Articles citing this paper
Wildland surface fire spread modelling, 1990–2007. 3: Simulation and mathematical analogue models
Andrew L. Sullivan A
+ Author Affiliations
- Author Affiliations
A CSIRO Sustainable Ecosystems and CSIRO Climate Adaptation Flagship, GPO Box 284, Canberra, ACT 2601, Australia. Email: andrew.sullivan@csiro.au
International Journal of Wildland Fire 18(4) 387-403 https://doi.org/10.1071/WF06144
Submitted: 1 November 2006 Accepted: 17 January 2008 Published: 29 June 2009
243 articles found in Crossref database.
Numerical prediction of size, mass, temperature and trajectory of cylindrical wind-driven firebrands
Oliveira Luis A.,
Lopes António G.,
Baliga Bantwal R.,
Almeida Miguel, Viegas Domingos X.
International Journal of Wildland Fire. 2014 23(5). p.698
Encyclopedia of Environmetrics (2012)
Spread vector induced cellular automata model for real-time crown fire behavior simulation
Liu Yuxuan,
Liu Hu,
Zhou Yaoming, Sun Cong
Environmental Modelling & Software. 2018 108 p.14
Pixel-level statistical analyses of prescribed fire spread
Currie M.,
Speer K.,
Hiers J.K.,
O’Brien J.J.,
Goodrick S., Quaife B.
Canadian Journal of Forest Research. 2019 49(1). p.18
Modeling and Analysis of Wildfire Detection using Wireless Sensor Network with Poisson Deployment
2018 IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS) (2018)
Large eddy simulation of forest canopy flow for wildland fire modeling
Mueller Eric,
Mell William, Simeoni Albert
Canadian Journal of Forest Research. 2014 44(12). p.1534
A tool for simulation and geo-animation of wildfires with fuel editing and hotspot monitoring capabilities
Bogdos Nikos, Manolakos Elias S.
Environmental Modelling & Software. 2013 46 p.182
Recent advances and applications of WRF–SFIRE
Mandel J.,
Amram S.,
Beezley J. D.,
Kelman G.,
Kochanski A. K.,
Kondratenko V. Y.,
Lynn B. H.,
Regev B., Vejmelka M.
Natural Hazards and Earth System Sciences. 2014 14(10). p.2829
Stochastic decision trigger modelling to assess the probability of wildland fire impact
Ramirez J.,
Monedero S.,
Silva C.A., Cardil A.
Science of The Total Environment. 2019 694 p.133505
Responding to Extreme Weather Events (2024)
Physical modelling of forest fire spreading through heterogeneous fuel beds
Simeoni Albert,
Salinesi Pierre, Morandini Frédéric
International Journal of Wildland Fire. 2011 20(5). p.625
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
PROPAGATOR: An Operational Cellular-Automata Based Wildfire Simulator
Trucchia Andrea,
D’Andrea Mirko,
Baghino Francesco,
Fiorucci Paolo,
Ferraris Luca,
Negro Dario,
Gollini Andrea, Severino Massimiliano
Fire. 2020 3(3). p.26
Physics-based simulations of grassfire propagation on sloped terrain at field scale: motivations, model reliability, rate of spread and fire intensity†
Innocent Jasmine,
Sutherland Duncan,
Khan Nazmul, Moinuddin Khalid
International Journal of Wildland Fire. 2023 32(4). p.496
Revisiting Wildland Fire Fuel Quantification Methods: The Challenge of Understanding a Dynamic, Biotic Entity
Duff Thomas,
Keane Robert,
Penman Trent, Tolhurst Kevin
Forests. 2017 8(9). p.351
Technology Entrepreneurship and Sustainable Development (2022)
A near real-time web-system for predicting fire spread across the Cerrado biome
Oliveira Ubirajara,
Soares-Filho Britaldo,
Rodrigues Hermann,
Figueira Danilo,
Gomes Leticia,
Leles William,
Berlinck Christian,
Morelli Fabiano,
Bustamante Mercedes,
Ometto Jean, Miranda Heloísa
Scientific Reports. 2023 13(1).
Curvature effects in the dynamic propagation of wildfires
Hilton J. E.,
Miller C.,
Sharples J. J., Sullivan A. L.
International Journal of Wildland Fire. 2016 25(12). p.1238
A Surrogate Model for Rapidly Assessing the Size of a Wildfire over Time
KC Ujjwal,
Aryal Jagannath,
Hilton James, Garg Saurabh
Fire. 2021 4(2). p.20
Fire Phenomena and the Earth System (2013)
Simulation of Aerial Supression Tasks in Wildfire Events Integrated with Gisfire Simulator
2020 Winter Simulation Conference (WSC) (2020)
Burned-Area Mapping at the Subpixel Scale With MODIS Images
Feng Ling ,
Yun Du ,
Yihang Zhang ,
Xiaodong Li , Fei Xiao
IEEE Geoscience and Remote Sensing Letters. 2015 12(9). p.1963
LES simulation of terrain slope effects on wind enhancement by a point source fire
Eftekharian Esmaeel,
Rashidi Maria,
Ghodrat Maryam,
He Yaping, Kwok Kenny C.S.
Case Studies in Thermal Engineering. 2020 18 p.100588
Emergency responses to natural disasters using Formosat-2 high-spatiotemporal-resolution imagery: forest fires
Liu C. C.,
Kuo Y. C., Chen C.-W.
Natural Hazards. 2013 66(2). p.1037
Forecasting and visualization of wildfires in a 3D geographical information system
Castrillón M.,
Jorge P.A.,
López I.J.,
Macías A.,
Martín D.,
Nebot R.J.,
Sabbagh I.,
Quintana F.M.,
Sánchez J.,
Sánchez A.J.,
Suárez J.P., Trujillo A.
Computers & Geosciences. 2011 37(3). p.390
Numerical study of the moisture content threshold under prescribed burning conditions
Awad Carmen,
Frangieh Nicolas,
Marcelli Thierry,
Accary Gilbert,
Morvan Dominique,
Meradji Sofiane,
Joseph Chatelon François, Louis Rossi Jean
Fire Safety Journal. 2021 122 p.103324
Deciphering the impact of uncertainty on the accuracy of large wildfire spread simulations
Benali Akli,
Ervilha Ana R.,
Sá Ana C.L.,
Fernandes Paulo M.,
Pinto Renata M.S.,
Trigo Ricardo M., Pereira José M.C.
Science of The Total Environment. 2016 569-570 p.73
Your Fire Management Career—Make It Count!
Wade Dale D.
Fire Ecology. 2011 7(1). p.107
The role of data assimilation in predictive ecology
Niu Shuli,
Luo Yiqi,
Dietze Michael C.,
Keenan Trevor F.,
Shi Zheng,
Li Jianwei, III F. Stuart Chapin
Ecosphere. 2014 5(5). p.1
ABWiSE v1.0: toward an agent-based approach to simulating wildfire spread
Katan Jeffrey, Perez Liliana
Natural Hazards and Earth System Sciences. 2021 21(10). p.3141
Coupled fire–atmosphere modeling of wildland fire spread using DEVS-FIRE and ARPS
Dahl Nathan,
Xue Haidong,
Hu Xiaolin, Xue Ming
Natural Hazards. 2015 77(2). p.1013
A weekly, continually updated dataset of the probability of large wildfires across western US forests and woodlands
Gray Miranda E.,
Zachmann Luke J., Dickson Brett G.
Earth System Science Data. 2018 10(3). p.1715
Real-time wildfire monitoring with a fleet of UAVs
Bailon-Ruiz Rafael,
Bit-Monnot Arthur, Lacroix Simon
Robotics and Autonomous Systems. 2022 152 p.104071
Modelling wildland fire propagation by tracking random fronts
Pagnini G., Mentrelli A.
Natural Hazards and Earth System Sciences. 2014 14(8). p.2249
Fifty years of progress in wildland fire modelling: from empirical to fully physical CFD models
Morvan Dominique,
Accary Gilbert,
Meradji Sofiane, Frangieh Nicolas
Comptes Rendus. Mécanique. 2022 350(S1). p.1
Slope effect on junction fire with two non-symmetric fire fronts
Ribeiro Carlos,
Xavier Viegas Domingos,
Raposo Jorge,
Reis Luís, Sharples Jason
International Journal of Wildland Fire. 2023 32(3). p.328
Wildland fire emissions, carbon and climate: Characterizing wildland fuels
Weise David R., Wright Clinton S.
Forest Ecology and Management. 2014 317 p.26
Comparing risk-based fuel treatment prioritization with alternative strategies for enhancing protection and resource management objectives
Thompson Matthew P.,
Vogler Kevin C.,
Scott Joe H., Miller Carol
Fire Ecology. 2022 18(1).
Accurate Detection of Occluded Wildfire Boundary
Feng Licheng, Katupitiya Jay
Fire Technology. 2022 58(3). p.1789
Testing for criticality in ecosystem dynamics: the case of Amazonian rainforest and savanna fire
Pueyo Salvador,
De Alencastro Graça Paulo Maurício Lima,
Barbosa Reinaldo Imbrozio,
Cots Ricard,
Cardona Eva, Fearnside Philip M.
Ecology Letters. 2010 13(7). p.793
Development of a Fuel Model for Cistus spp. and Testing Its Fire Behavior Prediction Performance
Athanasiou Miltiadis,
Martinis Aristotelis,
Korakaki Evangelia, Avramidou Evangelia V.
Fire. 2023 6(7). p.247
Limitations on the accuracy of model predictions of wildland fire behaviour: A state-of-the-knowledge overview
Alexander Martin E., Cruz Miguel G.
The Forestry Chronicle. 2013 89(03). p.372
Power Grid Resilience under Wildfire: A Review on Challenges and Solutions
2020 IEEE Power & Energy Society General Meeting (PESGM) (2020)
Simulating wildfires backwards in time from the final fire perimeter in point-functional fire models
Monedero S.,
Ramirez J.,
Molina-Terrén D., Cardil A.
Environmental Modelling & Software. 2017 92 p.163
Computational Science and Its Applications – ICCSA 2018 (2018)
Predicting wildfire spread and behaviour in Mediterranean landscapes
Salis Michele,
Arca Bachisio,
Alcasena Fermin,
Arianoutsou Margarita,
Bacciu Valentina,
Duce Pierpaolo,
Duguy Beatriz,
Koutsias Nikos,
Mallinis Giorgos,
Mitsopoulos Ioannis,
Moreno José M.,
Pérez José Ramón,
Urbieta Itziar R.,
Xystrakis Fotios,
Zavala Gonzalo, Spano Donatella
International Journal of Wildland Fire. 2016 25(10). p.1015
A Comparative Review on Wildfire Simulators
Papadopoulos G D, Pavlidou F-N
IEEE Systems Journal. 2011 5(2). p.233
Analytical and numerical insights into wildfire dynamics: Exploring the advection–diffusion–reaction model
Reisch Cordula,
Navas-Montilla Adrián, Özgen-Xian Ilhan
Computers & Mathematics with Applications. 2024 158 p.179
Tangible Modeling with Open Source GIS (2015)
On the Growth of Wildland Fires from a Small Ignition Source
Thomsen M.,
Fernandez-Pello A. C., Williams F. A.
Combustion Science and Technology. 2023 195(14). p.3542
Bulk and particle properties of pine needle fuel beds – influence on combustion
Santoni P. A.,
Bartoli P.,
Simeoni A., Torero J. L.
International Journal of Wildland Fire. 2014 23(8). p.1076
Development and application of a geospatial wildfire exposure and risk calculation tool
Thompson Matthew P.,
Haas Jessica R.,
Gilbertson-Day Julie W.,
Scott Joe H.,
Langowski Paul,
Bowne Elise, Calkin David E.
Environmental Modelling & Software. 2015 63 p.61
Stochastic scheduling of single forest firefighting processor
Kali Abdesselem
Canadian Journal of Forest Research. 2016 46(3). p.370
Combined estimation of fire perimeters and fuel adjustment factors in FARSITE for forecasting wildland fire propagation
Zhou Tengjiao,
Ding Long,
Ji Jie,
Yu Longxing, Wang Zheng
Fire Safety Journal. 2020 116 p.103167
Assessing large landscape patterns of potential fire connectivity using circuit methods
Buchholtz Erin K.,
Kreitler Jason,
Shinneman Douglas J.,
Crist Michele, Heinrichs Julie
Landscape Ecology. 2023 38(7). p.1663
A new model of landscape‐scale fire connectivity applied to resource and fire management in the Sonoran Desert, USA
Gray Miranda E., Dickson Brett G.
Ecological Applications. 2015 25(4). p.1099
Numerical Investigation of the Effect of Sloped Terrain on Wind-Driven Surface Fire and Its Impact on Idealized Structures
Edalati-nejad Ali,
Ghodrat Maryam, Simeoni Albert
Fire. 2021 4(4). p.94
Using cellular automata to simulate wildfire propagation and to assist in fire management
Freire Joana Gouveia, DaCamara Carlos Castro
Natural Hazards and Earth System Sciences. 2019 19(1). p.169
An integrated approach for tactical monitoring and data-driven spread forecasting of wildfires
Valero Mario M.,
Rios Oriol,
Mata Christian,
Pastor Elsa, Planas Eulàlia
Fire Safety Journal. 2017 91 p.835
Absorbing state phase transition with Clifford circuits
Makki Nastasia,
Lang Nicolai, Büchler Hans Peter
Physical Review Research. 2024 6(1).
A contractionless, low-turbulence wind tunnel for the study of free-burning fires
Sullivan A.L.,
Knight I.K.,
Hurley R.J., Webber C.
Experimental Thermal and Fluid Science. 2013 44 p.264
Techniques for evaluating wildfire simulators via the simulation of historical fires using the AUSTRALIS simulator
Kelso Joel K.,
Mellor Drew,
Murphy Mary E., Milne George J.
International Journal of Wildland Fire. 2015 24(6). p.784
100 Years of Progress in Applied Meteorology. Part III: Additional Applications
Haupt Sue Ellen,
Kosović Branko,
McIntosh Scott W.,
Chen Fei,
Miller Kathleen,
Shepherd Marshall,
Williams Marcus, Drobot Sheldon
Meteorological Monographs. 2019 59 p.24.1
A web-based wildfire simulator for operational applications
Arca Bachisio,
Ghisu Tiziano,
Casula Marcello,
Salis Michele, Duce Pierpaolo
International Journal of Wildland Fire. 2019 28(2). p.99
Randomizing activity in fire spreading simulations
Innocenti Eric,
Cancellieri Dominique,
Muzy A.,
Michel O., Hill D.R.C.
ITM Web of Conferences. 2013 1 p.02003
A method to assess the wildfire induced breakdown of high-voltage transmission lines
Chen Haixiang,
Zhang Yun, Zhang Linhe
Journal of Physics: Conference Series. 2018 1074 p.012152
Loss functions for spatial wildfire applications
Elliot- Kerr Shona,
Hilton James,
Parkins Kate,
K.C. Ujjwal,
Huston Carolyn,
Swedosh William, Penman Trent
Environmental Modelling & Software. 2024 173 p.105944
Estimating the Spread of Wildland Fires via Evidence-Based Information Fusion
Soderlund Alexander, Kumar Mrinal
IEEE Transactions on Control Systems Technology. 2023 31(2). p.511
Integrating Theoretical Climate and Fire Effects on Savanna and Forest Systems
Staver A. Carla, Levin Simon A.
The American Naturalist. 2012 180(2). p.211
Simulation analysis of the impact of ignitions, rekindles, and false alarms on forest fire suppression
Pacheco Abílio P.,
Claro João, Oliveira Tiago
Canadian Journal of Forest Research. 2014 44(1). p.45
Predicting the rate of spread of mixed-fuel surface fires in northeastern China using the Rothermel wildfire behaviour model: a laboratory study
Yang Hui,
Cai Huiying,
Yang Guang,
Geng Daotong, Sun Long
Journal of Forestry Research. 2024 35(1).
Mapping Homogeneous Response Areas for Forest Fuel Management Using Geospatial Data, K-Means, and Random Forest Classification
Chávez-Durán Álvaro Agustín,
Olvera-Vargas Miguel,
Figueroa-Rangel Blanca,
García Mariano,
Aguado Inmaculada, Ruiz-Corral José Ariel
Forests. 2022 13(12). p.1970
Evaluating landscape-scale wildfire exposure in northwestern Iran
Jahdi Roghayeh,
Salis Michele,
Alcasena Fermin J.,
Arabi Mahdi,
Arca Bachisio, Duce Pierpaolo
Natural Hazards. 2020 101(3). p.911
Three Lines of Defense for Wildfire Risk Management in Electric Power Grids: A Review
Arab Ali,
Khodaei Amin,
Eskandarpour Rozhin,
Thompson Matthew P., Wei Yu
IEEE Access. 2021 9 p.61577
Small World Network Model Validation. Case Study of Suartone Historical Fire in Corsica
Hamamousse N.,
Kaiss A.,
Giroud F.,
Bozabalian N.,
Clerc J-P., Zekri N.
Combustion Science and Technology. 2022 194(16). p.3374
Review of wildfire modeling considering effects on land surfaces
Or Dani,
Furtak-Cole Eden,
Berli Markus,
Shillito Rose,
Ebrahimian Hamed,
Vahdat-Aboueshagh Hamid, McKenna Sean A.
Earth-Science Reviews. 2023 245 p.104569
An open multi-physics framework for modelling wildland-urban interface fire evacuations
Ronchi Enrico,
Gwynne Steven M.V.,
Rein Guillermo,
Intini Paolo, Wadhwani Rahul
Safety Science. 2019 118 p.868
Analysis of the wind flow and fire spread dynamics over a sloped–ridgeline hill
Abouali Abdelrahman,
Viegas Domingos Xavier, Raposo Jorge Rafael
Combustion and Flame. 2021 234 p.111724
Assessing cross-boundary wildfire hazard, transmission, and exposure to communities in the Italy-France Maritime cooperation area
Salis Michele,
Del Giudice Liliana,
Alcasena-Urdiroz Fermin,
Jahdi Roghayeh,
Arca Bachisio,
Pellizzaro Grazia,
Scarpa Carla, Duce Pierpaolo
Frontiers in Forests and Global Change. 2023 6
Investigation of terrain slope effects on wind enhancement by a line source fire
Eftekharian E.,
Ghodrat M.,
He Y.,
Ong R.H.,
Kwok K.C.S.,
Zhao M., Samali B.
Case Studies in Thermal Engineering. 2019 14 p.100467
Atmospheric interactions with wildland fire behaviour - I. Basic surface interactions, vertical profiles and synoptic structures
Potter Brian E.
International Journal of Wildland Fire. 2012 21(7). p.779
An integrated approach of artificial intelligence and geoinformation techniques applied to forest fire risk modeling in Gachsaran, Iran
Feizizadeh Bakhtiar,
Omarzadeh Davoud,
Mohammadnejad Vahid,
Khallaghi Hoda,
Sharifi Ayyoob, Karkarg Bahaoldein Golmohmadzadeh
Journal of Environmental Planning and Management. 2023 66(6). p.1369
Kinetics of pyrolysis of litter materials from pine and eucalyptus forests
Wadhwani R.,
Sutherland D.,
Moinuddin K. A. M., Joseph P.
Journal of Thermal Analysis and Calorimetry. 2017 130(3). p.2035
Probabilistic assessment of wildfire hazard and municipal watershed exposure
Scott Joe,
Helmbrecht Don,
Thompson Matthew P.,
Calkin David E., Marcille Kate
Natural Hazards. 2012 64(1). p.707
Fire behaviour and smoke modelling: model improvement and measurement needs for next-generation smoke research and forecasting systems
Liu Yongqiang,
Kochanski Adam,
Baker Kirk R.,
Mell William,
Linn Rodman,
Paugam Ronan,
Mandel Jan,
Fournier Aime,
Jenkins Mary Ann,
Goodrick Scott,
Achtemeier Gary,
Zhao Fengjun,
Ottmar Roger,
French Nancy H. F.,
Larkin Narasimhan,
Brown Timothy,
Hudak Andrew,
Dickinson Matthew,
Potter Brian,
Clements Craig,
Urbanski Shawn,
Prichard Susan,
Watts Adam, McNamara Derek
International Journal of Wildland Fire. 2019 28(8). p.570
A Systematic Review and Bibliometric Analysis of Wildland Fire Behavior Modeling
Silva João,
Marques João,
Gonçalves Inês,
Brito Rui,
Teixeira Senhorinha,
Teixeira José, Alvelos Filipe
Fluids. 2022 7(12). p.374
Advances in Differential Equations and Applications (2014)
Conserving Africa's Mega-Diversity in the Anthropocene (2017)
Wildland Fire Behaviour Case Studies and Fuel Models for Landscape‐Scale Fire Modeling
Santoni Paul-Antoine,
Filippi Jean-Baptiste,
Balbi Jacques-Henri,
Bosseur Frédéric, Morvan D
Journal of Combustion. 2011 2011(1).
Improving the reliability and utility of operational bushfire behaviour predictions in Australian vegetation
Plucinski Matt P.,
Sullivan Andrew L.,
Rucinski Chris J., Prakash Mahesh
Environmental Modelling & Software. 2017 91 p.1
Modelling and simulation of wildland fire in the framework of the level set method
Mentrelli Andrea, Pagnini Gianni
Ricerche di Matematica. 2016 65(2). p.523
Discrete Event Front-tracking Simulation of a Physical Fire-spread Model
Filippi Jean-Baptiste,
Morandini Frédéric,
Balbi Jacques Henri, Hill David RC
SIMULATION. 2010 86(10). p.629
Three-Dimensional Dynamic Simulation System for Forest Surface Fire Spreading Prediction
Li Jianwei,
Li Xiaowen,
Chen Chongchen,
Zheng Huiru, Liu Naiyuan
International Journal of Pattern Recognition and Artificial Intelligence. 2018 32(08). p.1850026
Fire spread predictions: Sweeping uncertainty under the rug
Benali Akli,
Sá Ana C.L.,
Ervilha Ana R.,
Trigo Ricardo M.,
Fernandes Paulo M., Pereira José M.C.
Science of The Total Environment. 2017 592 p.187
Combustion machine learning: Principles, progress and prospects
Ihme Matthias,
Chung Wai Tong, Mishra Aashwin Ananda
Progress in Energy and Combustion Science. 2022 91 p.101010
Vegetation fire spread database: 85 wood wool shaving experiments at laboratory scale
Marchand A.,
Ferriere S.,
Collin A.,
Boulet P.,
Acem Z.,
Demeurie F., Morel J.–Y.
Fire Safety Journal. 2019 109 p.102870
Decision support for wildfire asset protection: A two-stage stochastic programming approach
Roozbeh Iman,
Hearne John,
Abbasi Babak, Ozlen Melih
Transportation Research Part E: Logistics and Transportation Review. 2021 155 p.102520
Modeling and mapping dynamic vulnerability to better assess WUI evacuation performance
Gwynne Steve,
Ronchi Enrico,
Bénichou Noureddine,
Kinateder Max,
Kuligowski Erica,
Gomaa Islam, Adelzadeh Masoud
Fire and Materials. 2019 43(6). p.644
Navigating scientific uncertainty in wildfire and flood risk mitigation: A qualitative review
Neale Timothy, Weir Jessica K.
International Journal of Disaster Risk Reduction. 2015 13 p.255
Fire Behavior Prediction in Larch Forests of the Kazakhstan Altai
Volokitina Aleksandra,
Kalachev Andrey,
Korets Mikhail, Sofronova Tatiana
Symmetry. 2021 13(4). p.578
Modelling the dynamic behaviour of junction fires with a coupled atmosphere–fire model
Thomas C. M.,
Sharples J. J., Evans J. P.
International Journal of Wildland Fire. 2017 26(4). p.331
Forest fire spreading: A nonlinear stochastic model continuous in space and time
Beneduci Roberto, Mascali Giovanni
Studies in Applied Mathematics. 2024 153(1).
Fire-spotting modelling in operational wildfire simulators based on Cellular Automata: A comparison study
López-De-Castro Marcos,
Trucchia Andrea,
Morra di Cella Umberto,
Fiorucci Paolo,
Cardillo Antonio, Pagnini Gianni
Agricultural and Forest Meteorology. 2024 350 p.109989
Assessing forest fire behavior simulation using FlamMap software and remote sensing techniques in Western Black Sea Region, Turkey
YAVUZ Mehmet,
SAĞLAM Bülent,
KÜÇÜK Ömer, TÜFEKÇİOĞLU Aydın
Kastamonu Üniversitesi Orman Fakültesi Dergisi. 2018 18(2). p.171
Data-Driven Wildfire Spread Modeling of European Wildfires Using a Spatiotemporal Graph Neural Network
Rösch Moritz,
Nolde Michael,
Ullmann Tobias, Riedlinger Torsten
Fire. 2024 7(6). p.207
A national approach for integrating wildfire simulation modeling into Wildland Urban Interface risk assessments within the United States
Haas Jessica R.,
Calkin David E., Thompson Matthew P.
Landscape and Urban Planning. 2013 119 p.44
A high-resolution large-eddy simulation framework for wildland fire predictions using TensorFlow
Wang Qing,
Ihme Matthias,
Linn Rod R.,
Chen Yi-Fan,
Yang Vivian,
Sha Fei,
Clements Craig,
McDanold Jenna S., Anderson John
International Journal of Wildland Fire. 2023 32(12). p.1711
Uncertainty and risk in wildland fire management: A review
Thompson Matthew P., Calkin Dave E.
Journal of Environmental Management. 2011 92(8). p.1895
Uncertainty quantification of forecast error in coupled fire–atmosphere wildfire spread simulations: sensitivity to the spatial resolution
Ciri U.,
Garimella M. M.,
Bernardoni F.,
Bennett R. L., Leonardi S.
International Journal of Wildland Fire. 2021 30(10). p.790
A response to ‘Clarifying the meaning of mantras in wildland fire behaviour modelling: reply to Cruz et al. (2017)'
Cruz Miguel G.,
Alexander Martin E., Sullivan Andrew L.
International Journal of Wildland Fire. 2018 27(11). p.776
Forest fire modeling using cellular automata and percolation threshold analysis
Proceedings of the 2011 American Control Conference (2011)
Examination of the wind speed limit function in the Rothermel surface fire spread model
Andrews Patricia L.,
Cruz Miguel G., Rothermel Richard C.
International Journal of Wildland Fire. 2013 22(7). p.959
Wildland Fire Burned Areas Prediction Using Long Short-Term Memory Neural Network with Attention Mechanism
Li Zhongzhi,
Huang Yufeng,
Li Xiaoxue, Xu Lei
Fire Technology. 2021 57(6). p.1
Geovisualization and Analysis of Landscape-Level Wildfire Behavior Using Repeat Pass Airborne Thermal Infrared Imagery
Shennan Keaton,
Stow Douglas A.,
Nara Atsushi,
Schag Gavin M., Riggan Philip
Fire. 2023 6(6). p.240
A High Resolution Coupled Fire–Atmosphere Forecasting System to Minimize the Impacts of Wildland Fires: Applications to the Chimney Tops II Wildland Event
Jiménez Pedro,
Muñoz-Esparza Domingo, Kosović Branko
Atmosphere. 2018 9(5). p.197
Advances in Artificial Systems for Medicine and Education III (2020)
Investigation of propagation of thermal runaway during large-scale storage and transportation of Li-ion batteries
Mishra Dhananjay,
Tummala Raghavender, Jain Ankur
Journal of Energy Storage. 2023 72 p.108315
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Fuzzy boundaries: Simulation and expertise in bushfire prediction
Neale Timothy, May Daniel
Social Studies of Science. 2020 50(6). p.837
Extension of the Balbi fire spread model to include the field scale conditions of shrubland fires
Chatelon François Joseph,
Balbi Jacques Henri,
Cruz Miguel G.,
Morvan Dominique,
Rossi Jean Louis,
Awad Carmen,
Frangieh Nicolas,
Fayad Jacky, Marcelli Thierry
International Journal of Wildland Fire. 2022 31(2). p.176
Simulation and visualization of forest fire growth in an integrated 3D virtual geographical environment - a preliminary study
2012 20th International Conference on Geoinformatics (2012)
A mixed integer programming approach for asset protection during escaped wildfires
van der Merwe Martijn,
Minas James P.,
Ozlen Melih, Hearne John W.
Canadian Journal of Forest Research. 2015 45(4). p.444
Wildfire Prediction to Inform Fire Management: Statistical Science Challenges
Taylor S. W.,
Woolford Douglas G.,
Dean C. B., Martell David L.
Statistical Science. 2013 28(4).
A New Fire Danger Index Developed by Random Forest Analysis of Remote Sensing Derived Fire Sizes
Shah Sami Ullah,
Yebra Marta,
Van Dijk Albert I. J. M., Cary Geoffrey J.
Fire. 2022 5(5). p.152
Zonal-Based Emission Source Term Model for Predicting Particulate Emission Factors in Wildfire Simulations
Josephson Alexander J.,
Castaño Daniel,
Koo Eunmo, Linn Rodman R.
Fire Technology. 2021 57(2). p.943
Hybrid Artificial Intelligent Systems (2017)
A cellular automata model to link surface fires to firebrand lift-off and dispersal
Perryman Holly A.,
Dugaw Christopher J.,
Varner J. Morgan, Johnson Diane L.
International Journal of Wildland Fire. 2013 22(4). p.428
Bushfire simulators and analysis in Australia: insights into an emerging sociotechnical practice
Neale Timothy, May Daniel
Environmental Hazards. 2018 17(3). p.200
A Finsler geodesic spray paradigm for wildfire spread modelling
Markvorsen Steen
Nonlinear Analysis: Real World Applications. 2016 28 p.208
Experimental and Numerical Study of the Trench Fire Spread Rule over a Sloped Uniform Fuel Bed: Rate of Fire Spread, Flame Morphology, and Heat Flux
Wang Yi, Huang Rui
Fire. 2023 6(12). p.469
A downslope fire spread correction factor based on landscape-scale fire behaviour
Sullivan A.L.,
Sharples J.J.,
Matthews S., Plucinski M.P.
Environmental Modelling & Software. 2014 62 p.153
Physics-based model of wildfire propagation towards faster-than-real-time simulations
Grasso Paolo, Innocente Mauro S.
Computers & Mathematics with Applications. 2020 80(5). p.790
Conditional Performance Evaluation: Using Wildfire Observations for Systematic Fire Simulator Development
Duff Thomas,
Cawson Jane,
Cirulis Brett,
Nyman Petter,
Sheridan Gary, Tolhurst Kevin
Forests. 2018 9(4). p.189
Leveraging national forestry data repositories to advocate wildfire modeling towards simulation-driven risk assessment
Gómez-González Juan Luis,
Cantizano Alexis,
Caro-Carretero Raquel, Castro Mario
Ecological Indicators. 2024 158 p.111306
A New Algorithm for Simulating Wildfire Spread through Cellular Automata
Trunfio Giuseppe A.,
D’Ambrosio Donato,
Rongo Rocco,
Spataro William, Di Gregorio Salvatore
ACM Transactions on Modeling and Computer Simulation. 2011 22(1). p.1
Safety distances for storage tanks to prevent fire damage in Wildland-Industrial Interface
Ricci Federica,
Scarponi Giordano Emrys,
Pastor Elsa,
Planas Eulàlia, Cozzani Valerio
Process Safety and Environmental Protection. 2021 147 p.693
The state of wildfire and bushfire science: Temporal trends, research divisions and knowledge gaps
Haghani Milad,
Kuligowski Erica,
Rajabifard Abbas, Kolden Crystal A.
Safety Science. 2022 153 p.105797
Radial basis function-based vector field algorithm for wildfire boundary tracking with UAVs
Feng Licheng, Katupitiya Jay
Computational and Applied Mathematics. 2022 41(3).
Is burn severity related to fire intensity? Observations from landscape scale remote sensing
Heward Heather,
Smith Alistair M. S.,
Roy David P.,
Tinkham Wade T.,
Hoffman Chad M.,
Morgan Penelope, Lannom Karen O.
International Journal of Wildland Fire. 2013 22(7). p.910
Turbulence and fire-spotting effects into wild-land fire simulators
Kaur Inderpreet,
Mentrelli Andrea,
Bosseur Frédéric,
Filippi Jean-Baptiste, Pagnini Gianni
Communications in Nonlinear Science and Numerical Simulation. 2016 39 p.300
A Physical-Based Cellular Automaton Model for Forest-Fire Propagation
Collin A.,
Bernardin D., Séro-Guillaume O.
Combustion Science and Technology. 2011 183(4). p.347
Combustion of forest litters under slope conditions: Burning rate, heat release rate, convective and radiant fractions for different loads
Tihay Virginie,
Morandini Frédéric,
Santoni Paul-Antoine,
Perez-Ramirez Yolanda, Barboni Toussaint
Combustion and Flame. 2014 161(12). p.3237
Experimental study of krone burning parameters of the most common trees in Vietnam
Puzach S. V., Tuan L. A.
Pozharovzryvobezopasnost/Fire and Explosion Safety. 2020 28(6). p.10
Global sensitivity analysis of fuel-type-dependent input variables of a simplified physical fire spread model
Asensio-Sevilla M.I.,
Santos-Martín M.T.,
Álvarez-León D., Ferragut-Canals L.
Mathematics and Computers in Simulation. 2020 172 p.33
Resolving vorticity-driven lateral fire spread using the WRF-Fire coupled atmosphere–fire numerical model
Simpson C. C.,
Sharples J. J., Evans J. P.
Natural Hazards and Earth System Sciences. 2014 14(9). p.2359
Numerical simulation on response characteristics of coal ignition under the disturbance of fluctuating heat
Shi Xueqiang,
Zhang Yutao,
Chen Xiaokun,
Zhang Yuanbo,
Rui Liu,
Guo Ruizhi,
Zhao Tenglong, Deng Yin
Combustion and Flame. 2022 237 p.111870
Missing Climate Feedbacks in Fire Models: Limitations and Uncertainties in Fuel Loadings and the Role of Decomposition in Fine Fuel Accumulation
Hanan Erin J.,
Kennedy Maureen C.,
Ren Jianning,
Johnson Morris C., Smith Alistair M. S.
Journal of Advances in Modeling Earth Systems. 2022 14(3).
Fingering instability in wildfire fronts
Harris S.J., McDonald N.R.
Journal of Fluid Mechanics. 2022 943
Forest fire spread simulation algorithm based on cellular automata
Rui Xiaoping,
Hui Shan,
Yu Xuetao,
Zhang Guangyuan, Wu Bin
Natural Hazards. 2018 91(1). p.309
Wiley StatsRef: Statistics Reference Online (2014)
Fractal analysis of wildfire pattern dynamics using a Small World Network model
Sahila A.,
Zekri N.,
Clerc J.-P.,
Kaiss A., Sahraoui S.
Physica A: Statistical Mechanics and its Applications. 2021 583 p.126300
Fuel Element Combustion Properties for Live Wildland Utah Shrubs
Shen Chen, Fletcher Thomas H.
Combustion Science and Technology. 2015 187(3). p.428
Computational Science – ICCS 2024 (2024)
Operational wildfire suppression modelling: a review evaluating development, state of the art and future directions
Duff Thomas J., Tolhurst Kevin G.
International Journal of Wildland Fire. 2015 24(6). p.735
Emulation of wildland fire spread simulation using deep learning
Allaire Frédéric,
Mallet Vivien, Filippi Jean-Baptiste
Neural Networks. 2021 141 p.184
Representation and evaluation of wildfire propagation simulations
Filippi Jean-Baptiste,
Mallet Vivien, Nader Bahaa
International Journal of Wildland Fire. 2014 23(1). p.46
A high-resolution fuel type mapping procedure based on satellite imagery and neural networks: Updating fuel maps for wildfire simulators
López-De-Castro Marcos,
Prieto-Herráez Diego,
Asensio-Sevilla María Isabel, Pagnini Gianni
Remote Sensing Applications: Society and Environment. 2022 27 p.100810
Review of Pathways for Building Fire Spread in the Wildland Urban Interface Part I: Exposure Conditions
Caton Sara E.,
Hakes Raquel S. P.,
Gorham Daniel J.,
Zhou Aixi, Gollner Michael J.
Fire Technology. 2017 53(2). p.429
Live fuel moisture content (LFMC) time series for multiple sites and species in the French Mediterranean area since 1996
Martin-StPaul N.,
Pimont F.,
Dupuy J. L.,
Rigolot E.,
Ruffault J.,
Fargeon H.,
Cabane E.,
Duché Y.,
Savazzi R., Toutchkov M.
Annals of Forest Science. 2018 75(2).
Predicting the arrival of the unpredictable: An approach for foreseeing the transition to chaos of wildfire propagation
Mampel Danta Jorge,
Egorova Vera N., Pagnini Gianni
Communications in Nonlinear Science and Numerical Simulation. 2024 138 p.108190
Mapping the daily progression of large wildland fires using MODIS active fire data
Veraverbeke Sander,
Sedano Fernando,
Hook Simon J.,
Randerson James T.,
Jin Yufang, Rogers Brendan M.
International Journal of Wildland Fire. 2014 23(5). p.655
Comparative Assessment of Wildland Fire Rate of Spread Models: Effects of Wind Velocity
Kolaitis Dionysios I.,
Pallikarakis Christos, Founti Maria A.
Fire. 2023 6(5). p.188
SMLFire1.0: a stochastic machine learning (SML) model for wildfire activity in the western United States
Buch Jatan,
Williams A. Park,
Juang Caroline S.,
Hansen Winslow D., Gentine Pierre
Geoscientific Model Development. 2023 16(12). p.3407
Accelerating wildfire susceptibility mapping through GPGPU
Di Gregorio Salvatore,
Filippone Giuseppe,
Spataro William, Trunfio Giuseppe A.
Journal of Parallel and Distributed Computing. 2013 73(8). p.1183
A Fireline Displacement Model to Predict Fire Spread
Viegas Domingos X.,
Ribeiro Carlos,
Barbosa Thiago Fernandes,
Rodrigues Tiago, Ribeiro Luís M.
Fire. 2024 7(4). p.121
Dynamic rerouting of vehicles during cooperative wildfire response operations
van der Merwe Martijn,
Ozlen Melih,
Hearne John W., Minas James P.
Annals of Operations Research. 2017 254(1-2). p.467
Handbook of Dynamic Data Driven Applications Systems (2023)
Next-generation geospatial-temporal information technologies for disaster management
Albrecht C. M.,
Elmegreen B.,
Gunawan O.,
Hamann H. F.,
Klein L. J.,
Lu S.,
Mariano F.,
Siebenschuh C., Schmude J.
IBM Journal of Research and Development. 2020 64(1/2). p.5:1
Fractal dimensions of wildfire spreading
Wang S.-L.,
Lee H.-I., Li S.-P.
Nonlinear Processes in Geophysics. 2014 21(4). p.815
QES-Fire: a dynamically coupled fast-response wildfire model
Moody Matthew J.,
Gibbs Jeremy A.,
Krueger Steven,
Mallia Derek,
Pardyjak Eric R.,
Kochanski Adam K.,
Bailey Brian N., Stoll Rob
International Journal of Wildland Fire. 2022 31(3). p.306
Modelling natural disturbances in forest ecosystems: a review
Seidl Rupert,
Fernandes Paulo M.,
Fonseca Teresa F.,
Gillet François,
Jönsson Anna Maria,
Merganičová Katarína,
Netherer Sigrid,
Arpaci Alexander,
Bontemps Jean-Daniel,
Bugmann Harald,
González-Olabarria Jose Ramon,
Lasch Petra,
Meredieu Céline,
Moreira Francisco,
Schelhaas Mart-Jan, Mohren Frits
Ecological Modelling. 2011 222(4). p.903
SFPE Handbook of Fire Protection Engineering (2016)
An emergency response model for the formation and dispersion of plumes originating from major fires (BUOYANT v4.20)
Kukkonen Jaakko,
Nikmo Juha,
Riikonen Kari,
Westerholm Ilmo,
Ilvessalo Pekko,
Bergman Tuomo, Haikarainen Klaus
Geoscientific Model Development. 2022 15(10). p.4027
Natural Hazard Uncertainty Assessment (2016)
Assessing and reinitializing wildland fire simulations through satellite active fire data
Cardil Adrián,
Monedero Santiago,
Ramírez Joaquin, Silva Carlos Alberto
Journal of Environmental Management. 2019 231 p.996
Effects of prescribed fire frequency on wildfire emissions and carbon sequestration in a fire adapted ecosystem using a comprehensive carbon model
Volkova Liubov,
Roxburgh Stephen H., Weston Christopher J.
Journal of Environmental Management. 2021 290 p.112673
Toward Probabilistic Risk Assessment of Wildland–Urban Interface Communities for Wildfires
Masoudvaziri Nima,
Elhami-Khorasani Negar, Sun Kang
Fire Technology. 2023 59(4). p.1379
On the non-monotonic behaviour of fire spread
Viegas Domingos Xavier Filomeno Carlos,
Raposo Jorge Rafael Nogueira,
Ribeiro Carlos Fernando Morgado,
Reis Luís Carlos Duarte,
Abouali Abdelrahman, Viegas Carlos Xavier Pais
International Journal of Wildland Fire. 2021 30(9). p.702
Emergency logistics for wildfire suppression based on forecasted disaster evolution
Yang Zhongzhen,
Guo Liquan, Yang Zaili
Annals of Operations Research. 2019 283(1-2). p.917
Physical Phenomena and Length Scales Governing the Behaviour of Wildfires: A Case for Physical Modelling
Morvan Dominique
Fire Technology. 2011 47(2). p.437
Cohesive fire management within an uncertain environment: A review of risk handling and decision support systems
Pacheco Abílio Pereira,
Claro João,
Fernandes Paulo M.,
de Neufville Richard,
Oliveira Tiago M.,
Borges José G., Rodrigues José Coelho
Forest Ecology and Management. 2015 347 p.1
Novel method for a posteriori uncertainty quantification in wildland fire spread simulation
Allaire Frédéric,
Mallet Vivien, Filippi Jean-Baptiste
Applied Mathematical Modelling. 2021 90 p.527
Defining Wildfire Susceptibility Maps in Italy for Understanding Seasonal Wildfire Regimes at the National Level
Trucchia Andrea,
Meschi Giorgio,
Fiorucci Paolo,
Gollini Andrea, Negro Dario
Fire. 2022 5(1). p.30
A review of machine learning applications in wildfire science and management
Jain Piyush,
Coogan Sean C.P.,
Subramanian Sriram Ganapathi,
Crowley Mark,
Taylor Steve, Flannigan Mike D.
Environmental Reviews. 2020 28(4). p.478
Evaluating fire growth simulations using satellite active fire data
Sá Ana C.L.,
Benali Akli,
Fernandes Paulo M.,
Pinto Renata M.S.,
Trigo Ricardo M.,
Salis Michele,
Russo Ana,
Jerez Sonia,
Soares Pedro M.M.,
Schroeder Wilfrid, Pereira José M.C.
Remote Sensing of Environment. 2017 190 p.302
Forest fire spread simulating model using cellular automaton with extreme learning machine
Zheng Zhong,
Huang Wei,
Li Songnian, Zeng Yongnian
Ecological Modelling. 2017 348 p.33
Improving the uncertainty assessment of economic losses from large destructive wildfires
Guillaume Bruno,
Porterie Bernard,
Batista Antonio,
Cottle Phil, Albergel Armand
International Journal of Wildland Fire. 2019 28(6). p.420
Next Day Wildfire Spread: A Machine Learning Dataset to Predict Wildfire Spreading From Remote-Sensing Data
Huot Fantine,
Hu R. Lily,
Goyal Nita,
Sankar Tharun,
Ihme Matthias, Chen Yi-Fan
IEEE Transactions on Geoscience and Remote Sensing. 2022 60 p.1
The distributed strategy for asynchronous observations in data-driven wildland fire spread prediction
Zha Mengxia,
Wang Zheng,
Ji Jie, Zhu Jiping
International Journal of Wildland Fire. 2024 33(7).
The direction of landscape erosion
Stark Colin P., Stark Gavin J.
Earth Surface Dynamics. 2022 10(3). p.383
Recurrent Convolutional Deep Neural Networks for Modeling Time-Resolved Wildfire Spread Behavior
Burge John,
Bonanni Matthew R.,
Hu R. Lily, Ihme Matthias
Fire Technology. 2023 59(6). p.3327
Sensitivity analysis and parameter adjustment in a simplified physical wildland fire model
Prieto D.,
Asensio M.I.,
Ferragut L., Cascón J.M.
Advances in Engineering Software. 2015 90 p.98
Real-time wildland fire spread modeling using tabulated flame properties
de Gennaro Matthieu,
Billaud Yann,
Pizzo Yannick,
Garivait Savitri,
Loraud Jean-Claude,
El Hajj Mahmoud, Porterie Bernard
Fire Safety Journal. 2017 91 p.872
A power series formulation for two-dimensional wildfire shapes
Hilton J. E.,
Miller C., Sullivan A. L.
International Journal of Wildland Fire. 2016 25(9). p.970
Uncertainty simulation of large-scale discrete grassland fire spread based on Monte Carlo
Liu Xing-peng,
Tong Zhi-jun,
Zhang Ji-quan, Song Chuan-tao
Fire Safety Journal. 2023 135 p.103713
Fire, CO2, and climate effects on modeled vegetation and carbon dynamics in western Oregon and Washington
Sheehan Tim,
Bachelet Dominique,
Ferschweiler Ken, Sihi Debjani
PLOS ONE. 2019 14(1). p.e0210989
Modeling Forest Fire Spread Using Machine Learning-Based Cellular Automata in a GIS Environment
Xu Yiqing,
Li Dianjing,
Ma Hao,
Lin Rong, Zhang Fuquan
Forests. 2022 13(12). p.1974
Effect of two-way coupling on the calculation of forest fire spread: model development
Lopes A. M. G.,
Ribeiro L. M.,
Viegas D. X., Raposo J. R.
International Journal of Wildland Fire. 2017 26(9). p.829
Wildland fire spread modelling using cellular automata: evolution in large-scale spatially heterogeneous environments under fire suppression tactics
Alexandridis A.,
Russo L.,
Vakalis D.,
Bafas G. V., Siettos C. I.
International Journal of Wildland Fire. 2011 20(5). p.633
Assessing improvements in models used to operationally predict wildland fire rate of spread
Cruz Miguel G.,
Alexander Martin E.,
Sullivan Andrew L.,
Gould James S., Kilinc Musa
Environmental Modelling & Software. 2018 105 p.54
Integrating fire spread patterns in fire modelling at landscape scale
Duane Andrea,
Aquilué Núria,
Gil-Tena Assu, Brotons Lluís
Environmental Modelling & Software. 2016 86 p.219
Lessons Learned from Coupled Fire-Atmosphere Research and Implications for Operational Fire Prediction and Meteorological Products Provided by the Bureau of Meteorology to Australian Fire Agencies
Peace Mika,
Charney Joseph, Bally John
Atmosphere. 2020 11(12). p.1380
Incorporating convective feedback in wildfire simulations using pyrogenic potential
Hilton J.E.,
Sullivan A.L.,
Swedosh W.,
Sharples J., Thomas C.
Environmental Modelling & Software. 2018 107 p.12
Fire behavior modeling for operational decision-making
Cardil Adrián,
Monedero Santiago,
Schag Gavin,
de-Miguel Sergio,
Tapia Mario,
Stoof Cathelijne R.,
Silva Carlos A.,
Mohan Midhun,
Cardil Alba, Ramirez Joaquin
Current Opinion in Environmental Science & Health. 2021 23 p.100291
Visualization of 3D forest fire spread based on the coupling of multiple weather factors
Meng Qingkuo,
Huai Yongjian,
You Jiawei, Nie Xiaoying
Computers & Graphics. 2023 110 p.58
Modeling Vorticity-Driven Wildfire Behavior Using Near-Field Techniques
Sharples Jason J., Hilton James E.
Frontiers in Mechanical Engineering. 2020 5
Wildland fire risk research in Canada
Johnston Lynn M.,
Wang Xianli,
Erni Sandy,
Taylor Stephen W.,
McFayden Colin B.,
Oliver Jacqueline A.,
Stockdale Chris,
Christianson Amy,
Boulanger Yan,
Gauthier Sylvie,
Arseneault Dominique,
Wotton B. Mike,
Parisien Marc-André, Flannigan Mike D.
Environmental Reviews. 2020 28(2). p.164
A numerical investigation of the influence of radiation and moisture content on pyrolysis and ignition of a leaf-like fuel element
Yashwanth B.L.,
Shotorban B.,
Mahalingam S.,
Lautenberger C.W., Weise D.R.
Combustion and Flame. 2016 163 p.301
Simulations of the unsteady response of biomass burning particles exposed to oscillatory heat flux conditions
Ahmed Mohamed Mohsen, Trouvé Arnaud
Fire Safety Journal. 2021 120 p.103059
Applying and Evaluating the Modified Method of the Rothermel Model under No-Wind Conditions for Pinus koraiensis Plantations
Guo Yan,
Hu Haiqing,
Hu Tongxin,
Ren Menglin,
Chen Boxuan,
Fan Jiale,
Man Ziyuan, Sun Long
Forests. 2024 15(7). p.1178
A Wildland Fire Physical Model Well Suited to Data Assimilation
Ferragut L.,
Asensio M. I.,
Cascón J. M., Prieto D.
Pure and Applied Geophysics. 2015 172(1). p.121
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Interaction between two parallel fire fronts under different wind conditions
Ribeiro Carlos,
Reis Luís,
Raposo Jorge,
Rodrigues André,
Viegas Domingos Xavier, Sharples Jason
International Journal of Wildland Fire. 2022 31(5). p.492
Handbook of Ecological Models used in Ecosystem and Environmental Management (2011)
Automated location of active fire perimeters in aerial infrared imaging using unsupervised edge detectors
Valero M. M.,
Rios O.,
Pastor E., Planas E.
International Journal of Wildland Fire. 2018 27(4). p.241
Extreme Weather Forecasting (2023)
A Multistage Stochastic Program to Optimize Prescribed Burning Locations Using Random Fire Samples
Nguyen Dung, Wei Yu
Forests. 2022 13(6). p.930
Evaluating Crown Fire Rate of Spread Predictions from Physics-Based Models
Hoffman C. M.,
Canfield J.,
Linn R. R.,
Mell W.,
Sieg C. H.,
Pimont F., Ziegler J.
Fire Technology. 2016 52(1). p.221
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2019)
Statistical Models of Key Components of Wildfire Risk
Xi Dexen D.Z.,
Taylor Stephen W.,
Woolford Douglas G., Dean C.B.
Annual Review of Statistics and Its Application. 2019 6(1). p.197
Simulation and Modeling Methodologies, Technologies and Applications (2014)
WFNet: A hierarchical convolutional neural network for wildfire spread prediction
Jiang Wenyu,
Qiao Yuming,
Su Guofeng,
Li Xin,
Meng Qingxiang,
Wu Hongying,
Quan Wei,
Wang Jing, Wang Fei
Environmental Modelling & Software. 2023 170 p.105841
Implications of the spatial dynamics of fire spread for the bistability of savanna and forest
Schertzer E.,
Staver A. C., Levin S. A.
Journal of Mathematical Biology. 2015 70(1-2). p.329
Multifidelity prediction in wildfire spread simulation: Modeling, uncertainty quantification and sensitivity analysis
Valero Mario Miguel,
Jofre Lluís, Torres Ricardo
Environmental Modelling & Software. 2021 141 p.105050
A Simple but Effective Bushfire Model: Analysis and Real-Time Simulations
Dipierro Serena,
Valdinoci Enrico,
Wheeler Glen, Wheeler Valentina-Mira
SIAM Journal on Applied Mathematics. 2024 84(4). p.1504
CLIMATE EFFECT ON WILDFIRE BURNED AREA IN ALBERTA (1961–2010)
LEE HUNG-I,
WANG SHIH-LUEN, LI SAI-PING
International Journal of Modern Physics C. 2013 24(08). p.1350053
Pyros: a raster–vector spatial simulation model for predicting wildland surface fire spread and growth
Voltolina Debora,
Cappellini Giacomo,
Apuani Tiziana, Sterlacchini Simone
International Journal of Wildland Fire. 2024 33(3).
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Applications of Randers geodesics for wildfire spread modelling
Dehkordi Hengameh R.
Applied Mathematical Modelling. 2022 106 p.45
A review of recent advances in risk analysis for wildfire management
Miller Carol, Ager Alan A.
International Journal of Wildland Fire. 2013 22(1). p.1
Burning anticipation: Wildfire, risk mitigation and simulation modelling in Victoria, Australia
Neale Timothy
Environment and Planning A: Economy and Space. 2016 48(10). p.2026
Modeling Wildfire Spread with an Irregular Graph Network
Jiang Wenyu,
Wang Fei,
Su Guofeng,
Li Xin,
Wang Guanning,
Zheng Xinxin,
Wang Ting, Meng Qingxiang
Fire. 2022 5(6). p.185
Enhancing wildfire propagation model predictions using aerial swarm-based real-time wind measurements: A conceptual framework
Tavakol Sadrabadi Mohammad, Innocente Mauro Sebastián
Applied Mathematical Modelling. 2024 130 p.615
Verification of a Lagrangian particle model for short-range firebrand transport
Wadhwani Rahul,
Sutherland Duncan,
Ooi Andrew,
Moinuddin Khalid, Thorpe Graham
Fire Safety Journal. 2017 91 p.776
Simulation of surface fire fronts using fireLib and GPUs
Sousa F.A.,
dos Reis R.J.N., Pereira J.C.F.
Environmental Modelling & Software. 2012 38 p.167
Effects of spatial and temporal variation in environmental conditions on simulation of wildfire spread
Hilton J.E.,
Miller C.,
Sullivan A.L., Rucinski C.
Environmental Modelling & Software. 2015 67 p.118
Mapping Forest Landscape Patterns (2017)
Priority Maps for Surveillance and Intervention of Wildfires and other Spreading Processes
2019 International Conference on Robotics and Automation (ICRA) (2019)
Fire spread in chaparral – a comparison of laboratory data and model predictions in burning live fuels
Weise David R.,
Koo Eunmo,
Zhou Xiangyang,
Mahalingam Shankar,
Morandini Frédéric, Balbi Jacques-Henri
International Journal of Wildland Fire. 2016 25(9). p.980
The FireFlux II experiment: a model-guided field experiment to improve understanding of fire–atmosphere interactions and fire spread
Clements Craig B.,
Kochanski Adam K.,
Seto Daisuke,
Davis Braniff,
Camacho Christopher,
Lareau Neil P.,
Contezac Jonathan,
Restaino Joseph,
Heilman Warren E.,
Krueger Steven K.,
Butler Bret,
Ottmar Roger D.,
Vihnanek Robert,
Flynn James,
Filippi Jean-Baptiste,
Barboni Toussaint,
Hall Dianne E.,
Mandel Jan,
Jenkins Mary Ann,
O'Brien Joseph,
Hornsby Ben, Teske Casey
International Journal of Wildland Fire. 2019 28(4). p.308
Tangible Modeling with Open Source GIS (2018)
Faster prediction of wildfire behaviour by physical models through application of proper orthogonal decomposition
Guelpa Elisa,
Sciacovelli Adriano,
Verda Vittorio, Ascoli Davide
International Journal of Wildland Fire. 2016 25(11). p.1181
Minimizing the Risk of Spreading Processes via Surveillance Schedules and Sparse Control
Somers Vera L. J., Manchester Ian R.
IEEE Transactions on Control of Network Systems. 2023 10(1). p.394
