Abstract This study takes the advantage of the BIRCH algorithm (Balanced Iterative Reducing and Clustering Using Hierarchies) which is good at multi-grouping and solves the problem of traditional DBSCAN (Density-based spatial clustering of applications with noise) which can’t handle excessive noise density to filter training data of pre-processing on wind turbine health monitoring platform. This study uses Gaussian Mixture Model and Self-Organizing Map to approximate training data, then calculates the confidence value with the approximated model or neurons. The confidence value calculated by Gaussian Mixture Model of Jung-Tuen No. 1 Wind turbine effectively reflects the health condition of the wind turbine. This study proposes a calculation model of confidence value which based on the weight of the neurons calculated by the self-Organizing Map. The calculated results show that the confidence value calculated by SOM is better than the confidence value calculated by Gaussian mixture model. It also shows the change trends of confidence value of multiwindtrubine. And the prediction of single windturbine. Key word: Wind Turbine Health Monitoring Platform, Gaussian Mixture Model, Self-Organizing Map, Confidence Value