Articles citing this paper
Review of formal methodologies for wind–slope correction of wildfire rate of spread
Jason J. Sharples A
+ Author Affiliations
- Author Affiliations
A School of Physical, Environmental and Mathematical Sciences, UNSW@ADFA, Canberra, ACT 2600, Australia; and Bushfire Cooperative Research Centre, Level 5, 340 Albert St, East Melbourne, VIC 3002, Australia. Email: j.sharples@adfa.edu.au
International Journal of Wildland Fire 17(2) 179-193 https://doi.org/10.1071/WF06156
Submitted: 11 November 2006 Accepted: 18 October 2007 Published: 18 April 2008
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Àgueda A.,
Pastor E.,
Pérez Y.,
Viegas D. X., Planas E.
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Maréchal J.,
Portier D., Valette J.-C.
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Drobinski P.,
Turquety S., Dupuy J.-L.
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Matthews S., Plucinski M.P.
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Makowiecki A.S.,
Steinbrenner J.E.,
Wimer N.T.,
Glusman J.F.,
Lapointe C.B.,
Daily J.W.,
Hamlington P.E., Rieker G.B.
Fire Safety Journal. 2020 116 p.103185
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Karwat Alexia,
Knutzen Florian,
Lentink Hilke S.,
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Niermann Deborah,
Pinto Joaquim G.,
Queck Ronald,
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