Remote Sensing an Introduction

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Transcription:

Remote Sensing an Introduction Seminar: Space is the Place Referenten: Anica Huck & Michael Schlund

Remote Sensing means the observation of, or gathering information about, a target by a device separated from it by some distance. Cracknell & Hayes 1991 www.zeit.de/online/2007/39/bg-satelliten http://www.fe-lexikon.info/lexikon-s.htm

Remote Sensing A major characteristic of an image is the wavelength band it represents. Richards & Jia 1999 http://www.yale.edu/gsp/gis-files/remote_sensing_intro.pdf

Remote Sensing Spectral resolution Temporal resolution wavelength width of the different frequency bands recorded frequency of flyovers by the satellite or plane Spatial resolution Radiometric resolution size of a pixel that is recorded in a raster image number of different intensities of radiation the sensor is able to distinguish

Measurements of the spatial distribution of reflected solar radiation external energy source(passive) of the spatial distribution of the energy emitted by the earth itself of the relative return from the earth s surface of energy transmitted from the vihicle itself(active) Richards & Jia 1999

Interaction mechanism Significance of diffenrent ranges lies in the interaction mechanism between the electromagnetic radiation and the material being examed Richards & Jia 1999 http://www.ipn.uni-kiel.de/projekte/a7_2/landsat.htm

Interaction mechanism - Examples http://ivvgeo.uni-muenster.de/vorlesung/fe_script/2_2.html http://als.wikipedia.org/wiki/datei:land_ocean_ice_cloud_1024.jpg

Examples of use - Deforestation http://news.satimagingcorp.com/2009/10/satellite_image_technology_monitoring_global_warming_and_climate_change_.html

Examples of use - Deforestation -Ratios NDVI = (band 4 band 3)/ (band 4 + band 3) -Color space transformations

Examples of use Urban growth http://earthobservatory.nasa.gov/iotd/view.php?id=5693

Examples of use Urban growth -Segmentations Creating objects by: - shape - size - color - pattern - shadow - texture http://ivvgeo.uni-muenster.de/vorlesung/fe_script/3_7.html

RADAR Remote Sensing -RADAR = Radio Detection and Ranging -Often active system -Backscatter of Microwaves (1 cm to 1 m) (Löffler 1994:18)

RADAR Remote Sensing -Can penetrate the surface -Backscattering depends on: -Electrical properties (wetness) -Roughness -Microwaves are polarized (sending & receiving) (FREEMAN & DURDEN 1998:963)

(E-SAR from Görmin: HH-Polarization) (Google Earth 2009) RADAR Remote Sensing

Advantage / Disadvantage of RADAR RS -Adavantages -Active systems day & night -Can penetrate atmospheric troubles (like clouds) -Can penetrate the surface (depends on wetness soil moisture) -Can used for biomass measurements (e.g. Polarization) -multiple images can create height or elevation models (Interferometry) Fields of application: -Forest monitoring -Agriculture -Hydrology -Cryosphere -

Advantage / Disadvantage of RADAR RS -Disadavantages: -Speckle(-Noise) (Salt & Pepper-Effect in homogeneous regions) -Forshortening -Layover -Radarshadow Porblems in heterogeneous reliefs (http://southport.jpl.nasa.gov/cdrom/sirced03/cdrom/ DOCUMENT/HTML/TEACHERS/MODULE02/MOD2SECB.HTM)

Examples of use Forest monitoring (Santos et al. 2003:489) (Santos et al. 2003:491)

Examples of use Elevation Models -Famoust topography mission by radar interferometry is SRTM -Goal: 1st dataset of global land elevations -Interference by combining two data sets -Information about distance of two antennas + differences in reflected signal + flat earth accurate elevation (http://www2.jpl.nasa.gov/srtm/mission.htm) (http://www2.jpl.nasa.gov/srtm/images/bin/sc-irwin.gif)

Examples of use Elevation Models Applications & animations by NASA JPL http://www2.jpl.nasa.gov/srtm/multimed.htm (http://photojournal.jpl.nasa.gov/archive/pia06674.gif)

Literatur Cracknell, A. & L. Hayes (1991): Introduction to remote sensing. London: Taylor & Francis. Earth Observatory (2005): Urban Growth in Jakarta, Indonesia. <http://earthobservatory. nasa.gov/iotd/view.php?id=5693> (Stand: 2008) (Zugriff: 2009). Freeman, A. & S.L. Durden (1998): A Tree-Component Scattering Model for Polarimetric SAR Data. IEEE Trans. On Geoscience and Remote Sensing, 36, 3. Lexikon der Fernerkundung (2009): Satelliten. <http://www.fe-lexikon.info/lexikon-s.htm> (Stand: 2010) (Zugriff: 2009). Löffler, E. (1994): Geoegraphie und Fernerkundung. 2. Aufl. - Teubner Studienbücher Geographie. Stuttgart. Lude, A. (1999): Spektrale Auflösung (Landsat TM- Kanäle). <http://www.ipn.uni-kiel.de/ projekte/a7_2/landsat.htm> (Stand: 1999) (Zugriff: 2009). NASA JPL (o.j.): How Radar Imaging Works. <http://southport.jpl.nasa.gov/cdrom/sirced03/ cdrom/document/html/teachers/module02/mod2secb.htm> (Zugriff: 2009). NASA JPL (2005): Shuttle Radar Topography Mission. <http://www2.jpl.nasa.gov/ srtm/mission.htm> (Stand: 2005) (Zugriff: 2009).

Literatur Santos, J.R. dos, C. da Costa Freitas, L.S. Araujo, L.V. Dutra, J.C. Mura, F.F. Gama, L.S. Soler & S.J.S. Sant Anna (2003): Airborne P-Band SAR applied to the aboveground biomass studies in the Brazilian tropical forest. Remote Sensing of Environment, 83, 482-493. Satellite Imaging Corporation (2009): Satellite Images and Digital Elevation Models (DEMs) Help Monitoring Global Warming and Climate Change. <http://news.satimagingcorp.com/ 2009/10/satellite_image_technology_monitoring_global_warming_and_climate_change > (Stand: 2009) (Zugriff: 2009). Universität Münster (2008): Digitale Fernerkundung in den Geowissenschaften. <http://ivvgeo.uni-muenster.de/vorlesung/fe_script/2_2.html> (Stand: 2009) (Zugriff: 2009). Visible Earth (2005): Land surface, ocean color, sea ice and clouds. <http://http://visibleearth.nasa.gov/view_rec.php?vev1id=11622> (Stand: 2009) (Zugriff: 2009). Yale University Genocide Studies Projects, Remote Sensing & GIS Research (2007): An Introduction to Remote Sensing and GIS. <http://www.yale.edu/gsp/gis-files/ remote_sensing_intro.pdf> (Stand: 2009) (Zugriff: 2009). Zeit Online (2009): Ein Himmel voller Zukunft. <www.zeit.de/online/2007/39/bg-satelliten> (Stand: 2010) (Zugriff: 2009).