The academic landscape of UUV research has seen an exponential growth in modeling methodologies, resulting in a fragmented ecosystem of techniques varying in mathematical rigor and application focus. This systematic literature review (SLR) provides a comprehensive synthesis of the state-of-the-art in UUV dynamics, following PRISMA guidelines to analyze over 200 core studies. The review categorizes prevailing approaches into four primary clusters: first-principles analytical models (Newton-Euler), data-driven black-box models (neural networks), hybrid grey-box models, and high-fidelity CFD-informed models. Each cluster is evaluated based on its “Fidelity Level,” computational overhead, and suitability for tasks such as controller synthesis or failure simulation. A significant portion of this review is dedicated to the critical analysis of validation practices. We examine the evolution of experimental setups, from indoor pressure tanks to modern outdoor telemetry. Our findings reveal a concerning lack of standardization in validation metrics, with many studies failing to quantify the residual error between the model and the physical plant. By identifying current gaps—particularly the need for better modeling of multi-body interactions and flexible structures—this SLR provides a strategic roadmap for future research.

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