There are two known ways around J.S Bell's famous Inequalities. One is to deny Reichenbach's Common Cause Principle (Bell himself understood this). Another is to impose the lone spin average constraint (Samuel Hedemann discussed this in an obscure preprint). In both cases the Bell Inequality and all generalizations thereof (CHSH, CGLMP and others) cannot be derived, which implies the quantum mechanics correlations one presumes for EPR experiments, and observes, are not necessarily indications of Non-Locality (NL) or anti-Realism (AR). Nevertheless, the orthodox consensus is that our universe is still highly non-classical and EPR-like entanglement correlations are at the heart of the behaviour of non-classical elementary systems. This demands, but we can say "invites," a better account of the observed highly non-classical behaviour of entangled systems, which: (1) respects the (very respectable) lone spin average constraint, and (2) mildly disrespects Reichenbach's principle (RCC), and then (3) explains why one can take the view that either Determinism (D) or (RCC) is violated in quantum processes. We provide a preliminary such account using the principles of topological 4-geon theory (T4G) which leans towards only abandoning the weakest version of (D) possible (deterministic time-evolution) but for very good reason. NB: I have no plans to submit this to a peer review journal, but collaborators with journal access are welcome to inquire about contributing to this preprint to further a peer review process.
Murray Smith Bijou (Thu,) studied this question.