Observing System Simulation Experiments (OSSEs) are used to investigate current observational and data assimilation systems by testing the impact of new observations on them. Another robust tool has been developed as an adjoint-based model for assessing the impact of observations. This study use WRF-FSO system to understand their impact on short-range forecast error. The case chosen for the study are the typhoon Morakot (2009) and typhoon Haiyan (2013) with FORMOSAT-3/COSMIC GPS radio occultation refractivity data, simulated FORMOSAT-7/COSMIC-2 GPS RO data and GTS data. Two sets of experiments, 12-h and 24-h, have been designed to compare the RO data in vertical layers. We make a 48-h forecast for reference in addition. In the WRF-FSO experiment, it was found that FORMOST-7/COSMIC-2 is better than FORMOSAT-3/COSMIC data. The impact results indicate that larger impacts of GPS RO data are on upper levels for perturbation kinetic energy. In the 48-h forecast with full physics, Using FORMOST-7/COSMIC-2 RO data can improve about 10% in typhoon Haiyan track prediction than using FORMOST-3/COSMIC RO data. Although adjoint model can provide the Forecast sensitivity to observation at one time, but the measure still has some problem. First, it estimate the impact by simplified scheme and model. Second, we are not sure if the target zone can stand for the steering-flow region. Third, the land-sea distribution and cost function will affect the experiment result possibly. These problems increase the uncertainty of the result.