Vanessa Schweizer: Difference between revisions
From Santa Fe Institute Events Wiki
No edit summary |
No edit summary |
||
| Line 3: | Line 3: | ||
[[Image:vanessas.jpg|150px|{border}]] | [[Image:vanessas.jpg|150px|{border}]] | ||
Vanessa is a postgraduate scientist in the Integrated Science Program at NCAR. Her research interests include characterizing the human dimensions of global change namely greenhouse gas emissions due to socioeconomic development (i.e., energy demand and land use) and development policies that affect vulnerability to changes in climate. She looks forward to learning more about complexity science | Vanessa is a postgraduate scientist in the Integrated Science Program at NCAR. Her research interests include characterizing the human dimensions of global change namely greenhouse gas emissions due to socioeconomic development (i.e., energy demand and land use) and development policies that affect socioeconomic vulnerability to changes in climate (i.e., capacities for preventing or responding to crop failures and damages from extreme weather events). She uses a technique for constructing and studying self-consistent socioeconomic scenarios called cross-impact balance (CIB) analysis. In the literature, CIB has been described as analogous to multi-value Kauffman nets and cellular automata. | ||
Vanessa is self-taught in the CIB technique and looks forward to learning more about graph theory and other versions of network analysis. She is interested in applying tools from complexity science to problems of decision making under uncertainty and planning for socio-ecological resilience. Her PhD is in Engineering and Public Policy from Carnegie Mellon University, where she was affiliated with the Climate Decision Making Center. | |||
Revision as of 13:16, 3 June 2013
| Complex Systems Summer School 2013 |
Vanessa is a postgraduate scientist in the Integrated Science Program at NCAR. Her research interests include characterizing the human dimensions of global change namely greenhouse gas emissions due to socioeconomic development (i.e., energy demand and land use) and development policies that affect socioeconomic vulnerability to changes in climate (i.e., capacities for preventing or responding to crop failures and damages from extreme weather events). She uses a technique for constructing and studying self-consistent socioeconomic scenarios called cross-impact balance (CIB) analysis. In the literature, CIB has been described as analogous to multi-value Kauffman nets and cellular automata.
Vanessa is self-taught in the CIB technique and looks forward to learning more about graph theory and other versions of network analysis. She is interested in applying tools from complexity science to problems of decision making under uncertainty and planning for socio-ecological resilience. Her PhD is in Engineering and Public Policy from Carnegie Mellon University, where she was affiliated with the Climate Decision Making Center.