RADAR Engineering / RADAR Systems / RADAR Navigational Aids from Udemy

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 & 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 &

3. MTI and PDR:

Pulsed Doppler

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 -

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...

What's inside

Syllabus

RADAR Engineering Introduction

Course Introduction

Course Trailer

How to access the course materials

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Read about what's good

what should give you pause

and possible dealbreakers

Covers phased array radar systems, which are essential for modern radar applications like weather forecasting, air traffic control, and military surveillance

Explores the radar range equation and factors affecting radar range, which are fundamental concepts for understanding radar system performance and limitations

Includes a section on navigational aids such as VOR, DME, DECCA, Instrument Landing System, GPS, and SAR, which are relevant for professionals in aviation and maritime industries

Features a question bank with answers, which can be helpful for interview preparation and solidifying understanding of the subject matter

Requires a general education, which may exclude learners without a high school diploma or equivalent

Reviews summary

In-depth technical overview of radar

According to learners, this course provides a comprehensive exploration of RADAR systems, covering a wide array of theoretical concepts from basic principles to advanced topics like phased arrays and navigational aids. Many students find the instructor's deep knowledge and extensive industry experience evident throughout the lectures, contributing to a solid foundational understanding. However, some prospective students should be aware that the content is highly theoretical and assumes a certain level of prerequisite knowledge, making it potentially challenging for absolute beginners or those seeking significant hands-on application. The course is seen as particularly beneficial for engineers and researchers looking to deepen their theoretical grasp of the subject.

Good resource for reinforcing learning.

"The question banks provided were surprisingly helpful for testing my understanding after each major section."

"Used the questions for interview preparation, and found them quite relevant to the topics covered."

"A nice addition that helps consolidate the learning from the lectures."

Provides good base for complex systems.

"It truly helps in building a solid foundation for understanding complex RADAR systems mentioned later in the course."

"As advertised, it does move from basic to advanced concepts in a structured way, laying a good groundwork."

"I feel much more confident in tackling more specialized RADAR topics after completing this course."

"Provides the necessary theoretical backbone for further study or professional work in RADAR."

Instructor's experience is evident.

"The instructor clearly knows his stuff. His explanations, though sometimes dense, come from a place of deep understanding."

"You can tell the professor has real-world experience; he brings a level of authority to the complex topics."

"The expertise of the instructor made even the more challenging material feel manageable."

"His passion for the subject comes through, which is always a plus."

Covers a wide array of RADAR concepts.

"The course covers an impressive breadth of topics, starting from the basics and moving into more complex systems like phased arrays. It's really comprehensive."

"I was looking for a course that went beyond the surface, and this syllabus delivered. Every major area of RADAR seems to be touched upon."

"The different types of RADAR, receivers, tracking methods - it's all here. A very thorough theoretical overview."

"I appreciated the inclusion of navigational aids and the phased array section; these felt like valuable additions."

Strong theory, limited hands-on practice.

"The course is heavily theoretical. I was hoping for some simulation or practical exercises, but it's mostly lectures."

"Good for understanding the 'why' behind RADAR, but not so much the 'how' to design or implement."

"Lacks practical labs or case studies. It's great for foundational knowledge but not direct application skills."

"Wish there were assignments that involved problem-solving or simulation rather than just theoretical understanding checks."

Content is advanced, may challenge beginners.

"While it says 'basic to advance', a strong engineering or physics background is definitely needed. It's not really entry-level."

"Some parts moved very quickly, assuming prior knowledge I didn't fully possess. Had to do external research."

"If you are an enthusiast with limited technical background, this course might be difficult to follow without significant effort."

"The mathematical and theoretical depth can be overwhelming if you don't have the right prerequisites."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in RADAR Engineering / RADAR Systems / RADAR Navigational Aids with these activities:

Review Basic Physics Concepts

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Review fundamental physics concepts to build a solid foundation for understanding RADAR principles.

Browse courses on Electromagnetism

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Review notes on electromagnetism and wave propagation.
Solve practice problems related to wave behavior.
Watch introductory videos on signal processing.

Review Introduction to Radar Systems

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Read a comprehensive textbook on radar systems to gain a deeper understanding of the subject matter.

View Radar Handbook, Third Edition on Amazon

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Read chapters on radar principles and applications.
Work through example problems in the book.
Take notes on key concepts and formulas.

Practice RADAR Range Equation Calculations

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Reinforce understanding of the RADAR range equation through repetitive calculations with varying parameters.

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Find practice problems online or in textbooks.
Calculate the RADAR range for different scenarios.
Compare your results with provided solutions.

Four other activities

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Create a RADAR System Glossary

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Solidify your understanding of RADAR terminology by creating a glossary of key terms and definitions.

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Identify key terms from course materials.
Write clear and concise definitions for each term.
Organize the glossary alphabetically.

Simulate a Basic RADAR System

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Apply your knowledge by simulating a basic RADAR system using software like MATLAB or Python.

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Choose a simulation platform (e.g., MATLAB, Python).
Implement the RADAR range equation and signal processing.
Visualize the RADAR signal and target detection.

Explore Radar Handbook

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Consult a comprehensive radar handbook to delve deeper into specific topics and design considerations.

View Radar Handbook, Third Edition on Amazon

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Identify specific areas of interest in the handbook.
Read relevant chapters and sections.
Take notes on key design principles and techniques.

Prepare a Presentation on Navigational Aids

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Deepen your understanding of navigational aids by creating a presentation summarizing their principles and applications.

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Research different types of navigational aids (e.g., GPS, VOR).
Create slides with clear explanations and diagrams.
Practice your presentation to ensure clarity and conciseness.

Career center

Learners who complete RADAR Engineering / RADAR Systems / RADAR Navigational Aids will develop knowledge and skills that may be useful to these careers:

Radar Design Engineer

A Radar Design Engineer innovates and creates radar systems for diverse applications, including defense, aviation, and meteorology. This RADAR Engineering/RADAR Systems course provides a comprehensive understanding of radar principles, design considerations, and contemporary advancements. The course's exploration of radar range equations, waveforms, and system losses directly applies to optimizing radar system performance, a key responsibility for Radar Design Engineers. The coverage of phased array radar is particularly beneficial, since this knowledge helps Radar Design Engineers design advanced beam steering capabilities. Anyone wanting to become a Radar Design Engineer should enroll in this course.

See salaries and explore the career path for Radar Design Engineer

Avionics Engineer

An Avionics Engineer specializes in the design, development, and testing of electronic systems used in aircraft, including radar systems. This RADAR Engineering/RADAR Systems course provides a strong foundation in radar technology, which is essential for avionics applications. The course covers topics such as radar range equations, pulse repetition frequency, and tracking radar systems, which are directly relevant to the design and maintenance of airborne radar systems. Understanding navigational aids, as covered in the course, helps Avionics Engineers to integrate radar data with other aircraft systems. If you are interested in becoming an Avionics Engineer, it is highly recommended that you take this course.

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Aerospace Engineer

An Aerospace Engineer designs and tests aircraft and spacecraft, often working with radar systems for navigation, surveillance, and weather monitoring. This RADAR Engineering/RADAR Systems course provides a comprehensive overview of radar technology, from basic principles to advanced applications. The course's coverage of radar range equations, signal processing techniques, and phased array radar systems provides valuable insights for Aerospace Engineers working on radar-related projects. Understanding different types of radar systems, like MTI radar, is an asset for those in this role. This course is indispensable for anyone desiring to pursue Aerospace Engineering.

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Remote Sensing Scientist

A Remote Sensing Scientist uses radar and other technologies to collect and analyze data about the Earth's surface from a distance. This RADAR Engineering/RADAR Systems course provides a strong foundation in radar principles and applications, which is essential for interpreting radar data. The course content, including radar cross-section, clutter, and synthetic aperture radar (SAR), helps Remote Sensing Scientists extract meaningful information from radar imagery. The course's exploration of radar system losses and noise helps with data correction and calibration. If you see yourself as a Remote Sensing Scientist, this course is one that will serve you well.

See salaries and explore the career path for Remote Sensing Scientist

Defense Systems Analyst

A Defense Systems Analyst evaluates and develops defense technologies, including radar systems used for surveillance, tracking, and missile defense. This RADAR Engineering/RADAR Systems course provides a comprehensive understanding of radar technology, which is crucial for analyzing and improving defense systems. The course's coverage of tracking radar, phased array radar, and electronic warfare techniques provides valuable insights for Defense Systems Analysts. Information on radar range and pulse repetition frequency helps in assessing system performance and limitations. This course is highly beneficial for aspiring Defense Systems Analysts.

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Electrical Engineer

An Electrical Engineer designs, develops, and tests electrical equipment and systems, including radar systems. This RADAR Engineering/RADAR Systems course provides a solid understanding of the principles and applications of radar technology. The course's coverage of radar components, signal processing techniques, and system design considerations helps Electrical Engineers working on radar-related projects. Understanding radar receiver design and noise figure, as covered in the course, is particularly useful. This course may be helpful to anyone looking to become an Electrical Engineer.

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RF Engineer

An RF Engineer -- RF stands for radio frequency -- specializes in the design and development of radio frequency systems, including radar transceivers, antennas, and signal processing circuits. This RADAR Engineering/RADAR Systems course provides a deep dive into radar technology, covering topics such as radar range equations, modulation techniques, and receiver design. The course's exploration of antenna arrays and beam steering helps RF Engineers design advanced radar systems with improved performance. Anyone interested in becoming an RF Engineer might consider taking this course.

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Meteorological Technician

A Meteorological Technician assists meteorologists by operating and maintaining weather observation systems, including weather radar. This RADAR Engineering/RADAR Systems course provides valuable insights into the principles and operation of radar systems used in weather forecasting. The course's coverage of Doppler radar, radar clutter, and signal processing techniques helps Meteorological Technicians interpret radar data and troubleshoot system issues. This course could be useful for those who strive to be Meteorological Technicians.

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Navigation System Developer

A Navigation System Developer designs and implements navigation systems for various applications, including aviation, maritime, and automotive. This RADAR Engineering/RADAR Systems course explores navigational aids, such as automatic direction finders and instrument landing systems, which are essential components of modern navigation systems. The course's coverage of radar displays and data integration helps developers create user-friendly and effective navigation interfaces. The course may be useful to those aspiring to be Navigation System Developers.

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Signal Processing Engineer

A Signal Processing Engineer develops algorithms and systems for processing signals from various sources, including radar. This RADAR Engineering/RADAR Systems course provides a solid foundation in radar signal processing techniques, such as pulse compression, Doppler processing, and clutter rejection. The course's coverage of matched filters and radar receiver design provides valuable insights for Signal Processing Engineers working on radar-related projects. The course may be helpful for aspiring Signal Processing Engineers.

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Software Engineer

A Software Engineer develops and maintains software applications, and might work on the software components of radar systems. This RADAR Engineering/RADAR Systems course may give Software Engineers a peek into how radar systems operate, especially with respect to data processing and display. A Software Engineer may consider this course to better understand system requirements and data formats, which can positively impact efficiency and output. An understanding of navigational aids, as covered in the course, may also be relevant. The course may be useful for Software Engineers.

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Quality Assurance Engineer

A Quality Assurance Engineer ensures that products and systems meet established quality standards, and may be involved in testing and evaluating radar systems. This RADAR Engineering/RADAR Systems course may help Quality Assurance Engineers by deepening the awareness about radar systems. This knowledge helps in the creation of effective test procedures and evaluation metrics. Specific topics, such as radar range equations and system losses, may be helpful in assessing system performance. The course may be useful to a Quality Assurance Engineer.

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Technical Sales Engineer

A Technical Sales Engineer sells technologically sophisticated products or services, and might specialize in radar systems. This RADAR Engineering/RADAR Systems course delivers a thorough grounding in radar principals and their applications. This enhances a Technical Sales Engineer's ability to communicate the technical aspects of radar systems to potential clients. The course's explanation of different types of radar and their uses can be particularly helpful. The course may be useful to a Technical Sales Engineer.

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Technical Writer

A Technical Writer creates documentation for technical products, and might create the documentation accompanying a radar system. This RADAR Engineering/RADAR Systems course broadens understanding of radar technology, allowing documentation to be technical and accurate. Grasping radar range, waveforms, and system losses helps explain radar system functionality to end users. The course may be useful for a Technical Writer.

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Project Manager

A Project Manager plans, executes, and closes specific projects. This RADAR Engineering/RADAR Systems course broadens understanding of radar technology. It enables project managers to better manage all stages of a project, from conception through completion. The course may be useful to a Project Manager.

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RADAR Engineering / RADAR Systems / RADAR Navigational Aids

What's inside

Syllabus

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Reviews summary

In-depth technical overview of radar

Activities

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