Keywords: Hill Slope Hydrology, Cascading Hazard, Network Theory, Climate Change, Uncertainity
My research focuses on exploring the intricacies of hill slope hydrology and its contribution to cascading hazards. Through the use of network theory, I aim to better understand the complex interactions between water and land, and how these interactions can lead to potentially disastrous events. By leveraging the power of network theory, I hope to uncover new insights into hill slope hydrology and cascading hazards, and develop effective strategies to mitigate the risks associated with them. Join me on this exciting journey of discovery!
My master's research focused on uncertainty analysis in the products of General Circulation Models (GCMs), with a specific focus on quantifying internal variability and predicting the uncertainty in derived products such as precipitation and temperature. Using hydropower production as an example, I analyzed the internal variability of GCMs and explored the potential impact of this variability on the accuracy of derived products. By conducting this research, I aimed to contribute to the ongoing efforts to better understand the uncertainty associated with GCMs and their derived products