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Person: Saylor, Easter, Chapman
Year: 1999
Type: Document
Source: TTRS

In this report I present the data about the chemical composition of the aerosols produced by the forest fires in Siberia. © University of Idaho 2000. Abstract reproduced by permission.

Person: Neuenschwander, Ryan, Gollberg, Koutsenogii, Makarov, Kovalskaya, Smirnova, Smolyakov, Pavlyuk
Year: 2000
Type: Document
Source: TTRS

Current space-borne sensor systems can be used to generate products of fire susceptibility using time-series of vegetation state, the occurrence and rough location of active fires using middle and thermal infrared sensors and smoke and area burned...

Person: Neuenschwander, Ryan, Gollberg, Oertel, Zhukov, Briess, Lorenz, Skrbek, Tobehn, Ginati, Christmann
Year: 2000
Type: Document
Source: TTRS

The purpose of the fire phase of the Smoke Clouds and Radiation (SCAR) experiments is to develop a technique for the quantitative remote sensing of fires and fire emissions. The first of the three fire experiments occurred in 1994 in California and the...

Person: Neuenschwander, Ryan, Gollberg, Kaufman, Kleidman
Year: 2000
Type: Document
Source: TTRS

BLM/NIFC/RSFWSU will provide a sesion revealing some of the current and past remote sensing involvements within the wildfire area. State of the art electronic sensing methods and devices will be displayed. Several data telemetry options available will...

Person: Neuenschwander, Ryan, Gollberg, Watson
Year: 2000
Type: Document
Source: TTRS

The revision of FOFEM, a national fire effects model, is described. FOFEM 5.0 will incorporate the predictions of fuel consumption, tree mortality and smoke production along with the addition of soil heating and an updated user interface. The revised...

Person: Neuenschwander, Ryan, Gollberg, Reinhardt, Mincemoyer, Keane
Year: 2000
Type: Document
Source: TTRS

A comprehensive investigation of Canadian boreal forest fires was conducted using NOAA-AVHRR imagery. Algorithms were developed to (1) detect active forest fires, (2) map burned areas on daily and annual basis, and (3) estimate fire emissions based on...

Person: Neuenschwander, Ryan, Gollberg, Li, Jin, Fraser
Year: 2000
Type: Document
Source: TTRS

Emissions of atmospheric pollutants from vegetation fires can greatly affect local and regional air quality. The near real-time information on the magnitude of fires, the amount of pollutants emitted, and their impact on air quality is critical to fire...

Person: Neuenschwander, Ryan, Gollberg, Ward, Queen, Seielstad, Hao
Year: 2000
Type: Document
Source: TTRS

Fuels maps are a fundamental part of fire management activities such as prescribed fire planning, suppression strategies, smoke management, and fire effects. The constraints imposed by fiscal and human resources make it desirable to have a method that...

Person: Neuenschwander, Ryan, Gollberg, Ohlen, Despain, Burgan
Year: 2000
Type: Document
Source: TTRS

A method of composing vegetation fuel maps (VF maps) at medium scale is explained along with the purpose of such maps. A vegetation fuel VF map for the Lake Baikal basin has been created as an example of using this method. © University of Idaho 2000....

Person: Neuenschwander, Ryan, Gollberg, Volokitina, Stone, Schlesinger, Sofronov
Year: 2000
Type: Document
Source: TTRS