This work presents the final simulation analysis of the Universal Interconnected Nodes (UIN) framework as a balance-driven propulsion engine. Simulations of internal feedback dynamics, emergent displacement, and two-dimensional gravitational navigation demonstrate that controlled redistribution of internal states can produce directed motion without violating momentum conservation or thermodynamic laws. These results suggest UIN is a viable propulsion concept that relies on homeostatic balance rather than reaction-based thrust, with potential applications in orbital maneuvering and fuel-less navigation.
Angelito Enriquez Malicse (Thu,) studied this question.