VOOZH about

URL: https://www.coursera.org/learn/modernrobotics-course5

⇱ Modern Robotics, Course 5: Robot Manipulation and Wheeled Mobile Robots | Coursera

Modern Robotics, Course 5: Robot Manipulation and Wheeled Mobile Robots

Ends soon! Keep adding new skills with 10,000+ programs for $239 (usually $399). Save now.

Modern Robotics, Course 5: Robot Manipulation and Wheeled Mobile Robots

11,751 already enrolled

Included with

β€’

Learn more

Ask Coursera

Gain insight into a topic and learn the fundamentals.
4.7

104 reviews

Intermediate level
Some related experience required
4 weeks to complete
at 10 hours a week
Flexible schedule
Learn at your own pace
Gain insight into a topic and learn the fundamentals.
4.7

104 reviews

Intermediate level
Some related experience required
4 weeks to complete
at 10 hours a week
Flexible schedule
Learn at your own pace

Details to know

Shareable certificate

Add to your LinkedIn profile

Assessments

29 assignments

Taught in English

Build your subject-matter expertise

This course is part of the Modern Robotics: Mechanics, Planning, and Control Specialization
When you enroll in this course, you'll also be enrolled in this Specialization.
  • Learn new concepts from industry experts
  • Gain a foundational understanding of a subject or tool
  • Develop job-relevant skills with hands-on projects
  • Earn a shareable career certificate

There are 4 modules in this course

Do you want to know how robots work? Are you interested in robotics as a career? Are you willing to invest the effort to learn fundamental mathematical modeling techniques that are used in all subfields of robotics?

If so, then the "Modern Robotics: Mechanics, Planning, and Control" specialization may be for you. This specialization, consisting of six short courses, is serious preparation for serious students who hope to work in the field of robotics or to undertake advanced study. It is not a sampler. In Course 5 of the specialization, Robot Motion Planning and Wheeled Mobile Robots, we delve into advanced topics in robotics. Chapter 12, Grasping and Manipulation, of the "Modern Robotics" textbook covers the modeling of kinematics and forces between rigid bodies in contact, and applies the modeling to analysis and planning of robot grasping and other manipulation tasks. Chapter 13, Wheeled Mobile Robots, covers modeling, motion planning, and feedback control of omnidirectional and nonholonomic wheeled mobile robots, and concludes by addressing control of mobile manipulators consisting of a wheeled mobile base and a robot arm. This course follows the textbook "Modern Robotics: Mechanics, Planning, and Control" (Lynch and Park, Cambridge University Press 2017). You can purchase the book or use the free preprint pdf. You will build on a library of robotics software in the language of your choice (among Python, Mathematica, and MATLAB) and use the free cross-platform robot simulator V-REP, which allows you to work with state-of-the-art robots in the comfort of your own home and with zero financial investment.

Kinematics of contact, contact types (rolling, sliding, and breaking), graphical methods for representing kinematic constraints in the plane, and form-closure grasping (complete kinematic constraint).

What's included

7 videos3 readings8 assignments1 peer review1 discussion prompt

7 videosβ€’Total 33 minutes
  • Grasping and Manipulation (Chapter 12)β€’5 minutes
  • First-Order Analysis of a Single Contact (Chapter 12.1.1)β€’4 minutes
  • Contact Types: Rolling, Sliding, and Breaking (Chapter 12.1.2)β€’6 minutes
  • Multiple Contacts (Chapter 12.1.3)β€’5 minutes
  • Planar Graphical Methods (Chapter 12.1.6, Part 1 of 2)β€’4 minutes
  • Planar Graphical Methods (Chapter 12.1.6, Part 2 of 2)β€’5 minutes
  • Form Closure (Chapter 12.1.7)β€’4 minutes
3 readingsβ€’Total 135 minutes
  • Welcome to Course 5, Robot Manipulation and Wheeled Mobile Robotsβ€’10 minutes
  • How to Make This Course Successfulβ€’5 minutes
  • Chapter 12 through 12.1β€’120 minutes
8 assignmentsβ€’Total 270 minutes
  • Lecture Comprehension, Grasping and Manipulation (Chapter 12)β€’30 minutes
  • Lecture Comprehension, First-Order Analysis of a Single Contact (Chapter 12.1.1)β€’30 minutes
  • Lecture Comprehension, Contact Types: Rolling, Sliding, and Breaking (Chapter 12.1.2)β€’30 minutes
  • Lecture Comprehension, Multiple Contacts (Chapter 12.1.3)β€’30 minutes
  • Lecture Comprehension, Planar Graphical Methods (Chapter 12.1.6, Part 1 of 2)β€’30 minutes
  • Lecture Comprehension, Planar Graphical Methods (Chapter 12.1.6, Part 2 of 2)β€’30 minutes
  • Lecture Comprehension, Form Closure (Chapter 12.1.7)β€’30 minutes
  • Chapter 12 through 12.1, Grasping and Manipulationβ€’60 minutes
1 peer reviewβ€’Total 120 minutes
  • Evaluating Form Closureβ€’120 minutes
1 discussion promptβ€’Total 10 minutes
  • Centers of Rotation for a Forward-Only Carβ€’10 minutes

Coulomb friction, friction cones, graphical methods for representing forces and torques in the plane, force closure grasping, and examples of manipulation other than grasping.

What's included

6 videos1 reading7 assignments1 peer review1 discussion prompt

6 videosβ€’Total 26 minutes
  • Friction (Chapter 12.2.1)β€’6 minutes
  • Planar Graphical Methods (Chapter 12.2.2)β€’4 minutes
  • Force Closure (Chapter 12.2.3)β€’4 minutes
  • Duality of Force and Motion Freedoms (Chapter 12.2.4)β€’4 minutes
  • Manipulation and the Meter-Stick Trick (Chapter 12.3)β€’5 minutes
  • Transport of an Assembly (Chapter 12.3)β€’3 minutes
1 readingβ€’Total 90 minutes
  • Chapter 12.2 through 12.3β€’90 minutes
7 assignmentsβ€’Total 250 minutes
  • Lecture Comprehension, Friction (Chapter 12.2.1)β€’30 minutes
  • Lecture Comprehension, Planar Graphical Methods (Chapter 12.2.2)β€’30 minutes
  • Lecture Comprehension, Force Closure (Chapter 12.2.3)β€’30 minutes
  • Lecture Comprehension, Duality of Force and Motion Freedoms (Chapter 12.2.4)β€’30 minutes
  • Lecture Comprehension, Manipulation and the Meter-Stick Trick (Chapter 12.3)β€’30 minutes
  • Lecture Comprehension, Transport of an Assembly (Chapter 12.3)β€’30 minutes
  • Chapter 12.2 through 12.3, Grasping and Manipulationβ€’70 minutes
1 peer reviewβ€’Total 300 minutes
  • Determining the Stability of an Assemblyβ€’300 minutes
1 discussion promptβ€’Total 10 minutes
  • Planar Force Closure with Two Fingersβ€’10 minutes

Kinematic models of omnidirectional and nonholonomic wheeled mobile robots.

What's included

4 videos1 reading5 assignments1 discussion prompt

4 videosβ€’Total 16 minutes
  • Wheeled Mobile Robots (Chapter 13.1)β€’2 minutes
  • Omnidirectional Wheeled Mobile Robots (Chapter 13.2, Part 1 of 2)β€’6 minutes
  • Omnidirectional Wheeled Mobile Robots (Chapter 13.2, Part 2 of 2)β€’3 minutes
  • Modeling of Nonholonomic Wheeled Mobile Robots (Chapter 13.3.1)β€’5 minutes
1 readingβ€’Total 120 minutes
  • Chapter 13 through 13.3.1β€’120 minutes
5 assignmentsβ€’Total 195 minutes
  • Lecture Comprehension, Wheeled Mobile Robots (Chapter 13.1)β€’30 minutes
  • Lecture Comprehension, Omnidirectional Wheeled Mobile Robots (Chapter 13.2, Part 1 of 2)β€’30 minutes
  • Lecture Comprehension, Omnidirectional Wheeled Mobile Robots (Chapter 13.2, Part 2 of 2)β€’30 minutes
  • Lecture Comprehension, Modeling of Nonholonomic Wheeled Mobile Robots (Chapter 13.3.1)β€’30 minutes
  • Chapter 13 through 13.3.1, Wheeled Mobile Robotsβ€’75 minutes
1 discussion promptβ€’Total 10 minutes
  • Omnidirectional Wheeled Robots with Conventional Wheelsβ€’10 minutes

Controllability, motion planning, and feedback control of nonholonomic wheeled mobile robots; odometry for wheeled mobile robots; and mobile manipulation.

What's included

8 videos1 reading9 assignments1 discussion prompt

8 videosβ€’Total 43 minutes
  • Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 1 of 4)β€’4 minutes
  • Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 2 of 4)β€’6 minutes
  • Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 3 of 4)β€’6 minutes
  • Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 4 of 4)β€’5 minutes
  • Motion Planning for Nonholonomic Mobile Robots (Chapter 13.3.3)β€’5 minutes
  • Feedback Control for Nonholonomic Mobile Robots (Chapter 13.3.4)β€’6 minutes
  • Odometry (Chapter 13.4)β€’5 minutes
  • Mobile Manipulation (Chapter 13.5)β€’6 minutes
1 readingβ€’Total 150 minutes
  • Chapter 13.3.2 through 13.5β€’150 minutes
9 assignmentsβ€’Total 320 minutes
  • Lecture Comprehension, Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 1 of 4)β€’30 minutes
  • Lecture Comprehension, Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 2 of 4)β€’30 minutes
  • Lecture Comprehension, Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 3 of 4)β€’30 minutes
  • Lecture Comprehension, Controllability of Wheeled Mobile Robots (Chapter 13.3.2, Part 4 of 4)β€’30 minutes
  • Lecture Comprehension, Motion Planning for Nonholonomic Mobile Robots (Chapter 13.3.3)β€’30 minutes
  • Lecture Comprehension, Feedback Control for Nonholonomic Mobile Robots (Chapter 13.3.4)β€’30 minutes
  • Lecture Comprehension, Odometry (Chapter 13.4)β€’30 minutes
  • Lecture Comprehension, Mobile Manipulation (Chapter 13.5)β€’30 minutes
  • Chapter 13.3.2 through 13.5, Wheeled Mobile Robotsβ€’80 minutes
1 discussion promptβ€’Total 10 minutes
  • Controllability of the Forward-Only Carβ€’10 minutes

Earn a career certificate

Add this credential to your LinkedIn profile, resume, or CV. Share it on social media and in your performance review.

Instructor

Instructor ratings
5.0 (20 ratings)
Northwestern University
13 Coursesβ€’100,206 learners

Why people choose Coursera for their career

πŸ‘ Image

Felipe M.

Learner since 2018
"To be able to take courses at my own pace and rhythm has been an amazing experience. I can learn whenever it fits my schedule and mood."
πŸ‘ Image

Jennifer J.

Learner since 2020
"I directly applied the concepts and skills I learned from my courses to an exciting new project at work."
πŸ‘ Image

Larry W.

Learner since 2021
"When I need courses on topics that my university doesn't offer, Coursera is one of the best places to go."
πŸ‘ Image

Chaitanya A.

"Learning isn't just about being better at your job: it's so much more than that. Coursera allows me to learn without limits."

Learner reviews

  • 5 stars

    82.85%

  • 4 stars

    11.42%

  • 3 stars

    2.85%

  • 2 stars

    0.95%

  • 1 star

    1.90%

Showing 3 of 104

MS
Β·

Reviewed on Feb 15, 2021

It was a hard one , Yet very helpful and challenging

JS
Β·

Reviewed on Mar 24, 2025

Really wonderful. Lots of challenges. Many thanks!

JZ
Β·

Reviewed on Oct 19, 2020

I like this course and the way is presented. I think, however, that discussion forums could be better attended by the instructors and mentors.

Frequently asked questions

To access the course materials, assignments and to earn a Certificate, you will need to purchase the Certificate experience when you enroll in a course. You can try a Free Trial instead, or apply for Financial Aid. The course may offer 'Full Course, No Certificate' instead. This option lets you see all course materials, submit required assessments, and get a final grade. This also means that you will not be able to purchase a Certificate experience.

When you enroll in the course, you get access to all of the courses in the Specialization, and you earn a certificate when you complete the work. Your electronic Certificate will be added to your Accomplishments page - from there, you can print your Certificate or add it to your LinkedIn profile.

Yes. In select learning programs, you can apply for financial aid or a scholarship if you can’t afford the enrollment fee. If fin aid or scholarship is available for your learning program selection, you’ll find a link to apply on the description page.

Financial aid available,