This study evaluates various ensemble learning algorithms used to predict the vibrations induced by Taiwan high-speed trains on shallow and deep foundations. A wide variety of field-measured ground vibration data is utilized to analyze the prediction models. The main factors that affect the overall vibration level are established based on the measurement results. These factors are train speed, structure type, foundation size, geological condition, ground shear wave velocity, measurement distance, vibration frequency, background vibration, and attenuation coefficient. Various single machine learning methods, including support vector machine (SVM), artificial neural network (ANN), and random forest model (RFM), are initially used to predict vibration levels. Ensemble learning algorithms, such as voting-based algorithm, stack-based algorithm, and boosting-based algorithm are then adopted to improve the performance of prediction. Analytical results for the single learning methods and ensemble learning algorithms are discussed in detail.