Non-supervised method for early forest fire detection and rapid mapping

Artés, Tomàs; Roberto, Boca; Giorgio, Liberta'; San-Miguel, Jesús F.

doi:10.1117/12.2280714

Cited by 4 publications

(10 citation statements)

References 13 publications

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“…Other studies have tested the interpolations of active fire clusters and successfully visualized these large fire perimeters, and calibrated the fire propagation models [52,54]. Various techniques have been used for the aggregation method, ranging from buffering of fire zones [52], Kriging analysis [55], weighted mean and distance methods, or the Inverse Distance Weighted (IDW) method [56], to convex hull algorithms applied to the assessing the active fire clusters [57]. Previous studies regarding active fire monitoring are carried out using coarse-resolution sensors, usually of 1 km resolution like MODIS or Advanced Very-High-Resolution Radiometer (AVHRR) [55].…”

Section: Bushfire Management With Advanced Toolsmentioning

confidence: 99%

“…Some of the more recent available sensors like VIIRS on the Suomi National Polar-Orbiting Partnership (S-NPP) satellite provide great potential for detecting small fires that may have broader impacts. This sensor has a high spatial and temporal resolution of 375 m. These improved features of the VIIRS active fire products have reopened the possibility of directly mapping burnt areas using the active fire products [52,57]. Despite the great applicability of VIIRS active fire products, there is still a lack of studies to test bushfire monitoring.…”

Section: Bushfire Management With Advanced Toolsmentioning

confidence: 99%

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UAV Assisted Spatiotemporal Analysis and Management of Bushfires: A Case Study of the 2020 Victorian Bushfires

Munawar

Ullah

Khan

et al. 2021

Fire

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Australia is a regular recipient of devastating bushfires that severely impacts its economy, landscape, forests, and wild animals. These bushfires must be managed to save a fortune, wildlife, and vegetation and reduce fatalities and harmful environmental impacts. The current study proposes a holistic model that uses a mixed-method approach of Geographical Information System (GIS), remote sensing, and Unmanned Aerial Vehicles (UAV)-based bushfire assessment and mitigation. The fire products of Visible Infrared Imager Radiometer Suite (VIIRS) and Moderate-resolution Imaging Spectroradiometer (MODIS) are used for monitoring the burnt areas within the Victorian Region due to the 2020 bushfires. The results show that the aggregate of 1500 m produces the best output for estimating the burnt areas. The identified hotspots are in the eastern belt of the state that progressed north towards New South Wales. The R2 values between 0.91–0.99 indicate the fitness of methods used in the current study. A healthy z-value index between 0.03 to 2.9 shows the statistical significance of the hotspots. Additional analysis of the 2019–20 Victorian bushfires shows a widespread radius of the fires associated with the climate change and Indian Ocean Dipole (IOD) phenomenon. The UAV paths are optimized using five algorithms: greedy, intra route, inter route, tabu, and particle swarm optimization (PSO), where PSO search surpassed all the tested methods in terms of faster run time and lesser costs to manage the bushfires disasters. The average improvement demonstrated by the PSO algorithm over the greedy method is approximately 2% and 1.2% as compared with the intra route. Further, the cost reduction is 1.5% compared with the inter-route scheme and 1.2% compared with the intra route algorithm. The local disaster management authorities can instantly adopt the proposed system to assess the bushfires disasters and instigate an immediate response plan.

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Section: Bushfire Management With Advanced Toolsmentioning

confidence: 99%

Section: Bushfire Management With Advanced Toolsmentioning

confidence: 99%

UAV Assisted Spatiotemporal Analysis and Management of Bushfires: A Case Study of the 2020 Victorian Bushfires

Munawar

Ullah

Khan

et al. 2021

Fire

View full text Add to dashboard Cite

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“…Current operational products of global burned area [8] are generally available one month after the fire, limiting their applicability for fire near real-time perimeter monitoring [13][14][15] which can be useful for fire managers to make early evaluations of approximate fire extent and location. Unlike current products of burned area data, observations of active fires made with spaceborne sensors are available at least with a daily latency [11,16,17].…”

Section: Introductionmentioning

confidence: 99%

“…Some studies have even tested such interpolations of conglomerates of active fires to visualize the approximate advance of the perimeter of large fires [13,14,[30][31][32][33][34][35] and to calibrate fire propagation models [36][37][38][39][40][41][42][43][44]. Several techniques are being investigated for this aggregation approach, including the direct aggregation or buffering of active fires (e.g., [30,31]), the inverse distance weighted or the weighted mean and distance methods (e.g., [13]), kriging analysis (e.g., [14]), or the use of convex hull algorithms applied to active fire clusters (e.g., [15,43]).…”

Section: Introductionmentioning

confidence: 99%

“…The more recently available Visible Infrared Imaging Radiometer (VIIRS) aboard the Suomi National Polar-orbiting Partnership (S-NPP) satellite, launched in 2011, offers greater potential for small fire detection, having a higher temporal and spatial resolution (375 m) [11,45,46]. Such enhanced characteristics of the VIIRS 375 m active fire product reopened the possibility of direct rapid mapping of burned areas from active fire detection products [15,31].…”

Section: Introductionmentioning

confidence: 99%

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Near Real-Time Automated Early Mapping of the Perimeter of Large Forest Fires from the Aggregation of VIIRS and MODIS Active Fires in Mexico

et al. 2020

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In contrast with current operational products of burned area, which are generally available one month after the fire, active fires are readily available, with potential application for early evaluation of approximate fire perimeters to support fire management decision making in near real time. While previous coarse-scale studies have focused on relating the number of active fires to a burned area, some local-scale studies have proposed the spatial aggregation of active fires to directly obtain early estimate perimeters from active fires. Nevertheless, further analysis of this latter technique, including the definition of aggregation distance and large-scale testing, is still required. There is a need for studies that evaluate the potential of active fire aggregation for rapid initial fire perimeter delineation, particularly taking advantage of the improved spatial resolution of the Visible Infrared Imaging Radiometer (VIIRS) 375 m, over large areas and long periods of study. The current study tested the use of convex hull algorithms for deriving coarse-scale perimeters from Moderate Resolution Imaging Spectroradiometer (MODIS) and Visible Infrared Imaging Radiometer Suite (VIIRS) active fire detections, compared against the mapped perimeter of the MODIS collection 6 (MCD64A1) burned area. We analyzed the effect of aggregation distance (750, 1000, 1125 and 1500 m) on the relationships of active fire perimeters with MCD64A1, for both individual fire perimeter prediction and total burned area estimation, for the period 2012–2108 in Mexico. The aggregation of active fire detections from MODIS and VIIRS demonstrated a potential to offer coarse-scale early estimates of the perimeters of large fires, which can be available to support fire monitoring and management in near real time. Total burned area predicted from aggregated active fires followed the same temporal behavior as the standard MCD64A1 burned area, with potential to also account for the role of smaller fires detected by the thermal anomalies. The proposed methodology, based on easily available algorithms of point aggregation, is susceptible to be utilized both for near real-time and historical fire perimeter evaluation elsewhere. Future studies might test active fires aggregation between regions or biomes with contrasting fuel characteristics and human activity patterns against medium resolution (e.g., Landsat and Sentinel) fire perimeters. Furthermore, coarse-scale active fire perimeters might be utilized to locate areas where such higher-resolution imagery can be downloaded to improve the evaluation of fire extent and impact.

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A global wildfire dataset for the analysis of fire regimes and fire behaviour

Artés

Oom

Rigo³

et al. 2019

Sci Data

142

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Global fire monitoring systems are crucial to study fire behaviour, fire regimes and their impact at the global scale. Although global fire products based on the use of Earth Observation satellites exist, most remote sensing products only partially cover the requirements for these analyses. These data do not provide information like fire size, fire spread speed, how fires may evolve and joint into single event, or the number of fire events for a given area. This high level of abstraction is very valuable; it makes it possible to characterize fires by types (either size, spread, behaviour, etc.). Here, we present and test a data mining work flow to create a global database of single fires that allows for the characterization of fire types and fire regimes worldwide. This work describes the data produced by a data mining process using MODIS burnt area product Collection 6 (MCD64A1). The entire product has been computed until the present and is available under the umbrella of the Global Wildfire Information System (GWIS).

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Non-supervised method for early forest fire detection and rapid mapping

Cited by 4 publications

References 13 publications

UAV Assisted Spatiotemporal Analysis and Management of Bushfires: A Case Study of the 2020 Victorian Bushfires

UAV Assisted Spatiotemporal Analysis and Management of Bushfires: A Case Study of the 2020 Victorian Bushfires

Near Real-Time Automated Early Mapping of the Perimeter of Large Forest Fires from the Aggregation of VIIRS and MODIS Active Fires in Mexico

A global wildfire dataset for the analysis of fire regimes and fire behaviour

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