Local null controllability of the three-dimensional Navier-Stokes system with a distributed control having two vanishing components

TL;DR

This paper establishes local null controllability for the 3D Navier-Stokes equations with a distributed control that has two vanishing components, using advanced nonlinear control techniques.

Contribution

It introduces a novel algebraic method combined with the return method to achieve controllability despite the linearized system's limitations.

Findings

Proves local null controllability with partial control components

Develops a new algebraic approach inspired by Gromov's work

Overcomes linearization obstacles in Navier-Stokes control

Abstract

In this paper, we prove a local null controllability result for the three-dimensional Navier-Stokes equations on a (smooth) bounded domain of R^3 with null Dirichlet boundary conditions. The control is distributed in an arbitrarily small nonempty open subset and has two vanishing components. J.-L. Lions and E. Zuazua proved that the linearized system is not necessarily null controllable even if the control is distributed on the entire domain, hence the standard linearization method fails. We use the return method together with a new algebraic method inspired by the works of M. Gromov and previous results by M. Gueye.