This paper presents not a completed engineering theory of an instrument, but a research program growing out of the previous work on the physical reconstruction of a privileged cosmological synchronization via the dipole anisotropy of the cosmic microwave background (CMB) MyshkoCMBSync. The central idea is that the global cosmological background can serve not only as an argument in the foundations of physics, but also as an operational navigational resource. A conceptual architecture of ANS-F1234 (Actualization Navigation System) is proposed, combining four classes of observables: (i) the CMB dipole as a reference for global velocity and orientation; (ii) a comparative system of atomic clocks as a sensor of local deformation of cyclic processes; (iii) inertial and gravitational sensors as a local dynamics loop; (iv) cosmic rays, magnetic field, and plasma as indicators of the galactic environment. Within the Metamonist corpus, this system is interpreted as an attempt to navigate not by individual objects but by the structure of the medium itself. The paper formulates the physical principle of the system, its modular architecture, the temporal scheme, the expected advantages for autonomous interstellar flight, a preliminary error budget, a comparison with existing deep-space navigation methods, and a staged experimental verification program. Particular attention is paid to the fact that ANS-F1234 at the first stage operates as a hybrid autonomous navigation system, and at the second stage may serve as a metrological platform for testing the possible dependence of local physical cycles on the state of the medium.
Andrii S. Myshko (Wed,) studied this question.
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