How can emerging science and systems models contribute to more effective policies and outcomes?
Ketra Schmitt
- Associate Professor
- Centre for Engineering in Society
- risk analysis10
- systems models10
- technology policy5
- agent-based models2
- models of human disease4
- water policy
- social impacts of technology32
- risk17
- risk modeling7
- industrial symbiosis2
- impacts of disaster4
- impacts of terrorism3
- water resource management17
- pollution21
- noise3
- electromagnetic interference2
- engineering education12
- engineering accreditation standards2
- environmental sustainability29
-
Chun Wang
distributed computing, e-supply chains, scheduling
-
Lucia Tirca
seismic design, earthquake engineering, innovative steel structures
-
Christopher W. Trueman
computational electromagnetics, electromagnetic compatibility, antennas
-
Samuel Li
river dynamics, sediment transport, environmental hydraulics
-
Shannon Lloyd
life cycle assessment, sustainable development, industrial ecology
-
Brandiff Caron
philosophy of technology, social impacts of technology, engineering education
-
Catherine Mulligan
environmental engineering, anaerobic wastewater treatment, heavy metals
-
Dylan Fraser
salmon, adaptations to environmental change, hybridization
-
Cody Hyndman
mathematical finance, computational finance, machine learning
-
Yves Gélinas
chemical oceanography, climate change, carbon cycle
-
Chunjiang An
environmental engineering, decontamination, resource recovery from waste
-
José Garrido
risk theory, actuarial mathematics, ruin theory
-
Grant Brown
behavioral ecology, chemical ecology, predator-prey dynamics
-
David Walsh
aquatic ecology, molecular and cellular biology, evolutionary biology
-
Pascale Biron
river dynamics, fish habitats, geomorphology
-
Saifur Rahaman
nanotechnology, nanocomposites, ultrafiltration membrane technology
-
Mélina Mailhot
actuarial mathematics, risk, multivariate statistics
-
Anne-Marie Croteau
information technologies, corporate governance of IT, healthcare information systems
-
Brian Lewis
technological change, social impacts of technology, research networks
-
Frédéric Godin
financial engineering, mathematical finance, risk management
-
André G. Roy
fluvial geomorphology, river dynamics, climate change
-
Alex De Visscher
environmental chemistry, catalysis, chemical kinetics
-
Leonard Sklar
geomorphology, watershed processes, climate change
-
Zhi Chen
environmental engineering, pollution, contaminated soil
-
Martin French
risk, surveillance, social justice
-
Fereshteh Mafakheri
system engineering and evolution, multicriteria decision making, project management
-
Ali Nazemi
water security, climate change, coupled human-water systems
-
Sébastien Caquard
cartography, mapping, GIS/GPS
-
James Grant
behavioral ecology, diversity studies, conservation biology
-
Maria Elektorowicz
environmental engineering, groundwater, decontamination
-
Sylvia Kairouz
gambling, addictive behaviors, social impacts of technology
-
Ali Akgunduz
aviation industry, air traffic control, greener aviation
-
Jeannine-Marie St-Jacques
climate change, paleoclimatology, hydrology
-
Damon Matthews
climate change, climate science, climate policy
-
Susan Liscouët-Hanke
aircraft systems architecture, future aircraft, systems integration
-
Deborah Dysart-Gale
global engineering, social impacts of technology, citizenship
-
Govind Gopakumar
mobility, urban infrastructure, cities
-
Artur de Matos Alves
social impacts of technology, science/technology studies, philosophy of technology