Suboptimal estimation of systems with large parameter uncertainties

The primary objective of the present study is to develop a new analytical method for estimating the frequency response characteristics of a linear time-variant, discrete vibratory system when the mass, stiffness and damping parameters are uncertain. The excitation amplitude is also considered to be

Maximum principle; large-scale systems; parameter estimation, iterative methods; boundary value problems. Abstractmln this paper we examine the use of the maximum a posteriori (MAP) approach for parameter estimation in large-scale interconnected dynamical systems. We examine both the suboptimal app

A new analytical method is proposed for the estimation of eigensolutions for undamped and proportionally damped discrete vibratory systems when the system parameters are uncertain or random variables. Given several simplifying assumptions, a direct product technique is used to estimate the first and

An algorithm is proposed for suboptimal control of linear multivariable systems with unknown parameters and output noise covariances. This algorithm is based on the idea of explicitly separating the functions of identification, estimation and control. The parameters and states of the system are esti