Add to ORKGIn this paper, we present an integrated near real-time forest disturbance monitoring system which utilizes temporally dense Landsat time series in combination with a continuous local expert based system in a tropical forest ecosystem in southern Ethiopia. Landsat time series were analyzed using the Break detection For Additive Season and Trend Monitor (BFAST Monitor) method and in situ local expert data was in turn facilitated by the use of mobile devices programmed to be able to classify land use changes. BFAST Monitor was found to be able to describe forest change dynamics using irregular Landsat time series data with frequent cloud and SLC-off gaps. Disturbance data collected by local experts enhanced the BFAST Monitor results by providi...
Landsat represents the world's longest continuously acquired collection of space-based moderate-reso...
Current methods for monitoring deforestation from satellite data at sub-annual scales require pixel ...
Accurate tropic deforestation monitoring using time series requires methods which can capture gradua...
In this paper, we present an integrated near real-time forest disturbance monitoring system which ut...
Remote sensing data play an important role in the monitoring of forest changes. Methods are needed t...
Tropical forests cover a significant portion of the earth's surface and provide a range of ecosystem...
Increasing awareness of the issue of deforestation and degradation in the tropics has resulted in ef...
Landsat time series Breaks For Additive Season and Trend (BFAST) breakpoint detection was identified...
Increasing attention on tropical deforestation and forest degradation has necessitated more detailed...
Monitoring large forest areas is presently feasible with satellite remote sensing as opposed to time...
Detecting forest disturbances is an important task for formulating mitigation strategies for defores...
Current research on forest change monitoring using medium spatial resolution Landsat satellite data ...
Current research on forest change monitoring using medium spatial resolution Landsat satellite data ...
Monitoring large forest areas is presently feasible with satellite remote sensing as opposed to time...
Landsat represents the world's longest continuously acquired collection of space-based moderate-reso...
Current methods for monitoring deforestation from satellite data at sub-annual scales require pixel ...
Accurate tropic deforestation monitoring using time series requires methods which can capture gradua...
In this paper, we present an integrated near real-time forest disturbance monitoring system which ut...
Remote sensing data play an important role in the monitoring of forest changes. Methods are needed t...
Tropical forests cover a significant portion of the earth's surface and provide a range of ecosystem...
Increasing awareness of the issue of deforestation and degradation in the tropics has resulted in ef...
Landsat time series Breaks For Additive Season and Trend (BFAST) breakpoint detection was identified...
Increasing attention on tropical deforestation and forest degradation has necessitated more detailed...
Monitoring large forest areas is presently feasible with satellite remote sensing as opposed to time...
Detecting forest disturbances is an important task for formulating mitigation strategies for defores...
Current research on forest change monitoring using medium spatial resolution Landsat satellite data ...
Current research on forest change monitoring using medium spatial resolution Landsat satellite data ...
Monitoring large forest areas is presently feasible with satellite remote sensing as opposed to time...
Landsat represents the world's longest continuously acquired collection of space-based moderate-reso...
Current methods for monitoring deforestation from satellite data at sub-annual scales require pixel ...
Accurate tropic deforestation monitoring using time series requires methods which can capture gradua...