Climate change is increasing the number and the magnitude of wildfires, which become every year more severe. An accurate delineation of burned areas, which is often done through time consuming and inaccurate manual approaches, is of paramount importance to estimate the economic impact of such events. In this paper we introduce Burned Area Estimation through satellite tiles (BAE), an unsupervised algorithm that couples image processing techniques and an unsupervised neural network to automatically delineate the burned areas of wildfires from satellite imagery. We show its capabilities by performing an evaluation over past wildfires across European and non-European countries
The frequency and severity of large, destructive fires have increased in the recent past, with exten...
Due to the natural conditions and inappropriate management responses, large part of plains and fores...
A brief review of studies dealing with burnt area mapping using coarse spatial resolution satellite ...
The ability to correctly identify areas damaged by forest wildfires is essential to plan and monitor...
In the case of ongoing wildfire events, timely information on current fire parameters is crucial for...
Over the last few years, natural disasters elevated dangerously in terms of immensity and prevalence...
Satellite remote sensing, with its unique synoptic coverage capabilities, can provide accurate and i...
Accurate burned area information is needed to assess the impacts of wildfires on people, communities...
Wildfires have major ecological, social and economic consequences. Information about the extent of b...
Wildfire damage assessments are important information for first responders, govern- ment agencies, a...
Satellite data play a major role in supporting knowledge about fire severity by delivering rapid inf...
Climate change will bring many changes to the world. For example, the frequency and severity of natu...
The paper proposes a fully automatic algorithm approach to map burned areas from remote sensing char...
Climate change will bring many changes to the world. For example, the frequency and severity of natu...
Abstract This article presents a new method for burned area mapping using high-resolu...
The frequency and severity of large, destructive fires have increased in the recent past, with exten...
Due to the natural conditions and inappropriate management responses, large part of plains and fores...
A brief review of studies dealing with burnt area mapping using coarse spatial resolution satellite ...
The ability to correctly identify areas damaged by forest wildfires is essential to plan and monitor...
In the case of ongoing wildfire events, timely information on current fire parameters is crucial for...
Over the last few years, natural disasters elevated dangerously in terms of immensity and prevalence...
Satellite remote sensing, with its unique synoptic coverage capabilities, can provide accurate and i...
Accurate burned area information is needed to assess the impacts of wildfires on people, communities...
Wildfires have major ecological, social and economic consequences. Information about the extent of b...
Wildfire damage assessments are important information for first responders, govern- ment agencies, a...
Satellite data play a major role in supporting knowledge about fire severity by delivering rapid inf...
Climate change will bring many changes to the world. For example, the frequency and severity of natu...
The paper proposes a fully automatic algorithm approach to map burned areas from remote sensing char...
Climate change will bring many changes to the world. For example, the frequency and severity of natu...
Abstract This article presents a new method for burned area mapping using high-resolu...
The frequency and severity of large, destructive fires have increased in the recent past, with exten...
Due to the natural conditions and inappropriate management responses, large part of plains and fores...
A brief review of studies dealing with burnt area mapping using coarse spatial resolution satellite ...