The Siberian High has a high impact on weather and climate in East Asia during northern hemisphere winter, so it is important to understand its tracks for the climate change in East Asia. For increasing the scientific reproducibility and avoiding inconvenient processes in subjective tracking, this research uses an objective algorithm to define and track the translation of the Siberian High center in reanalysis data. The tracks are divided into three primary groups: West Tracks, Northeast Tracks, and Southeast Tracks. West Tracks are the tracks of highs from the west merging with Siberian High, while Northeast and Southeast Tracks occurs when a secondary high separates northeastward or southeastward from Siberian High. The numbers of Northeast and Southeast Tracks in 1983—2017 are both more than those in 1948—1982, but the number of West Tracks in 1948—1982 is more than that in 1983—2017. Besides, the Southeast Tracks shows a negative correlation with Siberian High intensity; that is, a secondary high center tends to go southeastward when the Siberian High is weak. Cold surge, a common boreal winter weather phenomenon in East Asia, is usually induced by the cold air outbreak from higher to lower latitudes of Siberian High. The cold air moves southward in two ways. One way is the advection by the northerly on the eastern flank of stationary Siberian High when it is blocked by another high in its northeast; the other is the movement of cold air along with the southward translation of Siberian High. To understand the association between Siberian High tracks and the cold surge at Taipei, the cold surge events at Taipei of 18 winters in 2000—2017 are divided into three groups, type 1 (blocking with cold air and rapid temperature drop, BCD), type 2 (blocking with cold air only, BC), and type 3 (cold air and rapid temperature drop without blocking, CD), which occurs 25, 5, and 26 times, respectively. The type-1 and type-3 cold surge events are featured by a rapid temperature drop; about 80% of them are accompanied by the Southeast Tracks of Siberian High, while the type 2-cold surge, in which the temperature drop is not rapid, has approximately 20% less occurring with the Southeast Tracks.