Structural Dynamics Analysis of Large Aperture Space Telescope based on Linear State Space Method

The linear state space model of the optical remote sensing camera with aperture of φ572mm was established using the structural dynamics and linear state space theory. Modal reduction is carried out using the balanced reduction method. Combined with the controllable and observability matrix, the model order is reduced. To obtain the frequency response curve between the excitation input point and the response output point, we performed frequency response analysis with the reduced state space model. The initial frequency response curve was plotted and compared with the response curves of the DC gain method and the balanced reduction method. The accuracy and rationality of the simulation analysis are verified by dynamic tests. The balanced reduction method under state-space representation provides a new method for studying the dynamics of lightweight opto-mechanical structures. It can characterize the inherent properties of the system by using the reduction model, and has higher computational efficiency, which is helpful to analyze the frequency response characteristics of complex linear system quickly and accurately.