The conventional Ibrahim time domain method (ITD) using free response is a response-only modal identification technique. Previous studies have shown the ITD method in conjunction with correlation technique can be applied to the modal estimation from random response data only. However, the identification effectiveness is easily influenced by the choice of the reference channel. In this study, we use the covariance matrix consisting of correlation functions among response data for all measurement channels and avoid the choice of single reference channel in correlation technique. The minimum order of the system can be determined through the singular spectrum analysis. The poor identification may be caused due to the improper system order and incomplete modal information from insufficient frequency content around the structural modes of interest. By introducing the covariance matrix to the procedure of ITD method, the effectiveness of modal estimation can be improved without the estimation of system order. The data correlation matrix is constructed by covariance matrix in state space form composed of the non-stationary response in the form of the product model with the slowly-time-varying function and then extends the ITD method to modal identification directly and solely from nonstationary response data. Numerical simulations and experimental verification of effectiveness of the proposed method for modal identification of structural systems, even with closely spaced modes.