Recent increase in intensity and frequency of catastrophic hydrologic events is shown to be
a major threat to the global economy. These major events have been strongly linked to …

Climate change is expected to alter the frequency and intensity of extreme rainfall events,
affecting the rainfall intensity-duration-frequency (IDF) curve information used in the design …

Intensity-duration-frequency (IDF) relationships are traditional tools in water infrastructure
planning and design. IDFs are developed under a stationarity assumption which may not be …

The impact of a changing climate is already being felt on several hydrological systems both
on a regional and sub-regional scale of the globe. Southeast Asia is one of the regions …

Land use and land cover changes, population growth, urban sprawl and climate change are
expected to augment the pressure on natural environment and on existing infrastructure. As …

Abstract Intensity-duration-frequency (IDF) curves are commonly used in engineering
planning and design. Considering the possible effects of climate change on extreme …

The magnitude and frequency of hydrological events are expected to increase in coming
years due to climate change in megacities of Asia. Intensity–Duration–Frequency (IDF) …

The main aims of the present work were to: develop sub-hourly Intensity–Duration–
Frequency (IDF) curves considering future climate projections and predict the impact of …

Storm water management systems depend on Intensity–Duration–Frequency (IDF) curves
as a standard design tool. However, due to climate change, the extreme precipitation …

Abstract Study region Canada. Study focus Given the effects of climate change on extreme
precipitation, updated Intensity-Duration-Frequency (IDF) relationships have been adopted …