For over two decades, satellite sensors have provided the locations of global fire activity with ever-increasing accuracy. However, the ability to measure fire intensity, know as fire radiative power (FRP), and its potential relationships to meteorology and smoke plume injection heights, are currently limited by the pixel resolution. This dissertation describes the development of a new, sub-pixel-based FRP calculation (FRPf) for fire pixels detected by the MODerate Resolution Imaging Spectroradiometer (MODIS) fire detection algorithm (Collection 5), which is subsequently applied to several large wildfire events in North America. The methodology inherits an earlier bi-spectral algorithm for retrieving sub-pixel fire area and temperature, but...
The Fire Radiative Power product (FRP, in megawatts) provides information on the measured radiant he...
Characterising the dynamics of landscape-scale wildfires at very high temporal resolutions is best a...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
Developed as a quantitative measurement of fire intensity, fire radiative power (FRP) and the potent...
Developed as a quantitative measurement of fire intensity, fire radiative power (FRP) and the potent...
A major focus in global change research is to quantify the amount of gaseous and particulate polluta...
Methods for retrieving subpixel fire temperature and fire area have been developed over several year...
Remote sensing is the most practical means of measuring energy release from large open-air biomass b...
Characterising the dynamics of landscape-scale wildfires at very high temporal resolutions is best a...
Characterising the dynamics of landscape-scale wildfires at very high temporal resolutions is best a...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...
The Fire Radiative Power product (FRP, in megawatts) provides information on the measured radiant he...
Characterising the dynamics of landscape-scale wildfires at very high temporal resolutions is best a...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
For over two decades, satellite sensors have provided the locations of global fire activity with eve...
Developed as a quantitative measurement of fire intensity, fire radiative power (FRP) and the potent...
Developed as a quantitative measurement of fire intensity, fire radiative power (FRP) and the potent...
A major focus in global change research is to quantify the amount of gaseous and particulate polluta...
Methods for retrieving subpixel fire temperature and fire area have been developed over several year...
Remote sensing is the most practical means of measuring energy release from large open-air biomass b...
Characterising the dynamics of landscape-scale wildfires at very high temporal resolutions is best a...
Characterising the dynamics of landscape-scale wildfires at very high temporal resolutions is best a...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...
The Fire Radiative Power product (FRP, in megawatts) provides information on the measured radiant he...
Characterising the dynamics of landscape-scale wildfires at very high temporal resolutions is best a...
We develop a simulation model for prediction of forest canopy interception of upwelling fire radiate...