Penman, T. et al. Effect of weather forecast errors on fire growth model projections. International Journal of Wildland Fire (2020). doi:https://doi.org/10.1071/WF19199

• DOI
• Google Scholar
• BibTeX
• EndNote XML

Sharples, J. J., Hilton, J., Sullivan, A. & Badlan, R. Fire coalescence and mass spot fire dynamics: experimentation, modelling and simulation – annual project report 2019-2020. (Bushfire and Natural Hazards CRC, 2020).

• Google Scholar
• BibTeX
• EndNote XML

Sharples, J. J., Hilton, J. & Sullivan, A. Fire coalescence and mass spot fire dynamics: experimentation, modelling and simulation - Annual project report 2018-2019. (Bushfire and Natural Hazards CRC, 2020).

• Google Scholar
• BibTeX
• EndNote XML

Wadhwani, R. Physics-based simulation of short-range spotting in wildfires. (2020). at <http://vuir.vu.edu.au/40025/>

• Google Scholar
• BibTeX
• EndNote XML

Newman, J. et al. Simulation optimisation for natural hazard risk management. (Bushfire & Natural Hazards CRC, 2020).

• Google Scholar
• BibTeX
• EndNote XML

Parackal, K. et al. Modelling the vulnerability of a high-set house roof structure to windstorms using VAWS . Bushfire and Natural Hazards CRC Research Day AFAC19 (2019). at <https://knowledge.aidr.org.au/resources/australian-journal-of-emergency-management-monograph-series/>

• Google Scholar
• BibTeX
• EndNote XML