Lecture 1 INTRODUCTION AND
BACKGROUND(Origin of
satellite Communications)
Description
Origin of satellite
Communications
Why and when satellite
communications has
started
Lecture 2 INTRODUCTION AND
BACKGROUND(Active and
Passive satellites)
INTRODUCTION AND
BACKGROUND(Different orbits
for different missions.)
INTRODUCTION AND
BACKGROUND(Advantages and
disadvantages of Satellite
communications.)
Description
Active and Passive
satellites
Classification on basis
of passive reflection or
active electronics
system
Different orbits for
different missions
How LEO, GEO can be
used for different
applications
Advantages and
disadvantages of Satellite
communications
benefits of using
satellite
communications
Lecture 3 INTRODUCTION AND
BACKGROUND(Frequency
Allocations for satellite services.)
ORBITAL MECHANICS
(Introduction)
Description
Frequency Allocations
for satellite services
Why and which
frequency band is used
for satellite
communications
Developing the
equations of orbit
Mathematical
description of orbits
Lecture 4 ORBITAL MECHANICS
(Introduction)
ORBITAL MECHANICS(Kepler's
three laws of planetary motion.)
Description
Developing the
equations of orbit
Mathematical
description of orbits
Keplers three laws ,
describing the orbit of a
satellite, locating
satellite in orbit, locating
the satellite wuth respect
to earth, orbital elements
How Keplers law can
be derived
Lecture 5 ORBITAL MECHANICS(Kepler's
three laws of planetary motion.)
Keplers three laws ,
describing the orbit of a
satellite, locating
satellite in orbit, locating
the satellite wuth respect
to earth, orbital elements
How Keplers law can
be derived
Lecture 6 ORBITAL MECHANICS(Kepler's
three laws of planetary motion.)
Keplers three laws ,
describing the orbit of a
satellite, locating
satellite in orbit, locating
the satellite wuth respect
to earth, orbital elements
How Keplers law can
be derived
Lecture 7 ORBITAL MECHANICS(Look
Angle Determination.)
Description
Look Angle
Determination
How subsatellite point,
elevation angle and
azimuthal angle can be
calculated
Lecture 8 ORBITAL MECHANICS(Orbital
Perturbations.)
Description
Longitudinal Changes,
Inclination Changes
How earths oblateness,
sun and moon effect the
earths orbit
Lecture 9 SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Satellite subsystems.)
Description
Introduction to satellite
communications
Overview of Various
subsystems
Lecture 10 SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Altitude and Orbit
Control System.)
Description
Altitude and Orbit
Control System
How the altitude of
orbit of the satellite can
be controlled
Lecture 11 SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Telemetry.)
SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Tracking.)
SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Monitoring.)
Description
Telemetry
Tracking
Monitoring
How to send the data
related to satellites
How to determine the
current orbit of the
satellite
Monitoring of the
satellites subsytems
temperature, pressure in
fuel tanks,
Lecture 12 SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Power systems.)
Description
Power systems
How the electrical
power is obtained
Lecture 13 SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Communications
subsystems.)
SATELLITE SUB SYSTEMS
AND SATELLITE EARTH
STATIONS.(Satellite antennas and
Satellite Earth Stations)
SATELLITE TRAJECTORIES
(Orbit effects in communication's
system performance.)
Description
Communications
subsystems
Satellite antennas
orbital effects
Description of
communications system
description of wire,
horn , reflector, and
array antennas
effects on orbits due to
sun, moon and earth
Lecture 14 SATELLITE TRAJECTORIES
(Launches and Launch vehicles.)
Description
Launches and Launch
vehicles
Learning about launch
vehicles
Lecture 15 SATELLITE TRAJECTORIES
(Placing satellites into
geostationary orbit.)
Description
Placing satellites into
geostationary orbit
How to place satellites
into geostationary orbit
Lecture 16 MODULATION USED IN
SATELLITE LINKS(Analog and
Digital Modulation for satellite
links.)
Description
Analog and Digital
Modulation for satellite
links
analog and digital
modulation used in
satellite
communications
Lecture 17 MODULATION USED IN
SATELLITE LINKS(Frequency
modulation.)
Description
Frequency modulation
analogmodulation used
in satellite
communications
Lecture 18 MODULATION USED IN
SATELLITE LINKS(BPSK
Modulation)
Description
BPSK Modulation
digital modulation used
in satellite
communications
Lecture 19 MODULATION USED IN
SATELLITE LINKS(QPSK
Modulation.)
Description
QPSK Modulation,
digital modulation
Lecture 20 MODULATION USED IN
SATELLITE LINKS(QAM
Modulation.)
Description
QAM Modulation
digital modulation used
in satellite
communications
Lecture 21 MODULATION USED IN
SATELLITE LINKS(TDM
standards for satellite systems.)
Description
TDMA frame structure
Different TDM
standards used
Lecture 22 MICROWAVE LINK BUDGET
(Introduction)
Description
Introduction
Student will learn about
carrier to noise ratio of
downlink satellite
system
Lecture 23 MICROWAVE LINK BUDGET
(General link design equation)
Description
General link design
equation
Student will learn about
basic transmission
theory
Lecture 24 MICROWAVE LINK BUDGET
(System noise temperature)
Description
System noise
temperature
Student will learn about
concepts of the system
noise temperaure
Lecture 25 MICROWAVE LINK BUDGET
(Downlink design.)
Description
Downlink design
Student will learn about
carrier to noise ratio of
downlink satellite
system
Lecture 26 MICROWAVE LINK BUDGET
(Uplink design.)
Description
Uplink design
Student will learn to
design the uplink
Lecture 27 MICROWAVE LINK BUDGET
(Complete link design.)
Description
Complete link design
Student will learn to
Considering other
factors like effect of
rain in designing link
Lecture 28 MULTIPLE ACCESS
TECHNIQUES IN SATELLITE
COMMUNICATIONS(FDM -FMFDMA
-TDMA structure)
Description
FDM FM FDMA TDMA
structure
Multiple access
techniques will be
learnt by student
Lecture 29 MULTIPLE ACCESS
TECHNIQUES IN SATELLITE
COMMUNICATIONS(Onboard
Processing systems.)
Description
Onboard Processing
systems
Student will learn about
the onboard processing
systems
Lecture 30 MULTIPLE ACCESS
TECHNIQUES IN SATELLITE
COMMUNICATIONS(DAMA.)
MULTIPLE ACCESS
TECHNIQUES IN SATELLITE
COMMUNICATIONS(CDMAsystem
design and capacity.)
Description
DAMA
Student will learn about
the demand assigned
multiple access
CDMAsystem design
and capacity
Student will learn about
Code Division
Multiple Acccess
Lecture 31 ERROR CONTROL(Error
Correction.)
ERROR CONTROL(Error
detection.)
ERROR CONTROL(Channel
Capacity)
Description
Student will learn about
the techniques to
correct the errors
Student will learn about
the techniques to detect
the errors
Student will learn about
the capacity of the
system
Lecture 32 ERROR CONTROL(Error Control
Coding)
ERROR CONTROL(Performance
of Block Error Correction Codes)
ERROR CONTROL
(Convolutional Codes)
Description
Error Control Coding
Students will learn
about the techniques to
control the errors
Performance of Block
Error Correction Codes
(students will learn
about the performance
of Block error
Correction Codes)
Convolutional Codes
(Students will learn
about the concepts of
channel coding)
Lecture 33 ERROR CONTROL
(Implementation of Error detection
on satellite links.)
ERROR CONTROL(Concatenated
coding)
Description
Implementation of Error
detection on satellite
links
Students will learn
about the concepts
detect the errors
Students will learn
about the concatenated
coding
Lecture 34 ERROR CONTROL(Interleaving)
ERROR CONTROL(Turbo
Codes.)
Description
Interleaving
Student will learn about
to control errors
Turbo Codes
Student will learn about
the concepts of
controlling errors
Lecture 35 SATELLITE APPLICATIONS
(Satellites for weather forecast.)
SATELLITE APPLICATIONS
(Introduction.)
Description
Satellites for weather
forecast
Student will learn about
the applications of
satellites
Introduction to satellite
applications
Student will learn about
the applications of
satellites
Lecture 36 SATELLITE APPLICATIONS
(Satellite Applications in
Television and Telephone)
SATELLITE APPLICATIONS
(Data Communication Services.)
SATELLITE APPLICATIONS
(Satellites for earth observation)
Description
Satellite Applications in
Television and
Telephone
Student will learn about
the applications of
satellites
Data Communication
Services
Student will learn about
the applications of
satellites
Satellites for earth
observation
Student will learn about
the applications of
satellites
Lecture 37 GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(The Technical
Structure)
GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(Frequencies
used by GPS Satellites)
GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(Types of GPS
Services)
GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(GPS Position
Location Layout)
Description
Student will learn about
the technical structure
of GPS system
Frequencies used by GPS
Satellites
Student will learn about
Frequencies used by
GPS Satellites
GPS Position Location
Layout
Lecture 38 GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(GPS Receiver)
GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(Trilateration
Method)
Description
Student will learn about
GPS receiver
Student will learn about
how to find the position
of satellite using Trilateration Method
Lecture 39 GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(Signal
Acquisition by GPS Receiver)
GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(Introduction to
VSAT systems)
GLOBAL POSITIONING
SATELLITE SYSTEMS AND
VSAT SYSTEMS.(Introduction to
VSAT architectures.)
Description
Signal Acquisition by
GPS Receiver
Introduction to VSAT
systems
Best Suggested text books for the satellite communication covering Whole syllabus-
1. Satellite Communications Timothy Pratt, Charles W.
Bostian, Jeremy E. Alnutt 2nd edition of year 2007 wiley publisher.
2. Satellite Communications D.C. Agarwal, A.K. Maini,
Ashok Raj 6th edition of year 2006 khanna publisher
3. Satellite Communication System
Engineering
W.L.Pritchard,H G
Suyderhoud and R A
Nelson. 2nd edition of year 1993 prentice hall
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