M.G Stewart

Publications

Bjarnadottir, S., Li, Y., Reynisson, O., & Stewart, M. (2018). Reliability-based assessment of climatic adaptation for the increased resiliency of power distribution systems subjected to hurricanes. Sustainable and Resilient Infrastructure, 3 (1), 36-48.
Ryan, P., Stewart, M., Spencer, N., & Li, Y. (2016). Probabilistic Analysis of Climate Change Impact on Timber Power Pole Networks. Journal of Electrical Power & Energy Systems, 78 , 513-523.
Salman, A., Li, Y., & Stewart, M. (2015). Evaluating System Reliability and Targeted Hardening Strategies of Power Distribution Systems Subjected to Hurricanes. Reliability Engineering & System Safety, 144 , 319-333.
Ryan, P., Stewart, M., Spencer, N., & Li, Y. (2014). Reliability Assessment of Power Pole Infrastructure Incorporating Deterioration and Network Maintenance. Reliability Engineering & System Safety, 132 , 261-273.
Bjarnadottir, S., Li, Y., & Stewart, M. (2014). Risk-Based Economic Assessment of Mitigation Strategies for Power Distribution Poles Subjected to Hurricanes. Journal of Structural and Infrastructure Engineering, 10 (6), 740-752.
Bjarnadottir, S., Li, Y., & Stewart, M. (2013). Hurricane Risk Assessment Of Power Distribution Systems Considering Impacts Of A Changing Climate. Journal of Infrastructure Systems, ASCE, 19 (1), 12-24.
Bjarnadottir, S., Li, Y., & Stewart, M. (2011). Social Vulnerability Index for Coastal Communities at Risk to Hurricane Hazard and a Changing Climate. Natural Hazards, 9 (2), 1055-1075.
Bjarnadottir, S., Li, Y., & Stewart, M. (2011). A Probabilistic-based Framework for Impact and Adaptation Assessment of Climate Change on Hurricane Damage Risks and Costs. Structural Safety, 33 (3), 173-185.
Li, Y., & Stewart, M. (2011). Cyclone Damage Risks Caused by Enhanced Greenhouse Conditions and Economic Viability of Strengthened Residential Construction. Natural Hazards Review, ASCE, 12 (1), 9-18.
Stewart, M., & Li, Y. (2010). Methodologies for Economic Impact and Adaptation Assessment of Cyclone Damage Risks Due to Climate Change. Australian Journal of Structural Engineering, 10 (2), 121-135.