InterIPPRS < Dydaktyka

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-- %USERSIG{BeataHejmanowska - 2020-04-29}%
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[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture1_1_TiFII_2012.pdf][Lecture1]] [[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture1_1_TiFII_2012.pdf][.pdf]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture2_1_TiFII_2012.ppt][Lecture2.ppt]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture3_1_TiFII_2012.pdf][Lecture3.pdf]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture4_1_TiFII_2012.pdf][Lecture4.pdf]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture5_1_TiFII_2012.pdf][Lecture5.pdf]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture6_1_TiFII_2012.pdf][Lecture6.pdf]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/test_image.rar][test_image.rar - ILWIS data for mmanual image classification]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/test_xls.rar][test_xls.rar - corresponding xls file]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture7_1_TiFII_2012.ppt][Lecture7.ppt]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Lecture8_1_TiFII_2012.pdf][Lecture8.pdf]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/materialy_foto_r_kolinearnosci_ENG.xls][collinearity equation xls]]

[[http://www.riegl.com/media-events/projects/terrestrial-scanning/][Riegl TLS]]

[[ftp://ftp.ecn.purdue.edu/bethel/tls.pdf][Introduction to Terrestrial Laser Scanning]]

[[%PUBURL%/Dydaktyka/RemoteSensingDocumentsforStudents/Details_concerning_exam_2013_01.tif][Details_concerning_exam_2013_01.tif]]

<b><i>__________________________________________________________________________</i></b>

*LABORATORIES*

<b>Laboratory1 - Introduction<br /></b>

<b>Laboratory2 -</b> <b>Landsat satellite image &ndash; initial analysis</b>

<b>Laboratory3 -</b> <b>Landsat satellite image &ndash; supervised classification</b>

<b>Laboratory4 -</b> <b>Landsat satellite image &ndash; quantitative analysis</b>

<b>Laboratory5 -</b> <b>Photomap creation</b>

<b>Laboratory6 -</b> <b>Orthophotomap creation</b> <b><br /></b>

<b>Laboratory7 -</b> <b>Airborne model orientation, 3D</b>

<b><i>__________________________________________________________________________________</i></b>

*EXAM &ndash; theoretical questions:*

1. Digital image &ndash; definition, DN, mininum metadata, formats<br />2. Histogram &ndash; definition, graphic presentation, statistics<br />3. Histogram stretching, linear, with saturation, color composition<br />4. Landsat system, resolution: spatial, radiometric, spectral and temporal<br />5. Bilans of the electromagnetic energy on the earth ( coefficients: reflection, scattering, transmition, absorbtion, emissivity)<br />6. Interaction of EM radiation in the atmosphere (atmospheric windows)<br />7. Spectral curve: definition, exapmples: water, vegetaion, soil<br />8. Automatic image classification: steps, argorithms (box, mindist, maxlike), accuracy assessment<br />9. Albedo calculation for Landsat images<br />10. Temperature calculation from Landsat image: Planck's, Wien's, Stefan-Boltzman's law, radiant and kinetic temperature

11. Georeferencing, sources of the errors on the image

<br /><b>EXAM &ndash; practical excercises</b><br />1. Image histogram, stretching, color composite<br />2. Supervised classification (also manually)<br />3. Accuracy analysis
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Topic revision: r1 - 2020-04-29 - BeataHejmanowska