EC2049 RADAR AND NAVIGATIONAL AIDS SYLLABUS | ANNA UNIVERSITY BE ECE 8TH SEMESTER SYLLABUS REGULATION 2008 2011 2012-2013 BELOW IS THE ANNA UNIVERSITY 8TH SEMESTER B.E ELECTRONICS AND COMMUNICATION ENGINEERING DEPARTMENT SYLLABUS, TEXTBOOKS, REFERENCE BOOKS,EXAM PORTIONS,QUESTION BANK,PREVIOUS YEAR QUESTION PAPERS,MODEL QUESTION PAPERS, CLASS NOTES, IMPORTANT 2 MARKS, 8 MARKS, 16 MARKS TOPICS. IT IS APPLICABLE FOR ALL STUDENTS ADMITTED IN THE YEAR 2011 2012-2013 (ANNA UNIVERSITY CHENNAI,TRICHY,MADURAI, TIRUNELVELI,COIMBATORE), 2008 REGULATION OF ANNA UNIVERSITY CHENNAI AND STUDENTS ADMITTED IN ANNA UNIVERSITY CHENNAI DURING 2009
EC2049 RADAR AND NAVIGATIONAL AIDS L T P C
3 0 0 3
AIM
To make the student understand the principles of Radar and its use in military and
civilian environment
Also to make the student familiar with navigational aids available for navigation of
aircrafts and ships.
113
OBJECTIVES
To derive and discuss the Range equation and the nature of detection.
To apply Doppler principle to radars and hence detect moving targets, cluster, also to
understand tracking radars
To refresh principles of antennas and propagation as related to radars, also study of
transmitters and receivers.
To understand principles of navigation, in addition to approach and landing aids as
related to navigation
To understand navigation of ships from shore to shore.
UNIT I INTRODUCTION TO RADAR 9
Basic Radar –The simple form of the Radar Equation- Radar Block Diagram- Radar
Frequencies –Applications of Radar – The Origins of Radar
THE RADAR EQUATION
Introduction- Detection of Signals in Noise- Receiver Noise and the Signal-to-Noise
Ratio-Probability Density Functions- Probabilities of Detection and False Alarm-
Integration of Radar Pulses- Radar Cross Section of Targets- Radar cross Section
Fluctuations- Transmitter Power-Pulse Repetition Frequency- Antenna Parameters-
System losses – Other Radar Equation Considerations
UNIT II MTI AND PULSE DOPPLER RADAR 9
Introduction to Doppler and MTI Radar- Delay –Line Cancelers- Staggered Pulse
Repetition Frequencies –Doppler Filter Banks - Digital MTI Processing - Moving Target
Detector - Limitations to MTI Performance - MTI from a Moving Platform (AMIT) - Pulse
Doppler Radar – Other Doppler Radar Topics- Tracking with Radar –Monopulse
Tracking –Conical Scan and Sequential Lobing - Limitations to Tracking Accuracy -
Low-Angle Tracking - Tracking in Range - Other Tracking Radar Topics -Comparison of
Trackers - Automatic Tracking with Surveillance Radars (ADT).
UNIT III DETECTION OF SIGNALS IN NOISE 9
Introduction – Matched –Filter Receiver –Detection Criteria – Detectors –-Automatic
Detector - Integrators - Constant-False-Alarm Rate Receivers - The Radar operator -
Signal Management - Propagation Radar Waves - Atmospheric Refraction -Standard
propagation - Nonstandard Propagation - The Radar Antenna - Reflector Antennas -
Electronically Steered Phased Array Antennas - Phase Shifters - Frequency-Scan
Arrays
Radar Transmitters- Introduction –Linear Beam Power Tubes - Solid State RF Power
Sources - Magnetron - Crossed Field Amplifiers - Other RF Power Sources - Other
aspects of Radar Transmitter.
Radar Receivers - The Radar Receiver - Receiver noise Figure - Superheterodyne
Receiver - Duplexers and Receiver Protectors- Radar Displays.
UNIT IV 9
Introduction Introduction - Four methods of Navigation .
Radio Direction Finding - The Loop Antenna - Loop Input Circuits - An Aural Null
Direction Finder - The Goniometer - Errors in Direction Finding - Adcock Direction
Finders - Direction Finding at Very High Frequencies - Automatic Direction Finders - The
Commutated Aerial Direction Finder - Range and Accuracy of Direction Finders
114
Radio Ranges - The LF/MF Four course Radio Range - VHF Omni Directional
Range(VOR) - VOR Receiving Equipment - Range and Accuracy of VOR - Recent
Developments.
Hyperbolic Systems of Navigation (Loran and Decca) - Loran-A - Loran-A Equipment
- Range and precision of Standard Loran - Loran-C - The Decca Navigation System -
Decca Receivers - Range and Accuracy of Decca - The Omega System
UNIT V DME AND TACAN 9
Distance Measuring Equipment - Operation of DME - TACAN - TACAN Equipment
Aids to Approach and Landing - Instrument Landing System - Ground Controlled
Approach System - Microwave Landing System(MLS)
Doppler Navigation - The Doppler Effect - Beam Configurations -Doppler Frequency
Equations - Track Stabilization - Doppler Spectrum - Components of the Doppler
Navigation System - Doppler range Equation - Accuracy of Doppler Navigation Systems.
Inertial Navigation - Principles of Operation - Navigation Over the Earth - Components
of an Inertial Navigation System - Earth Coordinate Mechanization - Strapped-Down
Systems - Accuracy of Inertial Navigation Systems.
Satellite Navigation System - The Transit System - Navstar Global Positioning System
(GPS)
TOTAL : 45 PERIODS
TEXTBOOKS
1. Merrill I. Skolnik ," Introduction to Radar Systems", Tata McGraw-Hill (3rd Edition)
2003.
2. N.S.Nagaraja, Elements of Electronic Navigation Systems, 2nd Edition, TMH, 2000.
REFERENCES
1. Peyton Z. Peebles:, "Radar Principles", Johnwiley, 2004
2. J.C Toomay, " Principles of Radar", 2nd Edition –PHI, 2004
EC2049 RADAR AND NAVIGATIONAL AIDS L T P C
3 0 0 3
AIM
To make the student understand the principles of Radar and its use in military and
civilian environment
Also to make the student familiar with navigational aids available for navigation of
aircrafts and ships.
113
OBJECTIVES
To derive and discuss the Range equation and the nature of detection.
To apply Doppler principle to radars and hence detect moving targets, cluster, also to
understand tracking radars
To refresh principles of antennas and propagation as related to radars, also study of
transmitters and receivers.
To understand principles of navigation, in addition to approach and landing aids as
related to navigation
To understand navigation of ships from shore to shore.
UNIT I INTRODUCTION TO RADAR 9
Basic Radar –The simple form of the Radar Equation- Radar Block Diagram- Radar
Frequencies –Applications of Radar – The Origins of Radar
THE RADAR EQUATION
Introduction- Detection of Signals in Noise- Receiver Noise and the Signal-to-Noise
Ratio-Probability Density Functions- Probabilities of Detection and False Alarm-
Integration of Radar Pulses- Radar Cross Section of Targets- Radar cross Section
Fluctuations- Transmitter Power-Pulse Repetition Frequency- Antenna Parameters-
System losses – Other Radar Equation Considerations
UNIT II MTI AND PULSE DOPPLER RADAR 9
Introduction to Doppler and MTI Radar- Delay –Line Cancelers- Staggered Pulse
Repetition Frequencies –Doppler Filter Banks - Digital MTI Processing - Moving Target
Detector - Limitations to MTI Performance - MTI from a Moving Platform (AMIT) - Pulse
Doppler Radar – Other Doppler Radar Topics- Tracking with Radar –Monopulse
Tracking –Conical Scan and Sequential Lobing - Limitations to Tracking Accuracy -
Low-Angle Tracking - Tracking in Range - Other Tracking Radar Topics -Comparison of
Trackers - Automatic Tracking with Surveillance Radars (ADT).
UNIT III DETECTION OF SIGNALS IN NOISE 9
Introduction – Matched –Filter Receiver –Detection Criteria – Detectors –-Automatic
Detector - Integrators - Constant-False-Alarm Rate Receivers - The Radar operator -
Signal Management - Propagation Radar Waves - Atmospheric Refraction -Standard
propagation - Nonstandard Propagation - The Radar Antenna - Reflector Antennas -
Electronically Steered Phased Array Antennas - Phase Shifters - Frequency-Scan
Arrays
Radar Transmitters- Introduction –Linear Beam Power Tubes - Solid State RF Power
Sources - Magnetron - Crossed Field Amplifiers - Other RF Power Sources - Other
aspects of Radar Transmitter.
Radar Receivers - The Radar Receiver - Receiver noise Figure - Superheterodyne
Receiver - Duplexers and Receiver Protectors- Radar Displays.
UNIT IV 9
Introduction Introduction - Four methods of Navigation .
Radio Direction Finding - The Loop Antenna - Loop Input Circuits - An Aural Null
Direction Finder - The Goniometer - Errors in Direction Finding - Adcock Direction
Finders - Direction Finding at Very High Frequencies - Automatic Direction Finders - The
Commutated Aerial Direction Finder - Range and Accuracy of Direction Finders
114
Radio Ranges - The LF/MF Four course Radio Range - VHF Omni Directional
Range(VOR) - VOR Receiving Equipment - Range and Accuracy of VOR - Recent
Developments.
Hyperbolic Systems of Navigation (Loran and Decca) - Loran-A - Loran-A Equipment
- Range and precision of Standard Loran - Loran-C - The Decca Navigation System -
Decca Receivers - Range and Accuracy of Decca - The Omega System
UNIT V DME AND TACAN 9
Distance Measuring Equipment - Operation of DME - TACAN - TACAN Equipment
Aids to Approach and Landing - Instrument Landing System - Ground Controlled
Approach System - Microwave Landing System(MLS)
Doppler Navigation - The Doppler Effect - Beam Configurations -Doppler Frequency
Equations - Track Stabilization - Doppler Spectrum - Components of the Doppler
Navigation System - Doppler range Equation - Accuracy of Doppler Navigation Systems.
Inertial Navigation - Principles of Operation - Navigation Over the Earth - Components
of an Inertial Navigation System - Earth Coordinate Mechanization - Strapped-Down
Systems - Accuracy of Inertial Navigation Systems.
Satellite Navigation System - The Transit System - Navstar Global Positioning System
(GPS)
TOTAL : 45 PERIODS
TEXTBOOKS
1. Merrill I. Skolnik ," Introduction to Radar Systems", Tata McGraw-Hill (3rd Edition)
2003.
2. N.S.Nagaraja, Elements of Electronic Navigation Systems, 2nd Edition, TMH, 2000.
REFERENCES
1. Peyton Z. Peebles:, "Radar Principles", Johnwiley, 2004
2. J.C Toomay, " Principles of Radar", 2nd Edition –PHI, 2004
No comments:
Post a Comment
Any doubt ??? Just throw it Here...