mechanicsdriven

Mechanicsdriven is a term used to describe modeling, analysis, or design approaches guided primarily by fundamental mechanics and physics rather than by empirical data alone. It emphasizes governing equations, constitutive laws, and physical constraints as the primary source of information.

The term may be written mechanics-driven or mechanicsdriven. It is common in fields such as computational mechanics,

In practice, mechanicsdriven modeling uses differential equations, such as conservation laws, Navier–Stokes for fluids or elasticity

Relationship to data-driven approaches: mechanics-driven models provide interpretability, stability, and extrapolation beyond observed data. Data-driven methods

In summary, mechanicsdriven denotes a design and analysis philosophy that foregrounds mechanics and physics in modeling,