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Nanda Wijermans Member since: Monday, October 11, 2010 Full Member Reviewer

In my research I focus on understanding human behaviour in group(s) as a part of a complex (social) system. My research can be characterised by the overall question: ‘How does group or collective behaviour arise or change given its social and physical context?‘ More specifically, I have engaged with: ‘How is (individual) human behaviour affected by being in a crowd?’, ‘Why do some groups (cooperatively) use their resources sustainably, whereas others do not?‘, ‘What is the role of (often implicit simplistic) assumptions regarding human behaviour for science and/or management?’

To address these questions, I use computational simulations to integrate and reflect synthesised knowledge from literature, empirics and experts. Models, simulation and data analysis are my tools for gaining a deeper understanding of the mechanisms underlying such systems. More specifically, I work with agent-based modelling (ABM), simulation experiments and data analysis of large datasets. Apart from crowd modelling and social-ecological modelling, I also develop methodological tools to analyse social simulation data and combining ABM with other methods, such as behavioural experiments.

Nicholas Magliocca Member since: Wednesday, March 21, 2018 Full Member

My broad research interests are in human-environmental interactions and land-use change. Specifically, I am interested in how people make land-use decisions, how those decisions modify the functioning of natural systems, and how those modifications feedback on human well-being, livelihoods, and subsequent land-use decisions. All of my research begins with a complex systems background with the aim of understanding the dynamics of human-environment interactions and their consequences for environmental and economic sustainability. Agent-based modeling is my primary tool of choice to understand human-environment interactions, but I also frequently use other land change modeling approaches (e.g., cellular automata, system dynamics, econometrics), spatial statistics, and GIS. I also have expertise in synthesis methods (e.g., meta-analysis) for bringing together leveraging disparate forms of social and environmental data to understand how specific cases (i.e., local) of land-use change contribute to and/or differ from broader-scale (i.e. regional or global) patterns of human-environment interactions and land change outcomes.

Mitali Yeshwant Joshi Member since: Monday, December 16, 2019 Full Member

Doctoral Fellow at LEMA research group, Urban and Environmental Engineering (UEE), University of Liege

Stefan Westermann Member since: Friday, January 12, 2018

Dr

motive interactions

Simon Briner Member since: Monday, January 30, 2012

MSc ETH in Agroecosystem Science

J Glaubius Member since: Friday, May 22, 2015

Human and environmental interactions in the Mediterranean region. Currently working on influence of agricultural terraces on landscape evolution.

Hang Xiong Member since: Tuesday, February 14, 2012 Full Member

PhD

Research fellow at the Agricultural Economics and Policy Group at ETH Zurich.

Hoke Wilson Member since: Friday, April 22, 2016

PhD

Social interaction leading to the adoption better eating habits by households at all income levels

Phil Riris Member since: Wednesday, May 01, 2013 Full Member Reviewer

BA Archaeology, MA Archaeology, PhD Archaeology (in progress)

Roger Cremades Member since: Wednesday, April 01, 2020 Full Member

Dr. Roger Cremades is a complex systems scientist and heterodox global change economist integrating human-Earth interactions across systems and scales into modular quantitative tools, e.g. connecting drought risks in cities with land use at the river basin scale. He is co-Chair of the Development Team of the Finance and Economics Knowledge-Action Network of Future Earth (2020-2022), the largest global research programme in global change. Roger coordinated research and co-production projects above €1M, and published in top journal like PNAS, Nature Climate Change, and Nature Geoscience.

Global change, human-Earth interactions, complex systems.

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