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Sensors
Used in Forest Fires Detection
[AVHRR]
[ATSR] [MODIS]
[Landsat] [GEOS]
[TRMM]
There
are many sensors and platforms used in forest fires detection. Some of
these are:
AVHRR
Located on NOAA Polar Orbiting Environmental Satellites, AVHRR (Very High
Resolution Radiometer) measures electromagnetic radiation reflected and
emitted from Earth's objects. It was originally intended only as a
meteorological satellite system but it does have applications for fire
monitoring. AVHRR remotely senses cloud cover and sea surface temperature,
enabling its visible and infrared detectors to observe trends in
vegetation, clouds, shorelines, lakes, snow and ice. For fire monitoring,
AVHRR visible bands can detect smoke plumes and burnt area. The thermal
infrared band can detect hotspots, active fires. Its ability to detect
fires is greater at night, since the system can confuse active fires with
heated ground surfaces, such as beach and asphalt.
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AVHRR
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Band
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Range
(mm)
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1
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0.5
– 0.68
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2
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0.752
– 1.1
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3
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3.55
– 3.93
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4
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10.3
– 11.3
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5
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11.5
– 12.5
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ATSR
Along-Track Scanning Radiometer is launched on board the European Remote
Sensing (ERS). It carries four bands, one visible at 1.6 mm and three
thermal bands at 3.7mm, 11mm, and 12mm. Similar to AVHRR, ATSR-2 images
the earth's objects from space with a spatial resolution up to 1km.
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ATSR
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Band
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Range
(mm)
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1
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0.5
– 0.68
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2
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0.752
– 1.1
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3
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3.55
– 3.93
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4
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10.3
– 11.3
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5
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11.5
– 12.5
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MODIS
The MODIS (Moderate Resolution Imaging Spectroradiometer) instrument,
which was launched on the Terra platform December 18th, 1999, is the first
sensing system with fire monitoring in its design. The MODIS has thirty
six different wavelengths of the spectrum, ranging from visible to thermal
infrared light, moderate spatial resolution, and near daily global
coverage to observe and monitor the surface of the Earth. Advantages:
This instrument provides a new and improved capability over existing
sensors in terms of fire monitoring. The MODIS is able to detect large
fires anywhere on the surface of the world. The total field of view of the
MODIS is plus to minus 55 degrees, providing a viewing swath width of
2,330 km and views the entire surface of the Earth every one to two days.
Its detectors measure 36 carefully chosen spectral bands between 0.405 and
14.385 µm, and it acquires data at three spatial resolutions -- 250m,
500m, and 1,000m.
The MODIS can detect at resolution four times greater than AVHRR 1km
versus 4 km. It can see burn scars at even higher resolution, 250m. With
help of several spectral channels, the instrument is able to see the smoke
more clearly. Additionally, satellite, Terra itself provides extra
advantage. It orbits over area in the morning. Since, typically there is
less cloud in the morning; MODIS gets more shots than AVHRR
Landsat
The series of Earth-observing satellites monitor changes and
characteristics on the Earth's surface at high spatial resolution (up to
15m per pixel). The first Landsat satellites housed the Multispectral
Scanner (MSS) which was only capable of detecting burnt areas. Current
Landsat series satellites use the Thematic Mapper ™ and Enhanced
Thematic Mapper Plus (ETM+) to provide land surface information. The seven
bands monitor different types of Earth resources over a wide area (91
North and 81 South latitude). As in most of the fire monitoring
satellites, the thermal band enables the system to detect active fires.
Landsat can provide high-resolution images. But it only visits the same
spot after 14, because of this, its coverage is infrequent.
GEOS
Geostationary Operational Environmental Satellites have five bands, one
visible and four infrared. They are stationed in orbits that remain fixed
over one spot above the earth, providing continuous coverage. GOES acquire
images every 15-30, at up to 1km resolution in visible light, for the
detection of some, and 4km resolution in thermal infrared to directly
detect the heat of fires.
TRMM
Tropical Rainfall Measuring Mission carries a high-resolution sensor
similar to AVHRR, called the Visible and Infrared Scanner (VIRS). VIRS is
capable of spotting active fires as well as burn scars. It has five bands
from visible to infrared (.63-12mm) that provide 2km resolution. As its
name implies, TRMM is primary to measure rainfall over the area covered
from 30 degrees South to 30 degrees North, on land and ocean. In addition
to its very advanced ability of monitoring clouds and precipitation, it
can detect and predicate lighting. Since lighting is the major cause in
forest fires around the world, TRMM can identify areas that may be
particularly susceptible to wildfire outbreaks.
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