The lifecycle of tropical cyclones mostly occur over the open ocean. Therefore, satellite remote sensing data is a viable tool for detecting the development of tropical cyclones. Some researches have employed SSM/I microwave satellite data to derive the heat energy. Meanwhile, QuikSCAT satellite data have been employed to derive the wind field data in establishing the thermal and vorticity thresholds, and monitoring the formation of tropical cyclones in Northwest Pacific and South China Sea. In previous studies, although the predictions of tropical cyclone formations were accurately made, there were also many false alarms. As a result, this study will use 6 different tropical cyclone formation parameters ( vorticity threshold, vorticity difference, thermal energy threshold, thermal energy difference, sea surface temperature and relative humidity) to remove the highly unfavorable tropical cyclone formation areas in attempting to find the probabilistic formation area of tropical cyclones. 　　This study selected 204 tropical cyclones cases during 2001-2008 in the Northwest Pacific. Two-thirds of these cases are used to establish the formation thresholds, while the remaining one-third is regarded as dependant cases for verification. Separately, 28 independent cases during 2009-2010 were used for verification. The skill score results show that utilization of the 5 formation parameters and 4.5 degree detecting was suitable for monitoring tropical cyclone formation. The prediction accuracy reached 60% and 5-6% for the false alarm ratio in 2001-2008. In 2009, the prediction accuracy reached 50%, which was smaller than dependant cases. However in 2010, as 6 cases formed near island, the prediction accuracy was lower in contrast to other years. Compared with Climatology and the method of Tzeng (2010), this study is shown to have a better prediction accuracy in tropical cyclone formation.