Identification of variable coefficients for vibrating systems by boundary control and observation

We consider the identification problem of coefficients for vibrating systems described by a Euler-Bernoulli beam equation or a string equation,with one end clamped and with an input exerted on the other end.For the beam equation,the observations are the velocity and the angle velocity at the free end,While for the string equation,the observation is the velocity at the free end.In the framework of well-posed linear system theory,we show that both the density and the flexural rigidity of the beam,and the tension of the string,can be uniquely determined by the observations for all positive times.Moreover,a general constructive method is developed to show that the mass density and the elastic modulus of the string are not determined by the observation.