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RADAR Engineering / RADAR Systems / RADAR Navigational Aids
Rating: 4.7 out of 5(114 ratings)
772 students

RADAR Engineering / RADAR Systems / RADAR Navigational Aids

Fundamentals of CW, FMCW, MTI, PDR, Tracking Systems, RADAR Receiver, RADAR Phased Arrays and Navigational Aids of RADAR
Last updated 2/2026
English

What you'll learn

  • Fundamentals of RADAR
  • Types of RADAR Systems
  • Radar Range Calibration
  • CW and FMCW Radar systems
  • MTI (Moving Target Indicator)
  • PDR (Pulsed Doppler RADAR)
  • RCS (Radar Cross Section)
  • RADAR Tracking
  • RADAR Receiver
  • RADAR Clutter
  • Phased Array RADAR
  • Navigational Aids of RADAR

Course content

9 sections70 lectures11h 44m total length
  • Course Introduction1:52
  • Course Trailer2:16
  • How to access the course materials0:12

Requirements

  • No Prior knowledge is needed. You will learn step by step from basic.

Description

This RADAR Engineering/RADAR Systems course is specially designed for Engineers, Professionals, Researchers, and Enthusiasts who want to explore the field of Radar Technology. This is a unique course in the online marketplace.

Prof. Hitesh Dholakiya is an Antenna/RF/Radar Design Engineer with over 15 years of experience in RF (Radio Frequency), antennas, and microwaves. With a passion for teaching and a wealth of industry knowledge, Prof. Hitesh Dholakiya is dedicated to helping students achieve their academic and professional goals in the RADAR Engineering/RADAR Systems domain.

RADAR Engineering/RADAR Systems is an advanced course designed to provide students with a comprehensive understanding of radar systems, their principles, applications, and design considerations. Radar, an acronym for Radio Detection and Ranging, is an indispensable technology in various fields including aviation, defense, meteorology, and remote sensing. This RADAR Engineering/RADAR Systems course delves into the theoretical foundations and contemporary advancements in radar engineering.

This course on RADAR Engineering/RADAR Systems drives you from basic to advance level concepts which enables you to understand complex RADAR systems in the future.


This RADAR Engineering/RADAR Systems course covers the following chapters.

1. RADAR Introduction

2. CW & FMCW RADAR

3. MTI and PDR

4. Tracking RADAR

5. RADAR Receiver

6. Navigational Aids

7. Phased Array RADAR


Topic wise Detailed Syllabus of RADAR Engineering/RADAR Systems is as follows:

1. RADAR Introduction:

RADAR Introduction, Types of RADAR Systems, RADAR Range Equation, RADAR Range based on Noise Figure, Factors Affecting RADAR Range, Examples of RADAR Range, RADAR Range Measurement, RADAR Waveforms and Maximum Unambiguous Range, Pulsed RADAR System, Latter Band Designations and RADAR Applications, Integration of RADAR Pulses, RADAR Cross Section of Target, RADAR System Losses, Pulse Repetition Frequency of RADAR, Prediction of Range Performance of RADAR System, RADAR Receiver Noise.

2. CW & FMCW RADAR:

Doppler Effect, CW RADAR or Doppler RADAR, Isolation between Transmitter and Receiver in RADAR System, CW RADAR with Non-Zero IF Receiver, Bandwidth of CW RADAR, Doppler Filter Bank, Comparison of CW RADAR and Pulsed RADAR, Examples of CW RADAR, Range and Doppler Measurement of RADAR, FMCW RADAR, FMCW Altimeter, Unwanted Signals in FMCW Altimeter, Measurement Errors in FMCW RADAR, Multiple Frequency CW RADAR.

3. MTI and PDR:

Pulsed Doppler RADAR, MTI RADAR, Non-Coherent MTI RADAR, Limitations & Performance Parameters of MTI RADAR, Butterfly Effect in RADAR, Delay Line Canceller in MTI RADAR, Filter Characteristics of Delay Line Canceller in MTI RADAR, Blind Speeds of MTI RADAR, Double Delay Line Canceller in MTI RADAR, Staggered Pulse Repetition Frequencies in MTI RADAR, Range Gated Doppler Filters in Pulsed Doppler RADAR, Comparison of MTI RADAR and Pulsed Doppler RADAR.

4. Tracking RADAR:

Tracking RADAR, Sequential Lobbing in Tracking RADAR, Conical Scan Tracking RADAR, Amplitude Comparison of Mono Pulse Tracking RADAR, Phase Comparison of Mono Pulse Tracking RADAR, Tracking in Range, Acquisition and Scanning Patterns.

5. RADAR Receiver:

Matched Filter in RADAR Receiver, Super Heterodyne Receiver in RADAR System, RADAR Clutters.

6. Navigational Aids:

RADAR Displays, Automatic Direction Finder - ADF, VHF Omni-Directional Range - VOR, Distance Measuring Equipment - DME, Decca Navigational System, Instrument Landing System - ILS, Global Positioning System - GPS, Synthetic Aperture RADAR.

7. Phased Array RADAR:

Phased Antenna Array RADAR System, Beam Steering in Phased Antenna Array RADAR System, Beam Angle and Beam Width of Phased Antenna Array RADAR System.


Each video is produced in English. Anyone with a general education should be able to follow.

In this course, on RADAR Engineering/RADAR Systems I have used high-quality images of RADAR Systems to help you understand the topic in a better way.

Enroll now and take the first step toward mastering RADAR Engineering/RADAR Systems! Join Our Community of students who have transformed their careers with our expert-led course on RADAR Engineering/RADAR Systems

See you in the RADAR Engineering/RADAR Systems course! You're going to love it!

Thank You...

Who this course is for:

  • Engineering students specializing in electrical, electronic, or communication engineering
  • Professionals working in radar-related industries such as defense, aerospace, and telecommunications
  • Researchers and scientists interested in advancing their knowledge of radar technology
  • Individuals seeking to transition into radar engineering or related fields
  • Anyone with a keen interest in understanding the principles and applications of radar systems