Abstract representation of the SMGTJ equation under rough boundary controls: Optimal interior regularity
Abstract
We consider the linearized third order SMGTJ equation defined on a sufficiently smooth boundary domain in (Formula presented.) and subject to either Dirichlet or Neumann rough boundary control. Filling a void in the literature, we present a direct general (Formula presented.) system approach based on the vector state solution {position, velocity, acceleration}. It yields, in both cases, an explicit representation formula: input (Formula presented.) solution, based on the s.c. group generator of the boundary homogeneous problem and corresponding elliptic Dirichlet or Neumann map. It is close to, but also distinctly and critically different from, the abstract variation of parameter formula that arises in more traditional boundary control problems for PDEs L-T.6. Through a duality argument based on this explicit formula, we provide a new proof of the optimal regularity theory: boundary control (Formula presented.) {position, velocity, acceleration} with low regularity boundary control, square integrable in time and space.
Publication Title
Mathematical Methods in the Applied Sciences
Recommended Citation
Lasiecka, I., Triggiani, R., & Wan, X. (2022). Abstract representation of the SMGTJ equation under rough boundary controls: Optimal interior regularity. Mathematical Methods in the Applied Sciences https://doi.org/10.1002/mma.8619
