Driven by economic development, contemporary society is growing specialized and diversified in each sector, and growth
is accelerating; same thing is true in architecture field. There is emergence of numerous types of buildings to facilitate
diverse purposes of human activities. Recently, as university dormitory buildings are constructed through project of private
construction and lease to government (BTL), dormitory buildings are growing taller, but the operations and emergency
countermeasure still do not keep up with such trend of building heightening. And recently many foreign students are currently
studying in Korean University and most of these students live in foreigner dormitories. The dormitory buildings have
a relatively high risk of fire and evacuation safety by compare to other buildings. As well as foreign students because of
cultural differences and lack of language skills can be put to greater difficulties in emergency. Therefore, this study analyzes
the evacuation performances of university dormitory buildings through Full-scale evacuation experimental. In addition,
this study searches for physical elements of evacuation performance to be improved through Full-Scale Experimental, on
which basis, purports to improve evacuation performance of the subject university dormitory buildings ultimately. The
results that lower about 0.45m/s degree full evacuation speed than walking speed (1.3m/s (flat)), the common. This shows
that do not significantly affect the speed of gender in the similar age group of early 20s. Although the rooftop-right-exit was
the smallest of exit-doors, experiment-subjects were evacuated by 45% toward to the rooftop right exit. Through such processes,
this paper is intended to furnish the fundamental materials when planning university dormitory buildings which
are able to minimize the damages and protect individuals and their properties