Exact controllability and stabilization of locally coupled wave equations: theoretical results (Q2039388)

Summary: In this paper, we study the exact controllability and stabilization of a system of two wave equations coupled by velocities with an internal, local control acting on only one equation. We distinguish two cases. In the first one, when the waves propagate at the same speed: using a frequency domain approach combined with multiplier technique, we prove that the system is exponentially stable when the coupling region is a subset of the damping region and satises the geometric control condition GCC (see Definition 3.1 below). Following a result of \textit{A. Haraux} [Port. Math. 46, No. 3, 245--258 (1989; Zbl 0679.93063)], we establish the main indirect observability inequality. This results leads, by the HUM method, to prove that the total system is exactly controllable by means of locally distributed control. In the second case, when the waves propagate at different speed, we establish an exponential decay rate in the weak energy space under appropriate geometric conditions. Consequently, the system is exactly controllable using a result of [loc. cit].