REGIONAL EXPONENTIAL GENERAL OBSERVABILITY IN DIFFUSION NEUMANN PROBLEM

Abstract

 The aim of this paper is to extend the concept of regional exponential general observability to the case of Neumann

boundary conditions problem in diffusion system. More precisely, for linear distributed parameter diffusion systems, we show that the

sensors characterizations allow to reconstruct the regional exponential state in a sub-region of the considered systems domain.

Moreover, various interesting results associated with the choice of sensors are given and illustrated in specific situations in order

regional exponential general observability notion to be achieved. Finally, we also show that, there exists a dynamical system for

diffusion system is not exponential general observable in the usual sense, but it may be regional exponential general observable.