is non-linear electromagnetism. Gravity and its ratio with electromagnetism form the strong interaction. Unification of these interactions occurs within high energy nucleons. This amended quantum-gravity standard model (QGSM), with a ubiquitous 'interaction constant' embedded as a primordial code, is invariant under multiple systems of simultaneous assessment. A finely tuned, encoded universe with emergent parameters is consistent with intelligent design.