In Taiwan, ambient tremors are found to locate underneath a mountain in Southern Central Range, a core of collisional mountain belt. Given that the ambient tremors represent the aseismic slip process at greater depth where no seismicity is present, it is crucial to monitor their activity. To identify tremors, the similarity and time lapse of the arrival tremor bursts from multiple stations are oftentimes demanded, while manual checks of multi-station waveforms are practiced, to exclude loud noise and swarms of regional earthquakes (epicentral distance of 50-200 km). Here we attempt to exploring if the advances of machine learning (ML) techniques enable an automatic search for patterns to discriminate tremor from regional earthquakes. Using k-Nearest Neighbor (k-NN) classifier with 29 features including band-passed filtered energy, frequency spectrum and spectrogram, Liu et al. (2019) successfully separated tremor from local earthquakes and noise at high accuracy of 86.6-98.8 %, showing that the possibility of applying ML technique to separate tremors from other types of seismic signals is feasible. However, they also found that the multi-class classification approach is not robust in practical, especially in the real-time monitoring using continuous data. This is mainly due to the fact that in the continuous data, many other types of signals exist without being labeled. In this study, we used two-class and one-class classifier to demonstrate if tremor can be separated from regional earthquakes and the possibility of continuous tremor detection. Using 5,796 tremor, 6,746 regional earthquake, and 441,887 noise data collected in 2016, we found the two-class k-NN classifier allows the high classification rate (CR) of 91.8-95.8 %. However, in real-time tremor monitoring using continuous data, the multi-class classification may not be practical due to the under-sampled data. We further demonstrate the performance of one-class Support Vector Data Description classifier that does not need a collection of other classes’samples. The resulting CR of 80.8 % indicates the capability of one-class classifier on real-time detection of tremor in Taiwan.