Scouring issue is one of the most important topics in bridge health monitoring. In the US, the statistics showed that earthquake and scouring caused 60% and 3% of the bridge collapses, respectively. When bridges are under such harmful conditions, it will result in huge loss of human life and economic value. These situations indicate the importance of bridge health monitoring which can be used to diagnose the damage condition of structure before collapse. If warning in advance properly, the impact of the bridge collapse can be reduced. In this study, the Hilbert-Huang Transform (HHT) is used to analysis the measured signal from the superstructure. Firstly, the instantaneous Frequency (IF) of Intrinsic Mode Function (IMF) weighted with energy used to get the Weighted Instantaneous Frequency (WIF). By defining the range of Maximum and Minimum value, Confidence Interval (CI), Stiffness Ratio (SR), thereby the bridge health condition can be determined. In order to verify the proposed method, the scour tests by using caisson pile foundation and group pile foundation are conducted and examined. According to the analysis of the vibration signal recorded up to the time of collapse, it shows that the change of structure behavior can be rapidly reflected, and warning alarm before bridge collapse can be accurately provided.