Human-Robot Interaction - Theory and applications - Udemy
Rating: 4.2 out of 5 4.2 330 5 hours Updated: 1/2022 Self Driving and ROS - Learn by Doing! Odometry & Control Premium Rating: 4.7 out of 5 4.7 3,745 20.5 hours Updated: 1/2026 HMOD101 - Humanoid Robotics in Action Rating: 5.0 out of 5 5.0 73 9 hours Updated: 8/2024
Before you start
- Basic Python familiarity
- Comfort with algebra or calculus basics
- Interest in robotics systems
About this guide
Rating: 4.2 out of 5 4.2 330 5 hours Updated: 1/2022
Self Driving and ROS - Learn by Doing! Odometry & Control
Premium Rating: 4.7 out of 5 4.7 3,745 20.5 hours Updated: 1/2026
HMOD101 - Humanoid Robotics in Action
Rating: 5.0 out of 5 5.0 73 9 hours Updated: 8/2024
ROS2 Robotics Developer Course - Using ROS2 In Python
Premium Rating: 4.8 out of 5 4.8 3,679 8.5 hours Updated: 6/2024
The Complete Beginner’s Guide to Robotics
Rating: 4.7 out of 5
Common questions
What will I learn in Human-Robot Interaction - Theory and applications - Udemy?
Rating: 4.2 out of 5 4.2 330 5 hours Updated: 1/2022 Self Driving and ROS - Learn by Doing! Odometry & Control Premium Rating: 4.7 out of 5 4.7 3,745 20.5 hours Updated: 1/2026 HMOD101 - Humanoid Robotics in Action Rating: 5.0 out of 5 5.0 73 9 hours Updated: 8/2024
Is Human-Robot Interaction - Theory and applications - Udemy free?
HumanoidHub has not verified public pricing for this guide. Open Udemy for the current access terms before enrolling.
Do I need any prerequisites?
Recommended prep: Basic Python familiarity; Comfort with algebra or calculus basics; Interest in robotics systems.
How long does it take?
1 hours total. Most learners complete this guide in self-directed sessions over a few weeks.
Does it offer a certificate?
This guide does not include a formal certificate. Focus is on the learning material itself.
Related guides

ROS For Beginners (ROS Noetic, Melodic, Kinetic)
Last updated 11/2025 ## What you'll learn Master ROS basics Create, build, run, and debug your ROS program Master ROS core functionalities Learn ROS best practices to make your application readable and scalable Create reusable code for any robot powered by ROS Write ROS code with both Python

Industrial Robotics
Image 3Preview this course # Industrial Robotics Mathematical models and practical applications Created byFabrizio Frigeni Last updated 9/2019 English Image 4Preview this course Purchase options Subscribe and save From$13.00/month Access to 28,000+ top-rated courses Cancel anytime
A new model offers robots precise pick-and-place solutions
SimPLE (Simulation to Pick Localize and placE), a new model developed by MIT researchers, learns to pick, regrasp and place objects using object’s computer-aided design (CAD) model
[PDF] Humanoid Robots: A New Kind of Tool - People | MIT CSAIL
to the environment? How can the system adapt to changing conditions and learn new tasks? Each humanoid robotics lab must address many of the same motor-control, perception, and machine-learning problems. [...] Learning through imitation. Humans acquire new skills and new goals through imitation. Imi
Drake: Model-Based Design and Verification for Robotics
# Model-Based Design and Verification for Robotics A C++ / Python toolbox supported by the Toyota Research Institute. Install Learn More ## Core Library #### Modeling Dynamical Systems APITUTORIAL #### Solving Mathematical Programs APITUTORIAL #### Multibody Kinematics and Dynamics APITUTOR
Top Robotics Courses Online - Updated [May 2026]
Rating: 4.2 out of 5 4.2 (82) Error loading price ### Build a Humanoid Robot Step by Step: Full Project | 2025 Master the Art of Building Your Own Humanoid Robot Step by StepRating: 4.5 out of 540 reviews4.5 total hours64 lecturesAll Levels Instructors: Stepwise Learning ., Technical Support Tea
Robots that use these skills

NEURA 4NE1 Mini
NEURA Robotics
NEURA 4NE1 Mini is a compact humanoid robot from NEURA Robotics aimed at education and research, offered in Standard and Pro configurations.

Sophia
Hanson Robotics
Sophia is a Hanson Robotics social humanoid designed for human-robot interaction with expressive facial animations and conversational AI.

Albert Hubo
HUBO
Albert HUBO is a KAIST HUBO-platform humanoid with an expressive Einstein-like animatronic head for HRI demos and research.
Refer a learner and get early access to our paid pathways and 1:1 mentorship pilot.
Join referral list