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Fundamentals of remote
sensingBy
Ashok Peddi
Satellite image
Remote sensing is the science of acquiring information about the
Earth's surface without actually being in contact with it. This is done
by sensing and recording reflected or emitted energy and processing,
analysing, and applying that information.
Remote Sensing can be done by two different ways
1)Satellites –satellite Images 2)Aircrafts-Arial Photographs
Aerial photography
Aerial photography Satellite image
Examples
To analyze(Visual Interpretation) the satellite imagery we use different combination of bands where it will produce two variety of(composite) images1)True Color Composite(RGB)2)False Color Composite other( than RGB)
False Color True color
QuickbirdPAN – 61 cm
IKONOSMSS/XS – 4 mBagdad, Iraque
What is a satellite image?Satellite imagery consists of photographs of Earth or other planets made by means of artificial satellites which also gives an opportunity to process the image and conclude with analysis depending on your requirement.
Blue Green Red
Urban area
Urban area
River
3500 m
The different Bands
Vegetation
Description of a Satellite Image
Landsat TM 30 mSPOT XS 10 mNOAA/AVHRR 1100 mIKONOS 4 m
70
23
10
120
40
The value retained in each pixel is designated by digital number and it translates the solar energy reflected by the earth surface (covered by the pixel).
Spatial resolution
Radiometric Resolution
Blue Green Red
Urban area
Urban area
River
3500 m
Green
RedBlue
Near Infrared Middle Infrared Middle Infrared
TM 1 TM 2 TM 3
TM 4 TM 5 TM 7
7 4 3
4 3 2
Spectral Resolution
Components of a remote sensing system
A – Energy source of illumination
B – Interaction with the atmosphere
C – Interaction with the target
F – Transmissions, reception and processing
E – Recording of energy by the sensor
G – Interpretation and analysis
v = frequency(number of cycles per secondpassing a fixed point)
Wavelength is measured in meters (m) or some factor of meters such as
nanometres (nm, 10-9 m), micrometers (μm, 10-6 m) or centimeters (cm, 10-2
m). Frequency is normally measured in hertz (Hz), equivalent to one cycle per
second, and various multiples of hertz.
Quantity of radiant energy is expressed in energy units.
Quality of radiant energy is characterised by frequency (u) or wavelength (l).
c = l u
c - velocity of light (3x108m/s)
Wavelength and frequency are inversely related to each other:
• the shorter the wavelength, the higher the frequency;• the longer the wavelength, the lower the frequency.
Electromagnetic spectrum
*The energy in remote sensing is in the form of
electromagnetic radiation.Electro magnetic
Radiation is a particular form of energy emitted
and absorbed by charged particles
The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation.* The "electromagnetic spectrum" of an object has a different meaning, and is instead the characteristic distribution of electromagnetic radiation emitted or absorbed by that particular object.
The visible portion of the spectrum is a very small part of the whole spectrum:•blue - 0.4 a 0.5 mm•green - 0.5 a 0.6 mm•red - 0.6 a 0.7 mm.1 mm = 10-6 m The wavelengths smaller than 0.4 mm entails:• gamma rays• x rays• ultraviolet radiation
The part of the electromagnetic spectrum with wavelengths larger than 0.7 mm entails:• infrared (0.7-10 mm),• microwaves (1mm-1m)• radio waves.
Infrared goes from 0.7 mm to 10 mm and can be divided in three areas:• Near infrared (0.7-1.0 mm),• medium infrared (1.3-3.0 mm)• thermal infrared (> 3 mm).
Interaction of electromagnetic radiation with atmosphere
The atmosphere has a strong effect on the quantity and quality of the electromagnetic radiation captured by the satellite.
The atmosphere effect varies with:• radiation path (airplane, satellite)• wavelength• atmospheric conditions (particles, gases, …)• ...
Before radiation used for remote sensing reaches the Earth's surface it has to travel through some distance of the Earth's atmosphere.
Particles and gases in the atmosphere can affect the incoming light and radiation. These effects are caused by the mechanisms of:
• scattering• absorption.
What is the effect of atmosphere in the satellite images?
• Atmosphere reduces contrast• Atmosphere may blur the images• Atmospheres may reduce the quantity of radiation
I hope that was useful @ashokped
Thank you!
