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PID Control with Arduino

Learn to implement the widely used industrial controller on the Arduino platform! (For students, makers, and engineers)
4.5
4.5/5
(1,381 reviews)
13,302 students
Created by

8.6

CourseMarks Score®

7.9

Freshness

8.6

Feedback

8.8

Content

Platform: Udemy
Video: 31m
Language: English
Next start: On Demand

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Detailed Analysis

CourseMarks Score®

8.6 / 10

CourseMarks Score® helps students to find the best classes. We aggregate 18 factors, including freshness, student feedback and content diversity.

Freshness Score

7.9 / 10
This course was last updated on 10/2019.

Course content can become outdated quite quickly. After analysing 71,530 courses, we found that the highest rated courses are updated every year. If a course has not been updated for more than 2 years, you should carefully evaluate the course before enrolling.

Student Feedback

8.6 / 10
We analyzed factors such as the rating (4.5/5) and the ratio between the number of reviews and the number of students, which is a great signal of student commitment.

New courses are hard to evaluate because there are no or just a few student ratings, but Student Feedback Score helps you find great courses even with fewer reviews.

Content Score

8.8 / 10
Video Score: 7.6 / 10
The course includes 31m video content. Courses with more videos usually have a higher average rating. We have found that the sweet spot is 16 hours of video, which is long enough to teach a topic comprehensively, but not overwhelming. Courses over 16 hours of video gets the maximum score.
The average video length is 4 hours 14 minutes of 178 Arduino courses on Udemy.
Detail Score: 9.2 / 10

The top online course contains a detailed description of the course, what you will learn and also a detailed description about the instructor.

Extra Content Score: 9.5 / 10

Tests, exercises, articles and other resources help students to better understand and deepen their understanding of the topic.

This course contains:

0 article.
3 resources.
0 exercise.
0 tests or quizzes.

Table of contents

Description

Learn the basics behind how a proportional-integral-derivative (PID) controller works and how to implement one on the Arduino hardware!
A PID controller is the most common feedback controller used in the industry, but they can also be used for hobbyist electronic projects such as quad-copters, self-balancing robots, temperature controllers, and much more! In this course, we will not be going into the classical control theory behind PID controllers, instead we will approach the controller intuitively so that it’s role and implementation is practically understood. 
The lecture series contains 7 lectures covering: 
•Feedback Systems, P, PI, and PID Controllers•Arduino Implementation and Live Demonstration (Propeller Arm Example)•Heuristic PID Tuning A template for the Arduino code will also be provided and explained in the series. In order to demonstrate the controller in real-time, a propeller arm example has been constructed. The live demonstration will be used to explain the behavior of the PID controller and how to tune one heuristically. 
This course is suitable for any student, engineer, hobbyist, or maker who always wished to understand PID control in a easy intuitive manner; although a basic understand of electronics, C coding, and calculus is preferred. Having knowledge of feedback control prior to taking this course is also a plus!
After taking this course, you will not only understand PID control better, but you’ll become a lot more comfortable with designing projects that involve feedback control.

You will learn

✓ Students will gain an intuitive insight into how a PID controller works and how to implement it on the Arduino Platform!
✓ Use the PID algorithm for their Arduino or microcontroller-based projects such as quad-copters, self balancing robots, temperature control, motor speed control, and much more!

Requirements

• Having a basic understanding of electronics + C coding and exposure to the Arduino platform.
• Having a good foundation in math/physics and some exposure to calculus.
• Preferred: Intuitive understanding of feedback control and stability.

This course is for

• Any engineer, student, or hobbyist who wishes to learn how to implement a PID controller in hardware (Arduino/Microcontrollers).
• Anyone designing projects that involve feedback control (quad-copters, self-balancing robots, temperature control, etc).

How much does the PID Control with Arduino course cost? Is it worth it?

The course costs $15.99. And currently there is a 20% discount on the original price of the course, which was $19.99. So you save $4 if you enroll the course now.
The average price is $13.0 of 178 Arduino courses on Udemy.

Does the PID Control with Arduino course have a money back guarantee or refund policy?

YES, PID Control with Arduino has a 30-day money back guarantee. The 30-day refund policy is designed to allow students to study without risk.

Are there any SCHOLARSHIPS for this course?

Currently we could not find a scholarship for the PID Control with Arduino course, but there is a $4 discount from the original price ($19.99). So the current price is just $15.99.

Who is the instructor? Is Nabil Mohammad a SCAM or a TRUSTED instructor?

Nabil Mohammad has created 2 courses that got 1,445 reviews which are generally positive. Nabil Mohammad has taught 13,433 students and received a 4.5 average review out of 1,445 reviews. Depending on the information available, Nabil Mohammad is a TRUSTED instructor.
Engineer and Electronics Hobbyist
My name is Nabil, I’m an engineer by day and hobbyist by night. I was born in New York, USA but raised in New Jersey my whole life. I hold a BSc and MSc in Electrical Engineering from Rutgers University and currently work as a full-time engineer. 

Like many engineering students, I had a hard time understanding the theory and concepts intuitively, but once I was able to make some practical sense of it all, I wanted to share my knowledge with others (students, engineers, makers, DIY’ers). 

My courses will mostly be design-based, in areas of: analog design, audio amps, control systems, power supply design and much more!

When I am not working or tinkering, you can find me playing the electric guitar, hitting the gym, or cooking.

8.6

CourseMarks Score®

7.9

Freshness

8.6

Feedback

8.8

Content

Platform: Udemy
Video: 31m
Language: English
Next start: On Demand

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