Posts
PRINCIPLE OF REMOTE SENSING
A) ELECTROMAGNETIC RADIATION
Ø The Energy is either come from the natural source sun or from various
artificial sources. It is known as electromagnetic Radiation as this energy
consists not only an Electrical field but also a magnetic field.
a) Electrical Field (E):
This field is generated
perpendicular to the direction of radiation traveling.
b) Magnetic Field (M): It is exactly oriented at right angles toward the electrical field.
Ø
Electromagnetic energy
can be described in terms of its velocity, frequency and wavelength.
Ø
Energy waves travel
similar to the speed of light, c, which is approximately equal to 3×10^8 m/s.
Ø
Wavelength λ of the wave
is the distance from any point on one wave to a similar position on the next
wave which means between two successive peaks.
Ø
The wavelengths most of
used in remote sensing are very short. It is normally expressed in micrometers
(μm). 1 μm is equal to 1×10-6 m.
Ø
Frequency f is the no of waves passing a fixed
point per unit of time. It is generally expressed in Hertz (Hz). This implies
that wavelength (λ) and frequency (Hz) are inversely related where c is a
constant. The important fact is that always longer wavelengths have smaller
frequencies compared to shorter wavelengths.
Ø The Electromagnetic energy interacts with the earth’s surface and various
features like bared soil, buildings, grass, vegetation, water bodies, and forests
etc.
Ø The Response from the ground earth's surface to incoming energy is the reflection,
and the all energy emitted by all objects as a function of temperature &
structure is the emittance.
B) ELEMENTS OF REMOTE SENSING
1)
Source of Illumination/ Energy: The important
requirement for any remote sensing process is to have an energy of source which
illuminates and provides electromagnetic radiation to the target of interest on
the earth surface.
2)
Radiation and the Atmosphere: Energy is reached at any
point in the atmosphere as it passes through. This type of interaction may take
place 2nd time as the whole energy travels from the target on the ground
and again back to the sensor. Atmosphere modifies the wavelength & Spectral
distribution of energy to some extent level.
3)
Interaction of Energy with the Target: Once the energy in
the form of radiation makes its path to the target level through the
atmosphere, it strikes the target depending on the characteristics and
features of both the target (object) & the radiation. Whenever energy
received by the object interacts here it is either transmission, absorption,
scattering, emitted or reflected from the target.
4) Recording of Energy by Sensor: Moving further the
energy has been scattered or emitted from the target, the sensor is required to
collect, receive and record the electromagnetic radiation (EMR). Return Signal
is adjusted to a sensor that actually responds to various types of
wavelengths.
5) Transmission, Reception, and Processing: The energy which was
recorded by the active or passive sensor has to be transmitted, often in the
form of electronic, to a receiving and processing ground station where the
actual data are processed into a satellite image could be available in the
hardcopy as well as in the digital format.
6) Interpretation and Analysis: The processed
satellite image is interpreted visually, digitally, or else electronically,
to extract all kinds of information and data regarding the target or earth
object which was illuminated.
7) Users and application: The final purpose of remote sensing technology is
achieved when the useful important information is extracted in the desired form. Afterward, any scientist or assistant could resolve a particular
problem.
