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Remote sensing imagery

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Remote sensing imagery

Record Type:	Electronic resources : Monograph/item
Title/Author:	Remote sensing imagery/ edited by Florence Tupin, Jordi Inglada, Jean-Marie Nicolas
Published:	London :ISTE ; : 2014.,
Description:	1 online resource (xiv, 351 p.)
[NT 15003449]:	Cover; Title Page; Contents; Preface; PART 1. SYSTEMS, SENSORS AND ACQUISITIONS; Chapter 1. Systems and Constraints; 1.1. Satellite systems; 1.2. Kepler's and Newton's laws; 1.3. The quasi-circular orbits of remote sensing satellites; 1.3.1. The orbit in the terrestrial referential: the recurrence cycle; 1.3.2. The effects of the Earth's flattening: the precession of the orbits; 1.3.3. Heliosynchronous orbits; 1.3.4. Tracking the orbits; 1.3.5. Usual orbits for remote sensing satellite; 1.4. Image acquisition and sensors; 1.4.1. Perspective ray in optical imagery for a vertical viewing
[NT 15003449]:	1.4.2. Perspective ray in radar imaging1.4.3. Resolution and footprint; 1.4.4. The swath in satellite imagery; 1.4.5. Images and motion; 1.5. Spectral resolution; 1.5.1. Introduction; 1.5.2. Technological constraints; 1.5.3. Calibration and corrections; 1.5.4. Image transmission; Chapter 2. Image Geometry and Registration; 2.1. The digital image and its sampling; 2.1.1. Swath sampling; 2.1.2. The pixels in optical imagery and in radar imagery; 2.2. Sensor agility and incidence angle; 2.2.1. Agility of optical sensors; 2.2.2. Agility of radar sensors
[NT 15003449]:	2.2.3. The effects of the incidence variation on the ground cell size2.2.4. The consequences of agility; 2.3. Georeferencing of remote sensing images; 2.3.1. From an image to an orthoimage; 2.3.2. The metaparameters of VHR optical images; 2.3.3. The levels of the images; 2.3.4. SAR image specificities; 2.4. Image registration; 2.4.1. The need for image registration; 2.4.2. Modeling the problem; 2.5. Conclusion; Chapter 3. The Physics of Optical Remote Sensing; 3.1. Radiometry; 3.1.1. Radiant energy, spectral energy, spectral sensitivity and equivalent energy; 3.1.2. The flux
[NT 15003449]:	3.1.3. The irradiance3.1.4. The radiance; 3.1.5. Temperature and emissivity; 3.1.6. Reflectance and albedo; 3.1.7. Example of the use of photometric quantities; 3.2. Geometric etendue, sensitivity of an instrument; 3.2.1. Axis sensor; 3.2.2. Scanners; 3.2.3. Pushbrooms; 3.3. Atmospheric effects; 3.3.1. Absorption; 3.3.2. Scattering; 3.3.3. Radiative transfer in the atmosphere; 3.3.4. Magnitude orders of the atmospheric effects; 3.4. Spectral properties of the surfaces; 3.5. Directional properties of the surfaces
[NT 15003449]:	3.6. Practical aspects: products, atmospheric corrections, directional corrections3.6.1. Absorption correction; 3.6.2. Scattering correction; 3.6.3. Examples of atmospheric correction results; Chapter 4. The Physics of Radar Measurement; 4.1. Propagation and polarization of electromagnetic waves; 4.1.1. Propagation of electromagnetic waves; 4.1.2. Polarization of the electromagnetic waves; 4.1.3. Partially polarized waves; 4.1.4. The group of Pauli matrices and the Stokes parameters; 4.2. Radar signatures; 4.2.1. RCS of a point target; 4.2.2. Radar signature for extended targets -- the backscatter coefficient.
Subject:	Geographical perception. -
Online resource:	http://onlinelibrary.wiley.com/book/10.1002/9781118899106
ISBN:	9781118899106 (electronic bk.)

Remote sensing imagery
Remote sensing imagery[electronic resource] /edited by Florence Tupin, Jordi Inglada, Jean-Marie Nicolas - London :ISTE ;2014. - 1 online resource (xiv, 351 p.) - ISTE.

Cover; Title Page; Contents; Preface; PART 1. SYSTEMS, SENSORS AND ACQUISITIONS; Chapter 1. Systems and Constraints; 1.1. Satellite systems; 1.2. Kepler's and Newton's laws; 1.3. The quasi-circular orbits of remote sensing satellites; 1.3.1. The orbit in the terrestrial referential: the recurrence cycle; 1.3.2. The effects of the Earth's flattening: the precession of the orbits; 1.3.3. Heliosynchronous orbits; 1.3.4. Tracking the orbits; 1.3.5. Usual orbits for remote sensing satellite; 1.4. Image acquisition and sensors; 1.4.1. Perspective ray in optical imagery for a vertical viewing

ISBN: 9781118899106 (electronic bk.)Subjects--Topical Terms:

525552
Geographical perception.

LC Class. No.: G70.4

Dewey Class. No.: 621.36/78

Remote sensing imagery
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020 $a 9781118899106 (electronic bk.)
020 $a 1118899105 (electronic bk.)
020 $a 9781118898963 (electronic bk.)
020 $a 1118898966 (electronic bk.)
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035 $a (OCoLC)874322080
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040 $a EBLCP $b eng $c EBLCP $d IDEBK $d CUS $d DG1
050 4 $a G70.4
082 0 4 $a 621.36/78
245 0 0 $a Remote sensing imagery $h [electronic resource] / $c edited by Florence Tupin, Jordi Inglada, Jean-Marie Nicolas
260 $a London : $b ISTE ; $a Hoboken, NJ : $b Wiley, $c 2014.
300 $a 1 online resource (xiv, 351 p.)
490 1 $a ISTE
505 0 $a Cover; Title Page; Contents; Preface; PART 1. SYSTEMS, SENSORS AND ACQUISITIONS; Chapter 1. Systems and Constraints; 1.1. Satellite systems; 1.2. Kepler's and Newton's laws; 1.3. The quasi-circular orbits of remote sensing satellites; 1.3.1. The orbit in the terrestrial referential: the recurrence cycle; 1.3.2. The effects of the Earth's flattening: the precession of the orbits; 1.3.3. Heliosynchronous orbits; 1.3.4. Tracking the orbits; 1.3.5. Usual orbits for remote sensing satellite; 1.4. Image acquisition and sensors; 1.4.1. Perspective ray in optical imagery for a vertical viewing
505 8 $a 1.4.2. Perspective ray in radar imaging1.4.3. Resolution and footprint; 1.4.4. The swath in satellite imagery; 1.4.5. Images and motion; 1.5. Spectral resolution; 1.5.1. Introduction; 1.5.2. Technological constraints; 1.5.3. Calibration and corrections; 1.5.4. Image transmission; Chapter 2. Image Geometry and Registration; 2.1. The digital image and its sampling; 2.1.1. Swath sampling; 2.1.2. The pixels in optical imagery and in radar imagery; 2.2. Sensor agility and incidence angle; 2.2.1. Agility of optical sensors; 2.2.2. Agility of radar sensors
505 8 $a 2.2.3. The effects of the incidence variation on the ground cell size2.2.4. The consequences of agility; 2.3. Georeferencing of remote sensing images; 2.3.1. From an image to an orthoimage; 2.3.2. The metaparameters of VHR optical images; 2.3.3. The levels of the images; 2.3.4. SAR image specificities; 2.4. Image registration; 2.4.1. The need for image registration; 2.4.2. Modeling the problem; 2.5. Conclusion; Chapter 3. The Physics of Optical Remote Sensing; 3.1. Radiometry; 3.1.1. Radiant energy, spectral energy, spectral sensitivity and equivalent energy; 3.1.2. The flux
505 8 $a 3.1.3. The irradiance3.1.4. The radiance; 3.1.5. Temperature and emissivity; 3.1.6. Reflectance and albedo; 3.1.7. Example of the use of photometric quantities; 3.2. Geometric etendue, sensitivity of an instrument; 3.2.1. Axis sensor; 3.2.2. Scanners; 3.2.3. Pushbrooms; 3.3. Atmospheric effects; 3.3.1. Absorption; 3.3.2. Scattering; 3.3.3. Radiative transfer in the atmosphere; 3.3.4. Magnitude orders of the atmospheric effects; 3.4. Spectral properties of the surfaces; 3.5. Directional properties of the surfaces
505 8 $a 3.6. Practical aspects: products, atmospheric corrections, directional corrections3.6.1. Absorption correction; 3.6.2. Scattering correction; 3.6.3. Examples of atmospheric correction results; Chapter 4. The Physics of Radar Measurement; 4.1. Propagation and polarization of electromagnetic waves; 4.1.1. Propagation of electromagnetic waves; 4.1.2. Polarization of the electromagnetic waves; 4.1.3. Partially polarized waves; 4.1.4. The group of Pauli matrices and the Stokes parameters; 4.2. Radar signatures; 4.2.1. RCS of a point target; 4.2.2. Radar signature for extended targets -- the backscatter coefficient.
588 $a Description based on print version record.
650 0 $a Geographical perception. $3 525552
650 0 $a Geomorphology. $3 542703
650 0 $a Physical geology. $3 535214
650 0 $a Remote sensing. $3 535394
856 4 0 $u http://onlinelibrary.wiley.com/book/10.1002/9781118899106