A feedback control optimization method of partially observable linear structures via stationary response is proposed and analyzed with linear building structures equipped with control devices and sensors.First,the partially observable control problem of the structure un- der horizontal ground acceleration excitation is converted into a completely observable control problem.Then the It(?) stochastic differential equations of the system are derived based on the stochastic averaging method for quasi-integrable Hamiltonian systems and the stationary solution to the Fokker-Plank-Kolmogorov (FPK) equation associated with the It(?) equations is obtained. The performance index in terms of the mean system energy and mean square control force is established and the optimal control force is obtained by minimizing the performance index.Fi- nally,the numerical results for a three-story building structure model under El Centro,Hachinohe, Northridge and Kobe earthquake excitations are given to illustrate the application and the effec- tiveness of the proposed method. A feedback control optimization method of partially observable linear structures via stationary response is proposed and analyzed with linear building structures equipped with control devices and sensors. First, the partially observable control problem of the structure un- der horizontal ground acceleration excitation is converted into completely observable control problem.Then the It (?) stochastic differential equations of the system are derived based on the stochastic averaging method for quasi-integrable Hamiltonian systems and the stationary solution to the Fokker-Plank-Kolmogorov (FPK) equation associated with the It ?) equations is obtained. The performance index in terms of terms of the mean system energy and mean square control force is established and the optimal control force is obtained by minimizing the performance index.Fi- nally, the numerical results for a three-story building structure model under El Centro, Hachinohe, Northridge and Kobe earthquake excitations are given to illust rate the application and the effectivitie of the proposed method.